�ݺ�ߣshows by User: HORIBA

�ݺ�ߣshows by User: HORIBA / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: HORIBA / Fri, 12 Jun 2020 18:25:46 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: HORIBA Exosomes: Exploiting the Diagnostic and Therapeutic Potential of Nature’s Biological Nanoparticles /slideshow/exosomes-exploiting-the-diagnostic-and-therapeutic-potential-of-natures-biological-nanoparticles/235497690 exosomes-exploitingthediagnosticandtherapeuticpotentialofnaturesbiologicalnanoparticles-200612182547
Research on exosomes and other forms of extracellular vesicles (EVs) have rapidly expanded over the last two decades. These lipid-enclosed, nanoscale messengers are released from cells packed with diverse cargo and can travel long distances to modify the function of target cells. Found in abundant quantities in biological fluids like blood, there is great clinical interest in using EVs as diagnostic markers or altering their properties for therapeutic delivery. Tune in to find out more about what exosomes are, how researchers study them, and what challenges remain. This talk will highlight multi-laser nanoparticle tracking analysis (NTA) with the ViewSizer 3000 and what it offers in exosome research. View recorded webinars: http://bit.ly/particlewebinars]]>
Research on exosomes and other forms of extracellular vesicles (EVs) have rapidly expanded over the last two decades. These lipid-enclosed, nanoscale messengers are released from cells packed with diverse cargo and can travel long distances to modify the function of target cells. Found in abundant quantities in biological fluids like blood, there is great clinical interest in using EVs as diagnostic markers or altering their properties for therapeutic delivery. Tune in to find out more about what exosomes are, how researchers study them, and what challenges remain. This talk will highlight multi-laser nanoparticle tracking analysis (NTA) with the ViewSizer 3000 and what it offers in exosome research. View recorded webinars: http://bit.ly/particlewebinars]]> Fri, 12 Jun 2020 18:25:46 GMT /slideshow/exosomes-exploiting-the-diagnostic-and-therapeutic-potential-of-natures-biological-nanoparticles/235497690 HORIBA@slideshare.net(HORIBA) Exosomes: Exploiting the Diagnostic and Therapeutic Potential of Nature’s Biological Nanoparticles HORIBA Research on exosomes and other forms of extracellular vesicles (EVs) have rapidly expanded over the last two decades. These lipid-enclosed, nanoscale messengers are released from cells packed with diverse cargo and can travel long distances to modify the function of target cells. Found in abundant quantities in biological fluids like blood, there is great clinical interest in using EVs as diagnostic markers or altering their properties for therapeutic delivery. Tune in to find out more about what exosomes are, how researchers study them, and what challenges remain. This talk will highlight multi-laser nanoparticle tracking analysis (NTA) with the ViewSizer 3000 and what it offers in exosome research. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/exosomes-exploitingthediagnosticandtherapeuticpotentialofnaturesbiologicalnanoparticles-200612182547-thumbnail.jpg?width=120&height=120&fit=bounds" /> Research on exosomes and other forms of extracellular vesicles (EVs) have rapidly expanded over the last two decades. These lipid-enclosed, nanoscale messengers are released from cells packed with diverse cargo and can travel long distances to modify the function of target cells. Found in abundant quantities in biological fluids like blood, there is great clinical interest in using EVs as diagnostic markers or altering their properties for therapeutic delivery. Tune in to find out more about what exosomes are, how researchers study them, and what challenges remain. This talk will highlight multi-laser nanoparticle tracking analysis (NTA) with the ViewSizer 3000 and what it offers in exosome research. View recorded webinars: http://bit.ly/particlewebinars

Exosomes: Exploiting the Diagnostic and Therapeutic Potential of Nature’s Biological Nanoparticles from HORIBA Particle

]]> 1194 0 https://cdn.slidesharecdn.com/ss_thumbnails/exosomes-exploitingthediagnosticandtherapeuticpotentialofnaturesbiologicalnanoparticles-200612182547-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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1 Modern Particle Characterization Techniques Series: Laser Diffraction /slideshow/modern-particle-characterization-techniques-series-laser-diffraction/234740938 modernparticlecharacterizationiild-200529220350
This part two of the webinar series will introduce participants to basic experimental considerations when choosing laser diffraction for particle size analysis. The presentation will explain what makes laser diffraction a “modern technique.” Both wet and dry case studies will be shown along with brief demonstration videos. In this webinar, you will learn: - Method development - Choosing an appropriate refractive index - Understanding the analysis results View recorded webinars: http://bit.ly/particlewebinars ]]>
This part two of the webinar series will introduce participants to basic experimental considerations when choosing laser diffraction for particle size analysis. The presentation will explain what makes laser diffraction a “modern technique.” Both wet and dry case studies will be shown along with brief demonstration videos. In this webinar, you will learn: - Method development - Choosing an appropriate refractive index - Understanding the analysis results View recorded webinars: http://bit.ly/particlewebinars ]]> Fri, 29 May 2020 22:03:50 GMT /slideshow/modern-particle-characterization-techniques-series-laser-diffraction/234740938 HORIBA@slideshare.net(HORIBA) Modern Particle Characterization Techniques Series: Laser Diffraction HORIBA This part two of the webinar series will introduce participants to basic experimental considerations when choosing laser diffraction for particle size analysis. The presentation will explain what makes laser diffraction a “modern technique.” Both wet and dry case studies will be shown along with brief demonstration videos. In this webinar, you will learn: - Method development - Choosing an appropriate refractive index - Understanding the analysis results View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/modernparticlecharacterizationiild-200529220350-thumbnail.jpg?width=120&height=120&fit=bounds" /> This part two of the webinar series will introduce participants to basic experimental considerations when choosing laser diffraction for particle size analysis. The presentation will explain what makes laser diffraction a “modern technique.” Both wet and dry case studies will be shown along with brief demonstration videos. In this webinar, you will learn: - Method development - Choosing an appropriate refractive index - Understanding the analysis results View recorded webinars: http://bit.ly/particlewebinars

Modern Particle Characterization Techniques Series: Laser Diffraction from HORIBA Particle

