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Novel Optical Resolution Technologies
After theend ofthe 20th century, the science ofcrystallizationreached a truly exciting stage where new opportunities emerged in both theory and expe- ment. Variousphysical methodsare capableofresolvingthesurface as wellas theinsidestructureofcrystalsattheatomiclevelwhilenewhigh-performance computing...
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| Autres auteurs : | , , |
|---|---|
| Format : | Livre |
| Langue : | anglais |
| Titre complet : | Novel Optical Resolution Technologies / edited by Kenichi Sakai, Noriaki Hirayama, Rui Tamura. |
| Publié : |
Berlin, Heidelberg :
Springer Berlin Heidelberg
, [20..] Cham : Springer e-books Imprint: Springer Springer Nature |
| Collection : | Topics in current chemistry ; 269 |
| Titre de l'ensemble : | Topics in Current Chemistry vol. 269 |
| Accès en ligne : |
Accès Nantes Université
Accès direct soit depuis les campus via le réseau ou le wifi eduroam soit à distance avec un compte @etu.univ-nantes.fr ou @univ-nantes.fr |
| Note sur l'URL : | Accès sur la plateforme de l'éditeur Accès sur la plateforme Istex |
| Condition d'utilisation et de reproduction : | Conditions particulières de réutilisation pour les bénéficiaires des licences nationales : https://www.licencesnationales.fr/springer-nature-ebooks-contrat-licence-ln-2017 |
| Contenu : | Preferential Crystallization. Mechanism and Scope of Preferential Enrichment, a Symmetry-Breaking Enantiomeric Resolution Phenomenon. Racemization, Optical Resolution and Crystallization-Induced Asymmetric Transformation of Amino Acids and Pharmaceutical Intermediates. Advantages of Structural Similaritiesof the Reactants in Optical Resolution Processes. Dutch Resolution of Racemates and the Roles of Solid Solution Formation and Nucleation Inhibition. New Resolution Technologies Controlled by Chiral Discrimination Mechanisms. Molecular Mechanisms of Dielectrically Controlled Resolution (DCR). From Racemates to Single Enantiomers Chiral Synthetic Drugs over the last 20 Years |
| Sujets : | |
| Documents associés : | Autre format:
Novel optical resolution technologies |
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| 200 | 1 | |a Novel Optical Resolution Technologies |f edited by Kenichi Sakai, Noriaki Hirayama, Rui Tamura. | |
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| 225 | 1 | |a Topics in Current Chemistry |x 0340-1022 |v 269 | |
| 327 | 1 | |a Preferential Crystallization |a Mechanism and Scope of Preferential Enrichment, a Symmetry-Breaking Enantiomeric Resolution Phenomenon |a Racemization, Optical Resolution and Crystallization-Induced Asymmetric Transformation of Amino Acids and Pharmaceutical Intermediates |a Advantages of Structural Similaritiesof the Reactants in Optical Resolution Processes |a Dutch Resolution of Racemates and the Roles of Solid Solution Formation and Nucleation Inhibition |a New Resolution Technologies Controlled by Chiral Discrimination Mechanisms |a Molecular Mechanisms of Dielectrically Controlled Resolution (DCR) |a From Racemates to Single Enantiomers Chiral Synthetic Drugs over the last 20 Years | |
| 330 | |a After theend ofthe 20th century, the science ofcrystallizationreached a truly exciting stage where new opportunities emerged in both theory and expe- ment. Variousphysical methodsare capableofresolvingthesurface as wellas theinsidestructureofcrystalsattheatomiclevelwhilenewhigh-performance computingresourcesaffordthecapabilityofmodelingthecomplexlarge-scale alignmentsnecessarytosimulatecrystallizationinrealsystems.Asaresult,the science of crystallization has shifted gradually fromstatic to dynamic science and considerable progress now underlies the complex but beautiful cryst- lization process. I believe that if a de?nitive history of 21st century science is ever written,one of the highlightswill be the science ofcrystallization. This science has the following characteristics: in?nite advances in soph- tication, unlimited opportunities not only for intellectual excitement but also forindustrialmerit,strongcollaborationwithbiologyandmaterialscience,as wellaswithallareasofchemistry.Thevastpotentialofcrystallizationasan- portant?eld ofscience isfar beyondthesimple technologyofpharmaceutical industries during the 20th century. Optical resolution was one small area of chemistry in the last century. This was more a technology than a science, largely because trial and error was the only method to obtain good results. However, the situation is now changing. Therearesomanyappealing,hidden?ndingsintheprocessofcrystallization. Historically, crystallization began in an old laboratory in academia and then gradually shifted to industry. Now,it is making itscomeback in academia due toseveralnewresearchbranchestryingtodiscoverwhatisgoingonduringthe crystallizationprocess.Ibelieve this?eld ofscience isnowgrowingasa result of the wonderfulcoupling between industry and academia. I read a prepublication draft of Novel Optical Resolution Technologies,and foundthateachoneofthesegeneralcharacteristicsofsciencehadarealityand sharpness that I had not expected. While it was a sheer delight to revisit each of these triumphs guided by the wise insights and analyses found throughout the book. There is a good balance between the underlying historical material and the design and execution aspects of each topic | ||
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