Flow-chemistry based synthetic strategies towards LPS-Substructures

View Statistics Email Alert RSS Feed

Primary Data

Project Acronym Projekt Kurzbezeichnung
Flowchemistry
 
Project Title (de) Projekttitel (de)
Flow-chemistry based synthetic strategies towards LPS-Substructures
 
Project Title (en) Projekttitel (en)
Flow-chemistry based synthetic strategies towards LPS-Substructures
 
Consortium Coordinator Koordinator des Konsortiums
 
Principal Investigator Projektleiter_in
 

Grants

Funder/Funding Agency Fördergeber
FWF Fonds zur Förderung der wissenschaftlichen Forschung (FWF)
Grant number Förderkennnummer
J03449
 

Publications

Results 1-6 of 6 (Search time: 0.002 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Biedermann, Nina ; Draskovits, Markus ; Stanetty, Christian ; Schnürch, Michael The Indium-Mediated Acyloxyallyation – A Tool for the Elongation of Aldoses Towards Non-Natural Sugar Alcohols as Potential Phase Change MaterialsPresentation Vortrag21-Sep-2022
2Biedermann, Nina ; Draskovits, Markus ; Stanetty, Christian ; Schnürch, Michael The Indium-Mediated Acyloxyallyation – A Tool for the Elongation of Aldoses Towards Non-Natural Sugar Alcohols as Potential Phase Change MaterialsPresentation Vortrag20-Sep-2022
3Stanetty, Christian Sweet tales from an aldehyde's perspectivePresentation Vortrag3-Sep-2022
4Biedermann, Nina ; Stanetty, Christian ; Schnürch, Michael The Indium-Mediated Acyloxyallyation – A Tool for the Elongation of Aldoses Towards Higher-Carbon Sugars and Non-Natural Sugar AlcoholsPresentation Vortrag29-Aug-2022
5Biedermann, Nina ; Stanetty, Christian ; Schnürch, Michael The Indium-mediated Acyloxyallylation – A Tool for the Elongation of Aldoses towards Non-natural Sugar AlcoholsPresentation Vortrag22-Aug-2022
6Biedermann, Nina ; Schnürch, Michael ; Stanetty, Christian The Indium-Mediated Acyloxyallyation – A Tool for the Elongation of Aldoses Towards Non-Natural Sugar Alcohols as Potential Phase Change MaterialsPresentation Vortrag8-Jul-2022