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1 Mastering the Processing Methods of Engineered Particles /slideshow/mastering-the-processing-methods-of-engineered-particles/234065744 masteringtheprocessingmethodsofengineeredparticles-200515223530
This webinar will explain the development process for particles with specific attributes that can cause problems during production. Three case studies will be discussed: Engineered particles that protect omega-3 oil from oxidation using special microencapsulation methods; modified cellulose fibers with high water holding capacity; and engineered particles produced by melt atomization processes with unique attributes. The talk will focus on alternative processing methods, the importance of understanding the materials being used, and what can happen when you do not understand the functional properties that you are designing for. View recorded webinars: http://bit.ly/particlewebinars ]]>
This webinar will explain the development process for particles with specific attributes that can cause problems during production. Three case studies will be discussed: Engineered particles that protect omega-3 oil from oxidation using special microencapsulation methods; modified cellulose fibers with high water holding capacity; and engineered particles produced by melt atomization processes with unique attributes. The talk will focus on alternative processing methods, the importance of understanding the materials being used, and what can happen when you do not understand the functional properties that you are designing for. View recorded webinars: http://bit.ly/particlewebinars ]]> Fri, 15 May 2020 22:35:30 GMT /slideshow/mastering-the-processing-methods-of-engineered-particles/234065744 HORIBA@slideshare.net(HORIBA) Mastering the Processing Methods of Engineered Particles HORIBA This webinar will explain the development process for particles with specific attributes that can cause problems during production. Three case studies will be discussed: Engineered particles that protect omega-3 oil from oxidation using special microencapsulation methods; modified cellulose fibers with high water holding capacity; and engineered particles produced by melt atomization processes with unique attributes. The talk will focus on alternative processing methods, the importance of understanding the materials being used, and what can happen when you do not understand the functional properties that you are designing for. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/masteringtheprocessingmethodsofengineeredparticles-200515223530-thumbnail.jpg?width=120&height=120&fit=bounds" /> This webinar will explain the development process for particles with specific attributes that can cause problems during production. Three case studies will be discussed: Engineered particles that protect omega-3 oil from oxidation using special microencapsulation methods; modified cellulose fibers with high water holding capacity; and engineered particles produced by melt atomization processes with unique attributes. The talk will focus on alternative processing methods, the importance of understanding the materials being used, and what can happen when you do not understand the functional properties that you are designing for. View recorded webinars: http://bit.ly/particlewebinars

Mastering the Processing Methods of Engineered Particles from HORIBA Particle

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1 Modern Particle Characterization Techniques Series I: Introduction /HORIBA/modern-particle-characterization-techniques-series-i-introduction-232601159 modernparticlecharacterizationtechniquesseriesiintroduction-200424225621
Particle characterization is a rich field that touches industries from mining to pharmaceutical production. There are a number of characterization techniques available to the modern analyst. Understanding them is key to selecting the right technique as well as gaining deeper insight into the meaning of measurement results. This webinar is the beginning of a new series reviewing a number of modern measurement techniques. Dr. Michael Pohl, Vice President of HORIBA Scientific, will describe some common ideas in particle characterization along with common questions to ask when selecting a technique. Mike will also give a very brief overview of some modern techniques before subsequent webinars go into detail. View recorded webinars: http://bit.ly/particlewebinars ]]>
Particle characterization is a rich field that touches industries from mining to pharmaceutical production. There are a number of characterization techniques available to the modern analyst. Understanding them is key to selecting the right technique as well as gaining deeper insight into the meaning of measurement results. This webinar is the beginning of a new series reviewing a number of modern measurement techniques. Dr. Michael Pohl, Vice President of HORIBA Scientific, will describe some common ideas in particle characterization along with common questions to ask when selecting a technique. Mike will also give a very brief overview of some modern techniques before subsequent webinars go into detail. View recorded webinars: http://bit.ly/particlewebinars ]]> Fri, 24 Apr 2020 22:56:21 GMT /HORIBA/modern-particle-characterization-techniques-series-i-introduction-232601159 HORIBA@slideshare.net(HORIBA) Modern Particle Characterization Techniques Series I: Introduction HORIBA Particle characterization is a rich field that touches industries from mining to pharmaceutical production. There are a number of characterization techniques available to the modern analyst. Understanding them is key to selecting the right technique as well as gaining deeper insight into the meaning of measurement results. This webinar is the beginning of a new series reviewing a number of modern measurement techniques. Dr. Michael Pohl, Vice President of HORIBA Scientific, will describe some common ideas in particle characterization along with common questions to ask when selecting a technique. Mike will also give a very brief overview of some modern techniques before subsequent webinars go into detail. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/modernparticlecharacterizationtechniquesseriesiintroduction-200424225621-thumbnail.jpg?width=120&height=120&fit=bounds" /> Particle characterization is a rich field that touches industries from mining to pharmaceutical production. There are a number of characterization techniques available to the modern analyst. Understanding them is key to selecting the right technique as well as gaining deeper insight into the meaning of measurement results. This webinar is the beginning of a new series reviewing a number of modern measurement techniques. Dr. Michael Pohl, Vice President of HORIBA Scientific, will describe some common ideas in particle characterization along with common questions to ask when selecting a technique. Mike will also give a very brief overview of some modern techniques before subsequent webinars go into detail. View recorded webinars: http://bit.ly/particlewebinars

Modern Particle Characterization Techniques Series I: Introduction from HORIBA Particle

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1 Concentration and Size of Viruses and Virus-like Particles /slideshow/concentration-and-size-of-viruses-and-viruslike-particles/231724584 concentrationandsizeofvirusesandvirus-likeparticles-200410001143
Accurate concentration for virus and virus-like particles can be determined by multi-laser nanoparticle tracking analysis due to the fact they are nanoparticles. Other biologically relevant materials will have sizes that are close to those of viruses, whether they are protein aggregates that provoke an unwanted immune response or exosomes with a similar size and do not provoke an immune response. In this webinar, Dr. Jeff Bodycomb will discuss the use of multi-laser nanoparticle tracking analysis (NTA) to determine the size distribution and concentration of these species, the latter which is correlated to viral infectivity. Learn more about: -How NTA determines concentration and size distribution -Advantages and limits of the multi-laser technique -Example measurement results View recorded webinars: http://bit.ly/particlewebinars]]>
Accurate concentration for virus and virus-like particles can be determined by multi-laser nanoparticle tracking analysis due to the fact they are nanoparticles. Other biologically relevant materials will have sizes that are close to those of viruses, whether they are protein aggregates that provoke an unwanted immune response or exosomes with a similar size and do not provoke an immune response. In this webinar, Dr. Jeff Bodycomb will discuss the use of multi-laser nanoparticle tracking analysis (NTA) to determine the size distribution and concentration of these species, the latter which is correlated to viral infectivity. Learn more about: -How NTA determines concentration and size distribution -Advantages and limits of the multi-laser technique -Example measurement results View recorded webinars: http://bit.ly/particlewebinars]]> Fri, 10 Apr 2020 00:11:43 GMT /slideshow/concentration-and-size-of-viruses-and-viruslike-particles/231724584 HORIBA@slideshare.net(HORIBA) Concentration and Size of Viruses and Virus-like Particles HORIBA Accurate concentration for virus and virus-like particles can be determined by multi-laser nanoparticle tracking analysis due to the fact they are nanoparticles. Other biologically relevant materials will have sizes that are close to those of viruses, whether they are protein aggregates that provoke an unwanted immune response or exosomes with a similar size and do not provoke an immune response. In this webinar, Dr. Jeff Bodycomb will discuss the use of multi-laser nanoparticle tracking analysis (NTA) to determine the size distribution and concentration of these species, the latter which is correlated to viral infectivity. Learn more about: -How NTA determines concentration and size distribution -Advantages and limits of the multi-laser technique -Example measurement results View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/concentrationandsizeofvirusesandvirus-likeparticles-200410001143-thumbnail.jpg?width=120&height=120&fit=bounds" /> Accurate concentration for virus and virus-like particles can be determined by multi-laser nanoparticle tracking analysis due to the fact they are nanoparticles. Other biologically relevant materials will have sizes that are close to those of viruses, whether they are protein aggregates that provoke an unwanted immune response or exosomes with a similar size and do not provoke an immune response. In this webinar, Dr. Jeff Bodycomb will discuss the use of multi-laser nanoparticle tracking analysis (NTA) to determine the size distribution and concentration of these species, the latter which is correlated to viral infectivity. Learn more about: -How NTA determines concentration and size distribution -Advantages and limits of the multi-laser technique -Example measurement results View recorded webinars: http://bit.ly/particlewebinars

