Keith Andrews
@keithandrews.bsky.social
Supramolecular Chemist (PI @ Durham University) interested in enzyme mechanism and mimicry, cages and catalysis
How can Le Chatelier drive kinetics? @stefanborsley.bsky.social and I analyse Denton's organocatalytic Mitsunobu reaction and show water removal improvements outperform catalyst redesigns. Why? Removing water part way through the reaction resets the potential energy surface! doi.org/10.1021/jacs...
May 13, 2025 at 7:07 AM
How can Le Chatelier drive kinetics? @stefanborsley.bsky.social and I analyse Denton's organocatalytic Mitsunobu reaction and show water removal improvements outperform catalyst redesigns. Why? Removing water part way through the reaction resets the potential energy surface! doi.org/10.1021/jacs...
Reposted by Keith Andrews
Keith Andrews @keithandrews.bsky.social from Durham University @durham-university.bsky.social highlights some of the key advances in traditional #CavityCatalysis:
➡️ https://www.beilstein-journals.org/bjoc/articles/21/30?B=y
#EnzymeMimics #SupramolecularCatalysis
💎🔓 #BJOC
➡️ https://www.beilstein-journals.org/bjoc/articles/21/30?B=y
#EnzymeMimics #SupramolecularCatalysis
💎🔓 #BJOC
March 21, 2025 at 2:02 PM
Keith Andrews @keithandrews.bsky.social from Durham University @durham-university.bsky.social highlights some of the key advances in traditional #CavityCatalysis:
➡️ https://www.beilstein-journals.org/bjoc/articles/21/30?B=y
#EnzymeMimics #SupramolecularCatalysis
💎🔓 #BJOC
➡️ https://www.beilstein-journals.org/bjoc/articles/21/30?B=y
#EnzymeMimics #SupramolecularCatalysis
💎🔓 #BJOC
Out now, and just in time for my first #chemsky post: my perspective on the emerging field of Robust Organic Cages as catalysts and enzyme mimics, including an overview of our contributions so far – doi.org/10.3762/bjoc...
March 4, 2025 at 8:03 AM
Out now, and just in time for my first #chemsky post: my perspective on the emerging field of Robust Organic Cages as catalysts and enzyme mimics, including an overview of our contributions so far – doi.org/10.3762/bjoc...
Reposted by Keith Andrews
A really fun project, delivered on the back of Peng-Lai’s fantastic efforts, ably assisted by Martin and of course our collaborators in Strasbourg, Alessandro and @giusepponelab.bsky.social, who taught us lots of polymer and materials chemistry.
Thanks all!
Thanks all!
Peng-Lai, @stefanborsley.bsky.social, Martin & our collaborators Alessandro and @giusepponelab.bsky.social demonstrate how a catalyst transduces chemical energy to perform mechanical work in www.nature.com/articles/s41... in @nature.com. tinyurl.com/jny7nen5. Animation @scicommstudios.bsky.social😀
January 15, 2025 at 5:25 PM
A really fun project, delivered on the back of Peng-Lai’s fantastic efforts, ably assisted by Martin and of course our collaborators in Strasbourg, Alessandro and @giusepponelab.bsky.social, who taught us lots of polymer and materials chemistry.
Thanks all!
Thanks all!
Reposted by Keith Andrews
Peng-Lai, @stefanborsley.bsky.social, Martin & our collaborators Alessandro and @giusepponelab.bsky.social demonstrate how a catalyst transduces chemical energy to perform mechanical work in www.nature.com/articles/s41... in @nature.com. tinyurl.com/jny7nen5. Animation @scicommstudios.bsky.social😀
January 15, 2025 at 4:08 PM
Peng-Lai, @stefanborsley.bsky.social, Martin & our collaborators Alessandro and @giusepponelab.bsky.social demonstrate how a catalyst transduces chemical energy to perform mechanical work in www.nature.com/articles/s41... in @nature.com. tinyurl.com/jny7nen5. Animation @scicommstudios.bsky.social😀