�ݺ�ߣshows by User: DavideBenedettoTiz

�ݺ�ߣshows by User: DavideBenedettoTiz / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: DavideBenedettoTiz / Fri, 15 Dec 2023 12:05:55 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: DavideBenedettoTiz FDA approved drugs.pptx /slideshow/fda-approved-drugspptx/264670451 fdaapproveddrugs-231215120556-a39c6260
Recent Food and Drug Administration (FDA)-approved drugs (in the year 2021) containing at least one halogen atom (covalently bound). The structures proposed throughout this work are grouped according to their therapeutical use. Their synthesis is presented as well. The number of halogenated molecules that are reaching the market is regularly preserved, and 14 of the 50 molecules approved by the FDA in the last year contain halogens. This underlines the emergent role of halogens and, in particular, of fluorine and chlorine in the preparation of drugs for the treatment of several diseases such as viral infections, several types of cancer, cardiovascular disease, multiple sclerosis, migraine and inflammatory diseases such as vasculitis.]]>
Recent Food and Drug Administration (FDA)-approved drugs (in the year 2021) containing at least one halogen atom (covalently bound). The structures proposed throughout this work are grouped according to their therapeutical use. Their synthesis is presented as well. The number of halogenated molecules that are reaching the market is regularly preserved, and 14 of the 50 molecules approved by the FDA in the last year contain halogens. This underlines the emergent role of halogens and, in particular, of fluorine and chlorine in the preparation of drugs for the treatment of several diseases such as viral infections, several types of cancer, cardiovascular disease, multiple sclerosis, migraine and inflammatory diseases such as vasculitis.]]> Fri, 15 Dec 2023 12:05:55 GMT /slideshow/fda-approved-drugspptx/264670451 DavideBenedettoTiz@slideshare.net(DavideBenedettoTiz) FDA approved drugs.pptx DavideBenedettoTiz Recent Food and Drug Administration (FDA)-approved drugs (in the year 2021) containing at least one halogen atom (covalently bound). The structures proposed throughout this work are grouped according to their therapeutical use. Their synthesis is presented as well. The number of halogenated molecules that are reaching the market is regularly preserved, and 14 of the 50 molecules approved by the FDA in the last year contain halogens. This underlines the emergent role of halogens and, in particular, of fluorine and chlorine in the preparation of drugs for the treatment of several diseases such as viral infections, several types of cancer, cardiovascular disease, multiple sclerosis, migraine and inflammatory diseases such as vasculitis. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fdaapproveddrugs-231215120556-a39c6260-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Recent Food and Drug Administration (FDA)-approved drugs (in the year 2021) containing at least one halogen atom (covalently bound). The structures proposed throughout this work are grouped according to their therapeutical use. Their synthesis is presented as well. The number of halogenated molecules that are reaching the market is regularly preserved, and 14 of the 50 molecules approved by the FDA in the last year contain halogens. This underlines the emergent role of halogens and, in particular, of fluorine and chlorine in the preparation of drugs for the treatment of several diseases such as viral infections, several types of cancer, cardiovascular disease, multiple sclerosis, migraine and inflammatory diseases such as vasculitis.