Concentration and Size of Viruses and Virus-like Particles from HORIBA Particle

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1 The Value of Real-time Imaging: Integrating Particle Size Analysis onto Fluid Beds, Twin Screw Granulators and Roller Compactors /slideshow/the-value-of-realtime-imaging-integrating-particle-size-analysis-onto-fluid-beds-twin-screw-granulators-and-roller-compactors/230930435 thevalueofreal-timeimagingintegratingparticlesizeanalysisontofluidbedstwinscrewgranulatorsandrollerc-200326222928
The capability to measure critical quality attributes (CQA) such as particle size in real time reveals their functional relationships with the critical process parameters (CPP). The Eyecon2™ offers a true non-product contact, a real-time imaging system that can be used with dry and wet bulk solid processing equipment affording a digital maturity competitive edge. We will dive into how the imaging technology works, the basic principles of analysis for particle size detection, the methods of integration onto process equipment such as Fluid Beds, Twin Screw Granulators and Roller Compactor and discuss key applications where the value of real-time in-line particle size results archetype how the Eyecon2 enables transparency, agility and productivity that aligns with the Factory of the Future and Pharma 4.0. View recorded webinars: http://bit.ly/particlewebinars]]>
The capability to measure critical quality attributes (CQA) such as particle size in real time reveals their functional relationships with the critical process parameters (CPP). The Eyecon2™ offers a true non-product contact, a real-time imaging system that can be used with dry and wet bulk solid processing equipment affording a digital maturity competitive edge. We will dive into how the imaging technology works, the basic principles of analysis for particle size detection, the methods of integration onto process equipment such as Fluid Beds, Twin Screw Granulators and Roller Compactor and discuss key applications where the value of real-time in-line particle size results archetype how the Eyecon2 enables transparency, agility and productivity that aligns with the Factory of the Future and Pharma 4.0. View recorded webinars: http://bit.ly/particlewebinars]]> Thu, 26 Mar 2020 22:29:28 GMT /slideshow/the-value-of-realtime-imaging-integrating-particle-size-analysis-onto-fluid-beds-twin-screw-granulators-and-roller-compactors/230930435 HORIBA@slideshare.net(HORIBA) The Value of Real-time Imaging: Integrating Particle Size Analysis onto Fluid Beds, Twin Screw Granulators and Roller Compactors HORIBA The capability to measure critical quality attributes (CQA) such as particle size in real time reveals their functional relationships with the critical process parameters (CPP). The Eyecon2™ offers a true non-product contact, a real-time imaging system that can be used with dry and wet bulk solid processing equipment affording a digital maturity competitive edge. We will dive into how the imaging technology works, the basic principles of analysis for particle size detection, the methods of integration onto process equipment such as Fluid Beds, Twin Screw Granulators and Roller Compactor and discuss key applications where the value of real-time in-line particle size results archetype how the Eyecon2 enables transparency, agility and productivity that aligns with the Factory of the Future and Pharma 4.0. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/thevalueofreal-timeimagingintegratingparticlesizeanalysisontofluidbedstwinscrewgranulatorsandrollerc-200326222928-thumbnail.jpg?width=120&height=120&fit=bounds" /> The capability to measure critical quality attributes (CQA) such as particle size in real time reveals their functional relationships with the critical process parameters (CPP). The Eyecon2™ offers a true non-product contact, a real-time imaging system that can be used with dry and wet bulk solid processing equipment affording a digital maturity competitive edge. We will dive into how the imaging technology works, the basic principles of analysis for particle size detection, the methods of integration onto process equipment such as Fluid Beds, Twin Screw Granulators and Roller Compactor and discuss key applications where the value of real-time in-line particle size results archetype how the Eyecon2 enables transparency, agility and productivity that aligns with the Factory of the Future and Pharma 4.0. View recorded webinars: http://bit.ly/particlewebinars

The Value of Real-time Imaging: Integrating Particle Size Analysis onto Fluid Beds, Twin Screw Granulators and Roller Compactors from HORIBA Particle

]]> 274 0 https://cdn.slidesharecdn.com/ss_thumbnails/thevalueofreal-timeimagingintegratingparticlesizeanalysisontofluidbedstwinscrewgranulatorsandrollerc-200326222928-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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1 How and Why to Analyze Ceramic Powder Particles /slideshow/how-and-why-to-analyze-ceramic-powder-particles/227170694 howandwhytoanalyzeceramicpowderparticles-200206225854
Packing density, mechanical strength, and processing of ceramics are all affected by the size distribution of the powders. Therefore, particle size analysis is an important quality control step. Due to its wide size range and flexibility, laser diffraction is often the preferred method of analysis. Laser diffraction can be used for particles with sizes from 10’s of nanometers to millimeters. In this webinar, Dr. Jeff Bodycomb of HORIBA Scientific discusses particle analysis of ceramic particles, including electronic materials and common oxides. He will cover the basic principles of analysis, practical methods for obtaining good data, and example data. View recorded webinars: http://bit.ly/particlewebinars]]>
Packing density, mechanical strength, and processing of ceramics are all affected by the size distribution of the powders. Therefore, particle size analysis is an important quality control step. Due to its wide size range and flexibility, laser diffraction is often the preferred method of analysis. Laser diffraction can be used for particles with sizes from 10’s of nanometers to millimeters. In this webinar, Dr. Jeff Bodycomb of HORIBA Scientific discusses particle analysis of ceramic particles, including electronic materials and common oxides. He will cover the basic principles of analysis, practical methods for obtaining good data, and example data. View recorded webinars: http://bit.ly/particlewebinars]]> Thu, 06 Feb 2020 22:58:54 GMT /slideshow/how-and-why-to-analyze-ceramic-powder-particles/227170694 HORIBA@slideshare.net(HORIBA) How and Why to Analyze Ceramic Powder Particles HORIBA Packing density, mechanical strength, and processing of ceramics are all affected by the size distribution of the powders. Therefore, particle size analysis is an important quality control step. Due to its wide size range and flexibility, laser diffraction is often the preferred method of analysis. Laser diffraction can be used for particles with sizes from 10’s of nanometers to millimeters. In this webinar, Dr. Jeff Bodycomb of HORIBA Scientific discusses particle analysis of ceramic particles, including electronic materials and common oxides. He will cover the basic principles of analysis, practical methods for obtaining good data, and example data. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/howandwhytoanalyzeceramicpowderparticles-200206225854-thumbnail.jpg?width=120&height=120&fit=bounds" /> Packing density, mechanical strength, and processing of ceramics are all affected by the size distribution of the powders. Therefore, particle size analysis is an important quality control step. Due to its wide size range and flexibility, laser diffraction is often the preferred method of analysis. Laser diffraction can be used for particles with sizes from 10’s of nanometers to millimeters. In this webinar, Dr. Jeff Bodycomb of HORIBA Scientific discusses particle analysis of ceramic particles, including electronic materials and common oxides. He will cover the basic principles of analysis, practical methods for obtaining good data, and example data. View recorded webinars: http://bit.ly/particlewebinars

