Yannick Brägger
@ybraegger.bsky.social
📤 53
📥 101
📝 1
PhD Student at ETH Zürich
pinned post!
Check out the final version of our paper on nitrogen atom insertion into unactivated alkenes, out now in
@science.org
! Many thanks to my amazing colleagues Ann-Sophie Paschke, Bence Béla Botlik, and former students Francesco Felician and Nima Nasiri!
www.science.org/doi/10.1126/...
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Oxidative amination by nitrogen atom insertion into carbon-carbon double bonds
The synthesis of nitrogen-containing molecules through carbon–nitrogen (C–N) bond formation is critical for the discovery and preparation of medicines, agrochemicals, and materials. Here, we report th...
https://www.science.org/doi/10.1126/science.adq4980
about 1 year ago
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reposted by
Yannick Brägger
Morandi Research Group
6 months ago
Congrats to Ann-Sophie Paschke,
@ybraegger.bsky.social
, Bence Botlik, Erich Staudinger,
@origreen.bsky.social
! "Carbon-to-nitrogen atom swap enables direct access to benzimidazoles from drug-like indoles".
www.nature.com/articles/s41...
.
@natchem.nature.com
.
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reposted by
Yannick Brägger
Morandi Research Group
6 months ago
Congrats to
@fruepp.bsky.social
, Vasily Grebennikov, Mykola Avramenko, Marc-Olivier Ebert "Kinetic, Spectroscopic, and Computational Investigation of Oxidative Aminative Alkene Cleavage Reveals an N-Iodonium-Iminoiodinane Pathway" now
@chemrxiv.org
-
chemrxiv.org/engage/chemr...
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reposted by
Yannick Brägger
Edward Nirenberg
12 months ago
Peter Marks’s resignation letter. Everyone should read this.
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reposted by
Yannick Brägger
Morandi Research Group
about 1 year ago
Many Congrats to
@ybraegger.bsky.social
, Ann-Sophie Paschke, Nima Nasiri, Bence Botlik and Francesco Felician for this masterpiece! Oxidative amination by nitrogen atom insertion into carbon-carbon double bonds in Science,
@ethzurich.bsky.social
.
www.science.org/doi/10.1126/...
loading . . .
Oxidative amination by nitrogen atom insertion into carbon-carbon double bonds
The synthesis of nitrogen-containing molecules through carbon–nitrogen (C–N) bond formation is critical for the discovery and preparation of medicines, agrochemicals, and materials. Here, we report th...
https://www.science.org/doi/10.1126/science.adq4980
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Check out the final version of our paper on nitrogen atom insertion into unactivated alkenes, out now in
@science.org
! Many thanks to my amazing colleagues Ann-Sophie Paschke, Bence Béla Botlik, and former students Francesco Felician and Nima Nasiri!
www.science.org/doi/10.1126/...
loading . . .
Oxidative amination by nitrogen atom insertion into carbon-carbon double bonds
The synthesis of nitrogen-containing molecules through carbon–nitrogen (C–N) bond formation is critical for the discovery and preparation of medicines, agrochemicals, and materials. Here, we report th...
https://www.science.org/doi/10.1126/science.adq4980
about 1 year ago
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3
1
reposted by
Yannick Brägger
Jake Yeston
about 1 year ago
Also in
@science.org
for chemsky this week, we have two methods of turning olefins into nitriles, respectively from Bill Morandi's group and Ning Jiao's group 🧪
www.science.org/doi/10.1126/...
loading . . .
Oxidative amination by nitrogen atom insertion into carbon-carbon double bonds
The synthesis of nitrogen-containing molecules through carbon–nitrogen (C–N) bond formation is critical for the discovery and preparation of medicines, agrochemicals, and materials. Here, we report th...
https://www.science.org/doi/10.1126/science.adq4980
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reposted by
Yannick Brägger
Stefan P. Schmid
about 1 year ago
🚀 Looking for reaction conditions that work well for multiple substrates? CurryBO can help🍛 Now out on arXiv:
arxiv.org/abs/2502.18966
A short explanation thread 👇
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One Set to Rule Them All: How to Obtain General Chemical Conditions via Bayesian Optimization over Curried Functions
General parameters are highly desirable in the natural sciences - e.g., chemical reaction conditions that enable high yields across a range of related transformations. This has a significant practical...
https://arxiv.org/abs/2502.18966
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