FDA approved drugs.pptx from Davide Benedetto Tiz, PhD

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0 lignin CANs.pdf /slideshow/lignin-canspdf/264670133 lignincans-231215114936-e5bcd5bf
Covalentadaptablenetworks(CANs)play an importantrole in polymerchemistry,as they providean innovativelink betweenthermoplasticsand thermosets.The breakthroughidea behindCANsisto at leastpartiallyreplaceirreversiblecrosslinksin classicthermosetpolymerswith dynamiccovalentbondsthat allowfor reversiblepolymercharacterand recyclability.Besides,CANsalso offerotherpopularfeaturessuchas self-healing,weldability,configurability,and shapememory.MostCANsare still petroleum-based,yet shiftingtowardmoresustainableapproachesis of the utmostinterest.Consideringthisand the highabundanceof lignocellulosicbiomass,this perspectivefocuseson all the researchfoundon lignin-basedCANs,includingboththosestartingfromfractionatedligninand fromlignin-basedmonomers.This is clearlya new branchwithinbio-basedCANsthat holdsgreatpotentialin variousindustries.Additionally,someexamplesofthermosetpolymersderivedfromthe sameligninbuildingblocksare givento showcaseimportantchemicaltransformationsthat canbe usedfor CANsdesignin the future.AlthoughCANdesignhas beenextendedto manydifferenttypesof bonds,iminesanddisulfideslargelyprevailin the currentliterature.Lastly,a SWOT(strengths,weaknesses,opportunities,and threats)analysisispresented,consideringthe performance,competition,opportunities,and drawbacksof lignin-derivedCANs.]]>
Covalentadaptablenetworks(CANs)play an importantrole in polymerchemistry,as they providean innovativelink betweenthermoplasticsand thermosets.The breakthroughidea behindCANsisto at leastpartiallyreplaceirreversiblecrosslinksin classicthermosetpolymerswith dynamiccovalentbondsthat allowfor reversiblepolymercharacterand recyclability.Besides,CANsalso offerotherpopularfeaturessuchas self-healing,weldability,configurability,and shapememory.MostCANsare still petroleum-based,yet shiftingtowardmoresustainableapproachesis of the utmostinterest.Consideringthisand the highabundanceof lignocellulosicbiomass,this perspectivefocuseson all the researchfoundon lignin-basedCANs,includingboththosestartingfromfractionatedligninand fromlignin-basedmonomers.This is clearlya new branchwithinbio-basedCANsthat holdsgreatpotentialin variousindustries.Additionally,someexamplesofthermosetpolymersderivedfromthe sameligninbuildingblocksare givento showcaseimportantchemicaltransformationsthat canbe usedfor CANsdesignin the future.AlthoughCANdesignhas beenextendedto manydifferenttypesof bonds,iminesanddisulfideslargelyprevailin the currentliterature.Lastly,a SWOT(strengths,weaknesses,opportunities,and threats)analysisispresented,consideringthe performance,competition,opportunities,and drawbacksof lignin-derivedCANs.]]> Fri, 15 Dec 2023 11:49:36 GMT /slideshow/lignin-canspdf/264670133 DavideBenedettoTiz@slideshare.net(DavideBenedettoTiz) lignin CANs.pdf DavideBenedettoTiz Covalentadaptablenetworks(CANs)play an importantrole in polymerchemistry,as they providean innovativelink betweenthermoplasticsand thermosets.The breakthroughidea behindCANsisto at leastpartiallyreplaceirreversiblecrosslinksin classicthermosetpolymerswith dynamiccovalentbondsthat allowfor reversiblepolymercharacterand recyclability.Besides,CANsalso offerotherpopularfeaturessuchas self-healing,weldability,configurability,and shapememory.MostCANsare still petroleum-based,yet shiftingtowardmoresustainableapproachesis of the utmostinterest.Consideringthisand the highabundanceof lignocellulosicbiomass,this perspectivefocuseson all the researchfoundon lignin-basedCANs,includingboththosestartingfromfractionatedligninand fromlignin-basedmonomers.This is clearlya new branchwithinbio-basedCANsthat holdsgreatpotentialin variousindustries.Additionally,someexamplesofthermosetpolymersderivedfromthe sameligninbuildingblocksare givento showcaseimportantchemicaltransformationsthat canbe usedfor CANsdesignin the future.AlthoughCANdesignhas beenextendedto manydifferenttypesof bonds,iminesanddisulfideslargelyprevailin the currentliterature.Lastly,a SWOT(strengths,weaknesses,opportunities,and threats)analysisispresented,consideringthe performance,competition,opportunities,and drawbacksof lignin-derivedCANs. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/lignincans-231215114936-e5bcd5bf-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Covalentadaptablenetworks(CANs)play an importantrole in polymerchemistry,as they providean innovativelink betweenthermoplasticsand thermosets.The breakthroughidea behindCANsisto at leastpartiallyreplaceirreversiblecrosslinksin classicthermosetpolymerswith dynamiccovalentbondsthat allowfor reversiblepolymercharacterand recyclability.Besides,CANsalso offerotherpopularfeaturessuchas self-healing,weldability,configurability,and shapememory.MostCANsare still petroleum-based,yet shiftingtowardmoresustainableapproachesis of the utmostinterest.Consideringthisand the highabundanceof lignocellulosicbiomass,this perspectivefocuseson all the researchfoundon lignin-basedCANs,includingboththosestartingfromfractionatedligninand fromlignin-basedmonomers.This is clearlya new branchwithinbio-basedCANsthat holdsgreatpotentialin variousindustries.Additionally,someexamplesofthermosetpolymersderivedfromthe sameligninbuildingblocksare givento showcaseimportantchemicaltransformationsthat canbe usedfor CANsdesignin the future.AlthoughCANdesignhas beenextendedto manydifferenttypesof bonds,iminesanddisulfideslargelyprevailin the currentliterature.Lastly,a SWOT(strengths,weaknesses,opportunities,and threats)analysisispresented,consideringthe performance,competition,opportunities,and drawbacksof lignin-derivedCANs.

lignin CANs.pdf from Davide Benedetto Tiz, PhD

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0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/fdaapproveddrugs-231215120556-a39c6260-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/fda-approved-drugspptx/264670451 FDA approved drugs.pptx https://cdn.slidesharecdn.com/ss_thumbnails/lignincans-231215114936-e5bcd5bf-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/lignin-canspdf/264670133 lignin CANs.pdf