How and Why to Analyze Ceramic Powder Particles from HORIBA Particle

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1 Interpreting Laser Diffraction Results for Non-Spherical Particles /slideshow/interpreting-laser-diffraction-results-for-nonspherical-particles/205544477 interpretingdiffractionresultsfornon-sphericalparticles-191213224934
Particle shape can have a profound impact on particle size distribution (PSD) measurements. In the case of Laser Diffraction, the shape and aspect ratio of particles alter the diffraction pattern used to determine PSD, which is calculated on the basis of equivalent spherical diameter. For instance, it has been established that the reported size of an ellipsoid is always smaller than the physical major dimension of the particle. Furthermore, when non-spherical particles align within a flowing sample, laser diffraction instruments typically report a bi-modal size distribution even in the case of monodisperse samples. Equipped with only qualitative knowledge of particle shape, the particle analyst can resolve this inherent ambiguity and use laser diffraction to obtain quantitative information (such as aspect ratio) about non-spherical particles. This webinar explains the origin of this effect, describes how to interpret PSD data in such cases, and demonstrates several practical applications for measurements of crystals, bacteria, and clays. View recorded webinars: http://bit.ly/particlewebinars ]]>
Particle shape can have a profound impact on particle size distribution (PSD) measurements. In the case of Laser Diffraction, the shape and aspect ratio of particles alter the diffraction pattern used to determine PSD, which is calculated on the basis of equivalent spherical diameter. For instance, it has been established that the reported size of an ellipsoid is always smaller than the physical major dimension of the particle. Furthermore, when non-spherical particles align within a flowing sample, laser diffraction instruments typically report a bi-modal size distribution even in the case of monodisperse samples. Equipped with only qualitative knowledge of particle shape, the particle analyst can resolve this inherent ambiguity and use laser diffraction to obtain quantitative information (such as aspect ratio) about non-spherical particles. This webinar explains the origin of this effect, describes how to interpret PSD data in such cases, and demonstrates several practical applications for measurements of crystals, bacteria, and clays. View recorded webinars: http://bit.ly/particlewebinars ]]> Fri, 13 Dec 2019 22:49:34 GMT /slideshow/interpreting-laser-diffraction-results-for-nonspherical-particles/205544477 HORIBA@slideshare.net(HORIBA) Interpreting Laser Diffraction Results for Non-Spherical Particles HORIBA Particle shape can have a profound impact on particle size distribution (PSD) measurements. In the case of Laser Diffraction, the shape and aspect ratio of particles alter the diffraction pattern used to determine PSD, which is calculated on the basis of equivalent spherical diameter. For instance, it has been established that the reported size of an ellipsoid is always smaller than the physical major dimension of the particle. Furthermore, when non-spherical particles align within a flowing sample, laser diffraction instruments typically report a bi-modal size distribution even in the case of monodisperse samples. Equipped with only qualitative knowledge of particle shape, the particle analyst can resolve this inherent ambiguity and use laser diffraction to obtain quantitative information (such as aspect ratio) about non-spherical particles. This webinar explains the origin of this effect, describes how to interpret PSD data in such cases, and demonstrates several practical applications for measurements of crystals, bacteria, and clays. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/interpretingdiffractionresultsfornon-sphericalparticles-191213224934-thumbnail.jpg?width=120&height=120&fit=bounds" /> Particle shape can have a profound impact on particle size distribution (PSD) measurements. In the case of Laser Diffraction, the shape and aspect ratio of particles alter the diffraction pattern used to determine PSD, which is calculated on the basis of equivalent spherical diameter. For instance, it has been established that the reported size of an ellipsoid is always smaller than the physical major dimension of the particle. Furthermore, when non-spherical particles align within a flowing sample, laser diffraction instruments typically report a bi-modal size distribution even in the case of monodisperse samples. Equipped with only qualitative knowledge of particle shape, the particle analyst can resolve this inherent ambiguity and use laser diffraction to obtain quantitative information (such as aspect ratio) about non-spherical particles. This webinar explains the origin of this effect, describes how to interpret PSD data in such cases, and demonstrates several practical applications for measurements of crystals, bacteria, and clays. View recorded webinars: http://bit.ly/particlewebinars

Interpreting Laser Diffraction Results for Non-Spherical Particles from HORIBA Particle

]]> 397 4 https://cdn.slidesharecdn.com/ss_thumbnails/interpretingdiffractionresultsfornon-sphericalparticles-191213224934-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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1 Particle Classroom Series VI: Method Development /slideshow/particle-classroom-series-vi-method-development/198030277 particleclassroomseriesvi-methoddevelopment-191126180243
Great results need a great method. In order to compare different lots of material or different manufacturing approaches, variation due to sample preparation should be minimized. Should the sample be run in suspension or as a dry powder? What salts or surfactants are needed for the suspension? How much energy should be applied and how? Systematically determining the answers to these questions is method development. View recorded webinars: http://bit.ly/particlewebinars ]]>
Great results need a great method. In order to compare different lots of material or different manufacturing approaches, variation due to sample preparation should be minimized. Should the sample be run in suspension or as a dry powder? What salts or surfactants are needed for the suspension? How much energy should be applied and how? Systematically determining the answers to these questions is method development. View recorded webinars: http://bit.ly/particlewebinars ]]> Tue, 26 Nov 2019 18:02:43 GMT /slideshow/particle-classroom-series-vi-method-development/198030277 HORIBA@slideshare.net(HORIBA) Particle Classroom Series VI: Method Development HORIBA Great results need a great method. In order to compare different lots of material or different manufacturing approaches, variation due to sample preparation should be minimized. Should the sample be run in suspension or as a dry powder? What salts or surfactants are needed for the suspension? How much energy should be applied and how? Systematically determining the answers to these questions is method development. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/particleclassroomseriesvi-methoddevelopment-191126180243-thumbnail.jpg?width=120&height=120&fit=bounds" /> Great results need a great method. In order to compare different lots of material or different manufacturing approaches, variation due to sample preparation should be minimized. Should the sample be run in suspension or as a dry powder? What salts or surfactants are needed for the suspension? How much energy should be applied and how? Systematically determining the answers to these questions is method development. View recorded webinars: http://bit.ly/particlewebinars

Particle Classroom Series VI: Method Development from HORIBA Particle

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1 Particle Classroom Series V: Sampling and Dispersion /slideshow/particle-classroom-series-v-sampling-and-dispersion/198027028 particleclassroomseriesv-samplinganddispersion-191126175336
The goal of a particle analysis is to understand the properties of a material, whether it is the size distribution of particles that are manufactured today or the size distribution of particles in the truck that just arrived. Naturally, a particle analyzer only encounters a tiny fraction of that material, the sample. In addition, particles can be bound together to form agglomerates that do not represent the underlying materials. The instrument will then measure the agglomerates, not its constituent particles. In this webinar, Jeff discusses how to improve data quality by obtaining a representative sample and effectively disperse the sample to remove or prevent agglomerates. View recorded webinars: http://bit.ly/particlewebinars ]]>
The goal of a particle analysis is to understand the properties of a material, whether it is the size distribution of particles that are manufactured today or the size distribution of particles in the truck that just arrived. Naturally, a particle analyzer only encounters a tiny fraction of that material, the sample. In addition, particles can be bound together to form agglomerates that do not represent the underlying materials. The instrument will then measure the agglomerates, not its constituent particles. In this webinar, Jeff discusses how to improve data quality by obtaining a representative sample and effectively disperse the sample to remove or prevent agglomerates. View recorded webinars: http://bit.ly/particlewebinars ]]> Tue, 26 Nov 2019 17:53:36 GMT /slideshow/particle-classroom-series-v-sampling-and-dispersion/198027028 HORIBA@slideshare.net(HORIBA) Particle Classroom Series V: Sampling and Dispersion HORIBA The goal of a particle analysis is to understand the properties of a material, whether it is the size distribution of particles that are manufactured today or the size distribution of particles in the truck that just arrived. Naturally, a particle analyzer only encounters a tiny fraction of that material, the sample. In addition, particles can be bound together to form agglomerates that do not represent the underlying materials. The instrument will then measure the agglomerates, not its constituent particles. In this webinar, Jeff discusses how to improve data quality by obtaining a representative sample and effectively disperse the sample to remove or prevent agglomerates. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/particleclassroomseriesv-samplinganddispersion-191126175336-thumbnail.jpg?width=120&height=120&fit=bounds" /> The goal of a particle analysis is to understand the properties of a material, whether it is the size distribution of particles that are manufactured today or the size distribution of particles in the truck that just arrived. Naturally, a particle analyzer only encounters a tiny fraction of that material, the sample. In addition, particles can be bound together to form agglomerates that do not represent the underlying materials. The instrument will then measure the agglomerates, not its constituent particles. In this webinar, Jeff discusses how to improve data quality by obtaining a representative sample and effectively disperse the sample to remove or prevent agglomerates. View recorded webinars: http://bit.ly/particlewebinars

Particle Classroom Series V: Sampling and Dispersion from HORIBA Particle

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1 Particle Size Analyses of Polydisperse Liposome Formulations with Multispectral Nanoparticle Tracking Analysis /slideshow/particle-size-analyses-of-polydisperse-liposome-formulations-with-multispectral-nanoparticle-tracking-analysis/185470431 particlesizeanalysesofpolydisperseliposomeformulationswithmultispectralnanoparticletrackinganalysis-191022205703
During this webinar, Dr. Singh will discuss the significance of liposome size characteristics in medicine. He will discuss the challenges present in particle size measurement for heterogeneous size containing formulation (polydisperse). He will also discuss his recently published results on polydisperse bead and liposome formulations using DLS, conventional NTA, laser diffraction and a novel multispectral NTA measurement techniques. View recorded webinars: http://bit.ly/particlewebinars ]]>
During this webinar, Dr. Singh will discuss the significance of liposome size characteristics in medicine. He will discuss the challenges present in particle size measurement for heterogeneous size containing formulation (polydisperse). He will also discuss his recently published results on polydisperse bead and liposome formulations using DLS, conventional NTA, laser diffraction and a novel multispectral NTA measurement techniques. View recorded webinars: http://bit.ly/particlewebinars ]]> Tue, 22 Oct 2019 20:57:03 GMT /slideshow/particle-size-analyses-of-polydisperse-liposome-formulations-with-multispectral-nanoparticle-tracking-analysis/185470431 HORIBA@slideshare.net(HORIBA) Particle Size Analyses of Polydisperse Liposome Formulations with Multispectral Nanoparticle Tracking Analysis HORIBA During this webinar, Dr. Singh will discuss the significance of liposome size characteristics in medicine. He will discuss the challenges present in particle size measurement for heterogeneous size containing formulation (polydisperse). He will also discuss his recently published results on polydisperse bead and liposome formulations using DLS, conventional NTA, laser diffraction and a novel multispectral NTA measurement techniques. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/particlesizeanalysesofpolydisperseliposomeformulationswithmultispectralnanoparticletrackinganalysis-191022205703-thumbnail.jpg?width=120&height=120&fit=bounds" /> During this webinar, Dr. Singh will discuss the significance of liposome size characteristics in medicine. He will discuss the challenges present in particle size measurement for heterogeneous size containing formulation (polydisperse). He will also discuss his recently published results on polydisperse bead and liposome formulations using DLS, conventional NTA, laser diffraction and a novel multispectral NTA measurement techniques. View recorded webinars: http://bit.ly/particlewebinars

Particle Size Analyses of Polydisperse Liposome Formulations with Multispectral Nanoparticle Tracking Analysis from HORIBA Particle

]]> 322 2 https://cdn.slidesharecdn.com/ss_thumbnails/particlesizeanalysesofpolydisperseliposomeformulationswithmultispectralnanoparticletrackinganalysis-191022205703-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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1 Particle Classroom Series IV: System Verification /slideshow/particle-classroom-series-iv-system-verification/162108158 particleclassroomiv-systemverification-190807205738
Confirming the performance of a particle analyzer is a critical step in ensuring and proving data quality. Join Dr. Jeff Bodycomb as he discusses performance expectations, confirming system performance, and recommended practices. This is part four of a six-part classroom series. View recorded webinars: http://bit.ly/particlewebinars ]]>
Confirming the performance of a particle analyzer is a critical step in ensuring and proving data quality. Join Dr. Jeff Bodycomb as he discusses performance expectations, confirming system performance, and recommended practices. This is part four of a six-part classroom series. View recorded webinars: http://bit.ly/particlewebinars ]]> Wed, 07 Aug 2019 20:57:38 GMT /slideshow/particle-classroom-series-iv-system-verification/162108158 HORIBA@slideshare.net(HORIBA) Particle Classroom Series IV: System Verification HORIBA Confirming the performance of a particle analyzer is a critical step in ensuring and proving data quality. Join Dr. Jeff Bodycomb as he discusses performance expectations, confirming system performance, and recommended practices. This is part four of a six-part classroom series. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/particleclassroomiv-systemverification-190807205738-thumbnail.jpg?width=120&height=120&fit=bounds" /> Confirming the performance of a particle analyzer is a critical step in ensuring and proving data quality. Join Dr. Jeff Bodycomb as he discusses performance expectations, confirming system performance, and recommended practices. This is part four of a six-part classroom series. View recorded webinars: http://bit.ly/particlewebinars

Particle Classroom Series IV: System Verification from HORIBA Particle

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1 Principio, Optimización y Aplicaciones del Análisis de seguimiento de Nanopartículas (NTA) https://es.slideshare.net/slideshow/principio-optimizacin-y-aplicaciones-del-anlisis-de-seguimiento-de-nanopartculas-nta/158948991 principiooptimizacionyaplicacionesdelatecnicadenta-sm-190729224607
Este webinar tiene como objetivo presentar los fundamentos teóricos del análisis de seguimiento de nanopartículas (NTA), su optimización y su aplicaciones más recientes en la industria e investigación. - Principio de la Técnica de Rastreo de Nanopartículas (NTA) - Información que nos proporciona la técnica NTA - Limitaciones de la técnica NTA - Optimización - Aplicaciones más recientes View recorded webinars: http://bit.ly/particlewebinars ]]>
Este webinar tiene como objetivo presentar los fundamentos teóricos del análisis de seguimiento de nanopartículas (NTA), su optimización y su aplicaciones más recientes en la industria e investigación. - Principio de la Técnica de Rastreo de Nanopartículas (NTA) - Información que nos proporciona la técnica NTA - Limitaciones de la técnica NTA - Optimización - Aplicaciones más recientes View recorded webinars: http://bit.ly/particlewebinars ]]> Mon, 29 Jul 2019 22:46:07 GMT https://es.slideshare.net/slideshow/principio-optimizacin-y-aplicaciones-del-anlisis-de-seguimiento-de-nanopartculas-nta/158948991 HORIBA@slideshare.net(HORIBA) Principio, Optimización y Aplicaciones del Análisis de seguimiento de Nanopartículas (NTA) HORIBA Este webinar tiene como objetivo presentar los fundamentos teóricos del análisis de seguimiento de nanopartículas (NTA), su optimización y su aplicaciones más recientes en la industria e investigación. - Principio de la Técnica de Rastreo de Nanopartículas (NTA) - Información que nos proporciona la técnica NTA - Limitaciones de la técnica NTA - Optimización - Aplicaciones más recientes View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/principiooptimizacionyaplicacionesdelatecnicadenta-sm-190729224607-thumbnail.jpg?width=120&height=120&fit=bounds" /> Este webinar tiene como objetivo presentar los fundamentos teóricos del análisis de seguimiento de nanopartículas (NTA), su optimización y su aplicaciones más recientes en la industria e investigación. - Principio de la Técnica de Rastreo de Nanopartículas (NTA) - Información que nos proporciona la técnica NTA - Limitaciones de la técnica NTA - Optimización - Aplicaciones más recientes View recorded webinars: http://bit.ly/particlewebinars

from HORIBA Particle

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1 BET Theory Explained /slideshow/bet-theory-explained/152226752 bettheoryexplained-190627161736
Surface area is an important physical property that influences the reactivity, dissolution, catalysis, and separation of materials. The surface area often must be carefully engineered and measured to optimize specific functions. In this Webinar, our applications lab will explain with real-world examples: - Physical adsorption technique - BET theory - Sample preparation – the start of a good measurement - Calculating specific surface area from gas adsorption on solid surfaces - Troubleshooting – what happens when things go wrong? View recorded webinars: http://bit.ly/particlewebinars ]]>
Surface area is an important physical property that influences the reactivity, dissolution, catalysis, and separation of materials. The surface area often must be carefully engineered and measured to optimize specific functions. In this Webinar, our applications lab will explain with real-world examples: - Physical adsorption technique - BET theory - Sample preparation – the start of a good measurement - Calculating specific surface area from gas adsorption on solid surfaces - Troubleshooting – what happens when things go wrong? View recorded webinars: http://bit.ly/particlewebinars ]]> Thu, 27 Jun 2019 16:17:36 GMT /slideshow/bet-theory-explained/152226752 HORIBA@slideshare.net(HORIBA) BET Theory Explained HORIBA Surface area is an important physical property that influences the reactivity, dissolution, catalysis, and separation of materials. The surface area often must be carefully engineered and measured to optimize specific functions. In this Webinar, our applications lab will explain with real-world examples: - Physical adsorption technique - BET theory - Sample preparation – the start of a good measurement - Calculating specific surface area from gas adsorption on solid surfaces - Troubleshooting – what happens when things go wrong? View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/bettheoryexplained-190627161736-thumbnail.jpg?width=120&height=120&fit=bounds" /> Surface area is an important physical property that influences the reactivity, dissolution, catalysis, and separation of materials. The surface area often must be carefully engineered and measured to optimize specific functions. In this Webinar, our applications lab will explain with real-world examples: - Physical adsorption technique - BET theory - Sample preparation – the start of a good measurement - Calculating specific surface area from gas adsorption on solid surfaces - Troubleshooting – what happens when things go wrong? View recorded webinars: http://bit.ly/particlewebinars

BET Theory Explained from HORIBA Particle

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1 Particle Classroom Series III: Refractive Index and Laser Diffraction /slideshow/particle-classroom-series-iii-refractive-index-and-laser-diffraction/137028648 particleclassroomseriesiii-refractiveindexandlaserdiffraction-190318191047
Modern laser diffraction particle analyzers use particle refractive index to accurately model the behavior of light inside of the particle. However, this presents the analyst with the challenge of choosing the correct value. In this Webinar, Dr. Jeff Bodycomb will discuss: - Why do we need a refractive index value? - What is refractive index? - How do we choose refractive index values? View recorded webinars: http://bit.ly/particlewebinars]]>
Modern laser diffraction particle analyzers use particle refractive index to accurately model the behavior of light inside of the particle. However, this presents the analyst with the challenge of choosing the correct value. In this Webinar, Dr. Jeff Bodycomb will discuss: - Why do we need a refractive index value? - What is refractive index? - How do we choose refractive index values? View recorded webinars: http://bit.ly/particlewebinars]]> Mon, 18 Mar 2019 19:10:47 GMT /slideshow/particle-classroom-series-iii-refractive-index-and-laser-diffraction/137028648 HORIBA@slideshare.net(HORIBA) Particle Classroom Series III: Refractive Index and Laser Diffraction HORIBA Modern laser diffraction particle analyzers use particle refractive index to accurately model the behavior of light inside of the particle. However, this presents the analyst with the challenge of choosing the correct value. In this Webinar, Dr. Jeff Bodycomb will discuss: - Why do we need a refractive index value? - What is refractive index? - How do we choose refractive index values? View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/particleclassroomseriesiii-refractiveindexandlaserdiffraction-190318191047-thumbnail.jpg?width=120&height=120&fit=bounds" /> Modern laser diffraction particle analyzers use particle refractive index to accurately model the behavior of light inside of the particle. However, this presents the analyst with the challenge of choosing the correct value. In this Webinar, Dr. Jeff Bodycomb will discuss: - Why do we need a refractive index value? - What is refractive index? - How do we choose refractive index values? View recorded webinars: http://bit.ly/particlewebinars

Particle Classroom Series III: Refractive Index and Laser Diffraction from HORIBA Particle

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1 How to Present and Compare Data Obtained by Particle Tracking Analysis and Other Related Methods /slideshow/how-to-present-and-compare-data-obtained-by-particle-tracking-analysis-and-other-related-methods-v23/135704644 howtopresentandcomparedataobtainedbyparticletrackinganalysisandotherrelatedmethodsv2-190311191059
This Webinar is for anyone who wants to understand how experimental data should be presented and compared properly while using histograms. Dr. Kuba Tatarkiewicz examines methods for particle size distributions as obtained by particle tracking analysis, fluorescence, as well as micro-sedimentation. Choices of binning schemes that users can design themselves will be discussed with examples of how various parameters (like mode and D50) change with different binnings, especially for highly polydisperse colloids. Methods for comparison of particle size distributions will be presented and explained in practical terms. View recorded webinars: http://bit.ly/particlewebinars]]>
This Webinar is for anyone who wants to understand how experimental data should be presented and compared properly while using histograms. Dr. Kuba Tatarkiewicz examines methods for particle size distributions as obtained by particle tracking analysis, fluorescence, as well as micro-sedimentation. Choices of binning schemes that users can design themselves will be discussed with examples of how various parameters (like mode and D50) change with different binnings, especially for highly polydisperse colloids. Methods for comparison of particle size distributions will be presented and explained in practical terms. View recorded webinars: http://bit.ly/particlewebinars]]> Mon, 11 Mar 2019 19:10:59 GMT /slideshow/how-to-present-and-compare-data-obtained-by-particle-tracking-analysis-and-other-related-methods-v23/135704644 HORIBA@slideshare.net(HORIBA) How to Present and Compare Data Obtained by Particle Tracking Analysis and Other Related Methods HORIBA This Webinar is for anyone who wants to understand how experimental data should be presented and compared properly while using histograms. Dr. Kuba Tatarkiewicz examines methods for particle size distributions as obtained by particle tracking analysis, fluorescence, as well as micro-sedimentation. Choices of binning schemes that users can design themselves will be discussed with examples of how various parameters (like mode and D50) change with different binnings, especially for highly polydisperse colloids. Methods for comparison of particle size distributions will be presented and explained in practical terms. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/howtopresentandcomparedataobtainedbyparticletrackinganalysisandotherrelatedmethodsv2-190311191059-thumbnail.jpg?width=120&height=120&fit=bounds" /> This Webinar is for anyone who wants to understand how experimental data should be presented and compared properly while using histograms. Dr. Kuba Tatarkiewicz examines methods for particle size distributions as obtained by particle tracking analysis, fluorescence, as well as micro-sedimentation. Choices of binning schemes that users can design themselves will be discussed with examples of how various parameters (like mode and D50) change with different binnings, especially for highly polydisperse colloids. Methods for comparison of particle size distributions will be presented and explained in practical terms. View recorded webinars: http://bit.ly/particlewebinars

How to Present and Compare Data Obtained by Particle Tracking Analysis and Other Related Methods from HORIBA Particle

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1 Why the University of Washington chose the HORIBA Laser Scattering Particle Size Distribution Analyzer /HORIBA/why-the-university-of-washington-chose-the-horiba-laser-scattering-particle-size-distribution-analyzer whytheuniversityofwashingtonchosethehoribalspa-190128174424
Join our users at the University of Washington (UW) as they discuss how the HORIBA particle size analyzer is used in their undergraduate courses and how the instrument manages to support a wide range of applications. Some examples include polymers spheres, ceramic powders, soil, and rocks. In this Webinar, Materials Science and Engineering (MSE) graduate students, Michelle Katz and Tiffany Tang will demonstrate with case studies how other orthogonal methods such as optical microscopy, scanning electron microscopy and x-ray diffraction help them cross-validate their particle size and size distribution. You will also learn in their own words, why the UW MSE program chose the HORIBA particle size analyzer over other options for their undergraduate environment. View recorded webinars: http://bit.ly/particlewebinars ]]>
Join our users at the University of Washington (UW) as they discuss how the HORIBA particle size analyzer is used in their undergraduate courses and how the instrument manages to support a wide range of applications. Some examples include polymers spheres, ceramic powders, soil, and rocks. In this Webinar, Materials Science and Engineering (MSE) graduate students, Michelle Katz and Tiffany Tang will demonstrate with case studies how other orthogonal methods such as optical microscopy, scanning electron microscopy and x-ray diffraction help them cross-validate their particle size and size distribution. You will also learn in their own words, why the UW MSE program chose the HORIBA particle size analyzer over other options for their undergraduate environment. View recorded webinars: http://bit.ly/particlewebinars ]]> Mon, 28 Jan 2019 17:44:24 GMT /HORIBA/why-the-university-of-washington-chose-the-horiba-laser-scattering-particle-size-distribution-analyzer HORIBA@slideshare.net(HORIBA) Why the University of Washington chose the HORIBA Laser Scattering Particle Size Distribution Analyzer HORIBA Join our users at the University of Washington (UW) as they discuss how the HORIBA particle size analyzer is used in their undergraduate courses and how the instrument manages to support a wide range of applications. Some examples include polymers spheres, ceramic powders, soil, and rocks. In this Webinar, Materials Science and Engineering (MSE) graduate students, Michelle Katz and Tiffany Tang will demonstrate with case studies how other orthogonal methods such as optical microscopy, scanning electron microscopy and x-ray diffraction help them cross-validate their particle size and size distribution. You will also learn in their own words, why the UW MSE program chose the HORIBA particle size analyzer over other options for their undergraduate environment. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whytheuniversityofwashingtonchosethehoribalspa-190128174424-thumbnail.jpg?width=120&height=120&fit=bounds" /> Join our users at the University of Washington (UW) as they discuss how the HORIBA particle size analyzer is used in their undergraduate courses and how the instrument manages to support a wide range of applications. Some examples include polymers spheres, ceramic powders, soil, and rocks. In this Webinar, Materials Science and Engineering (MSE) graduate students, Michelle Katz and Tiffany Tang will demonstrate with case studies how other orthogonal methods such as optical microscopy, scanning electron microscopy and x-ray diffraction help them cross-validate their particle size and size distribution. You will also learn in their own words, why the UW MSE program chose the HORIBA particle size analyzer over other options for their undergraduate environment. View recorded webinars: http://bit.ly/particlewebinars

Why the University of Washington chose the HORIBA Laser Scattering Particle Size Distribution Analyzer from HORIBA Particle

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1 Particle Classroom Series II: The Basics of Laser Diffraction /HORIBA/the-basics-of-laser-diffraction webinarintrotolaserdiffraction-181217202432
Particle size analysis by laser diffraction offers many advantages. The technique is fast, reliable, and can be used for analyzing a wide range of particle sizes. In laser diffraction scattering as a function of angle is measured and the data used to determine the particle size distribution. The technique can be used over a very wide range of particle sizes -- 10's of nm to 100's of microns. In addition it is very fast and reliable. In this webinar, Dr. Jeff Bodycomb will discuss: Exactly what happens when light strikes a particle Light intensity and how it effects the measurement Fraunhofer vs. Mie Real and imaginary refractive index values This is a great introduction to someone who wants to understand the science behind the measurement. View recorded webinars: http://bit.ly/particlewebinars ]]>
Particle size analysis by laser diffraction offers many advantages. The technique is fast, reliable, and can be used for analyzing a wide range of particle sizes. In laser diffraction scattering as a function of angle is measured and the data used to determine the particle size distribution. The technique can be used over a very wide range of particle sizes -- 10's of nm to 100's of microns. In addition it is very fast and reliable. In this webinar, Dr. Jeff Bodycomb will discuss: Exactly what happens when light strikes a particle Light intensity and how it effects the measurement Fraunhofer vs. Mie Real and imaginary refractive index values This is a great introduction to someone who wants to understand the science behind the measurement. View recorded webinars: http://bit.ly/particlewebinars ]]> Mon, 17 Dec 2018 20:24:32 GMT /HORIBA/the-basics-of-laser-diffraction HORIBA@slideshare.net(HORIBA) Particle Classroom Series II: The Basics of Laser Diffraction HORIBA Particle size analysis by laser diffraction offers many advantages. The technique is fast, reliable, and can be used for analyzing a wide range of particle sizes. In laser diffraction scattering as a function of angle is measured and the data used to determine the particle size distribution. The technique can be used over a very wide range of particle sizes -- 10's of nm to 100's of microns. In addition it is very fast and reliable. In this webinar, Dr. Jeff Bodycomb will discuss: Exactly what happens when light strikes a particle Light intensity and how it effects the measurement Fraunhofer vs. Mie Real and imaginary refractive index values This is a great introduction to someone who wants to understand the science behind the measurement. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/webinarintrotolaserdiffraction-181217202432-thumbnail.jpg?width=120&height=120&fit=bounds" /> Particle size analysis by laser diffraction offers many advantages. The technique is fast, reliable, and can be used for analyzing a wide range of particle sizes. In laser diffraction scattering as a function of angle is measured and the data used to determine the particle size distribution. The technique can be used over a very wide range of particle sizes -- 10's of nm to 100's of microns. In addition it is very fast and reliable. In this webinar, Dr. Jeff Bodycomb will discuss: Exactly what happens when light strikes a particle Light intensity and how it effects the measurement Fraunhofer vs. Mie Real and imaginary refractive index values This is a great introduction to someone who wants to understand the science behind the measurement. View recorded webinars: http://bit.ly/particlewebinars

Particle Classroom Series II: The Basics of Laser Diffraction from HORIBA Particle

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1 Particle Classroom Series I: Introduction to Particle Analysis /slideshow/particle-classroom-series-i-introduction-to-particle-analysis/123040784 introductiontoparticleanalysis-181115000153
If you're new to particle characterization, this is a webinar just for you! Dr. Jeff Bodycomb will discuss the basics of particles....why different size definitions will give you different results, various methods used to measure particles and why the method you use matters! This webinar will be the first in a series that will give you the knowledge you'll need to be the particle expert in your lab. View recorded webinars: http://bit.ly/particlewebinars ]]>
If you're new to particle characterization, this is a webinar just for you! Dr. Jeff Bodycomb will discuss the basics of particles....why different size definitions will give you different results, various methods used to measure particles and why the method you use matters! This webinar will be the first in a series that will give you the knowledge you'll need to be the particle expert in your lab. View recorded webinars: http://bit.ly/particlewebinars ]]> Thu, 15 Nov 2018 00:01:53 GMT /slideshow/particle-classroom-series-i-introduction-to-particle-analysis/123040784 HORIBA@slideshare.net(HORIBA) Particle Classroom Series I: Introduction to Particle Analysis HORIBA If you're new to particle characterization, this is a webinar just for you! Dr. Jeff Bodycomb will discuss the basics of particles....why different size definitions will give you different results, various methods used to measure particles and why the method you use matters! This webinar will be the first in a series that will give you the knowledge you'll need to be the particle expert in your lab. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/introductiontoparticleanalysis-181115000153-thumbnail.jpg?width=120&height=120&fit=bounds" /> If you're new to particle characterization, this is a webinar just for you! Dr. Jeff Bodycomb will discuss the basics of particles....why different size definitions will give you different results, various methods used to measure particles and why the method you use matters! This webinar will be the first in a series that will give you the knowledge you'll need to be the particle expert in your lab. View recorded webinars: http://bit.ly/particlewebinars

Particle Classroom Series I: Introduction to Particle Analysis from HORIBA Particle

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1 Improved Visualization, Counting and Sizing of Polydisperse Nanoparticle Colloids using ViewSizer 3000 /slideshow/improved-visualization-counting-and-sizing-of-polydisperse-nanoparticle-colloids-using-viewsizer-3000/123040288 improvedvisualizationcountingandsizingofpolydispersenanoparticlecolloidsusingviewsizer3000-181114234425
The ViewSizer® 3000 offers the ability to visualize nanoparticle colloids without requiring calibration standards or knowledge of any particle material properties, such as refractive index. It was developed by MANTA – the Most Advanced Nanoparticle Tracking Analysis – and offers the user an unprecedented ability to count and size highly polydispersed samples, such as milk, sea water, or blood plasma. View recorded webinars: http://bit.ly/particlewebinars]]>
The ViewSizer® 3000 offers the ability to visualize nanoparticle colloids without requiring calibration standards or knowledge of any particle material properties, such as refractive index. It was developed by MANTA – the Most Advanced Nanoparticle Tracking Analysis – and offers the user an unprecedented ability to count and size highly polydispersed samples, such as milk, sea water, or blood plasma. View recorded webinars: http://bit.ly/particlewebinars]]> Wed, 14 Nov 2018 23:44:25 GMT /slideshow/improved-visualization-counting-and-sizing-of-polydisperse-nanoparticle-colloids-using-viewsizer-3000/123040288 HORIBA@slideshare.net(HORIBA) Improved Visualization, Counting and Sizing of Polydisperse Nanoparticle Colloids using ViewSizer 3000 HORIBA The ViewSizer® 3000 offers the ability to visualize nanoparticle colloids without requiring calibration standards or knowledge of any particle material properties, such as refractive index. It was developed by MANTA – the Most Advanced Nanoparticle Tracking Analysis – and offers the user an unprecedented ability to count and size highly polydispersed samples, such as milk, sea water, or blood plasma. View recorded webinars: http://bit.ly/particlewebinars <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/improvedvisualizationcountingandsizingofpolydispersenanoparticlecolloidsusingviewsizer3000-181114234425-thumbnail.jpg?width=120&height=120&fit=bounds" /> The ViewSizer® 3000 offers the ability to visualize nanoparticle colloids without requiring calibration standards or knowledge of any particle material properties, such as refractive index. It was developed by MANTA – the Most Advanced Nanoparticle Tracking Analysis – and offers the user an unprecedented ability to count and size highly polydispersed samples, such as milk, sea water, or blood plasma. View recorded webinars: http://bit.ly/particlewebinars

Improved Visualization, Counting and Sizing of Polydisperse Nanoparticle Colloids using ViewSizer 3000 from HORIBA Particle

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1 https://cdn.slidesharecdn.com/profile-photo-HORIBA-48x48.jpg?cb=1626815590 HORIBA Scientific designs state of the art laboratory analyzers to measure a huge array of applications. From the company's beginnings manufacturing pH meters to its current expertise in areas such as particle characterization, and fluorescence and raman spectroscopy, HORIBA technology is used to solve tomorrow's problems today. www.horiba.com/us/particle https://cdn.slidesharecdn.com/ss_thumbnails/exosomes-exploitingthediagnosticandtherapeuticpotentialofnaturesbiologicalnanoparticles-200612182547-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/exosomes-exploiting-the-diagnostic-and-therapeutic-potential-of-natures-biological-nanoparticles/235497690 Exosomes: Exploiting t... https://cdn.slidesharecdn.com/ss_thumbnails/modernparticlecharacterizationiild-200529220350-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/modern-particle-characterization-techniques-series-laser-diffraction/234740938 Modern Particle Charac... https://cdn.slidesharecdn.com/ss_thumbnails/masteringtheprocessingmethodsofengineeredparticles-200515223530-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/mastering-the-processing-methods-of-engineered-particles/234065744 Mastering the Processi...