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Betley Group@BetleyGroup·11 Oca

@SongLinLab I suSPECt this will be incredibly useful, nice work🫶

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Song Lin Lab@SongLinLab·8 Oca

Organic synthesis meets nanofabrication! Introducing SPECS: light-powered microchips that turn any well plate into a wireless high-throughput electrosynthesis reactor at the µL scale. Ideal for reaction discovery, optimization, and library synthesis! nature.com/articles/s4158…

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Song Lin Lab@SongLinLab·10 Oca

@lehoangminh2002 We miss you <3

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Lê Hoàng Minh@lehoangminh2002·10 Oca

@SongLinLab My favorite chemists 🏆🏆🏆

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Song Lin Lab@SongLinLab·10 Oca

@g_laudadio Thanks, Gabriele!

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Gabriele Laudadio@g_laudadio·9 Oca

WOW!

Organic synthesis meets nanofabrication! Introducing SPECS: light-powered microchips that turn any well plate into a wireless high-throughput electrosynthesis reactor at the µL scale. Ideal for reaction discovery, optimization, and library synthesis! nature.com/articles/s4158…

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Song Lin Lab@SongLinLab·10 Oca

@haihaizhang Thank you!

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Hai-Jun Zhang@haihaizhang·9 Oca

Wild👍👍👍👍👍👍👍👍

Organic synthesis meets nanofabrication! Introducing SPECS: light-powered microchips that turn any well plate into a wireless high-throughput electrosynthesis reactor at the µL scale. Ideal for reaction discovery, optimization, and library synthesis! nature.com/articles/s4158…

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Song Lin Lab@SongLinLab·10 Oca

@AmitPostech @Nature @JonasRein_ Thank you!

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Amit Kumar@AmitPostech·9 Oca

@SongLinLab @Nature @JonasRein_ Inspiring work!!

Pohang-si, Republic of Korea 🇰🇷 English

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Song Lin Lab@SongLinLab·10 Oca

@TimothyASu Thank you, Tim!

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Tim Su@TimothyASu·9 Oca

@SongLinLab This is awesome!!

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Song Lin Lab@SongLinLab·10 Oca

@mx_million Thanks, Max!

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Max Palkowitz@mx_million·9 Oca

Insanely cool work

Organic synthesis meets nanofabrication! Introducing SPECS: light-powered microchips that turn any well plate into a wireless high-throughput electrosynthesis reactor at the µL scale. Ideal for reaction discovery, optimization, and library synthesis! nature.com/articles/s4158…

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Song Lin Lab@SongLinLab·10 Oca

@GwongFuk_Lam Thank you!

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Danger Lin@GwongFuk_Lam·9 Oca

Impressive work! Congratulations!

Organic synthesis meets nanofabrication! Introducing SPECS: light-powered microchips that turn any well plate into a wireless high-throughput electrosynthesis reactor at the µL scale. Ideal for reaction discovery, optimization, and library synthesis! nature.com/articles/s4158…

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Song Lin Lab@SongLinLab·10 Oca

@RunOfThePhill Thanks bestie🤞🏼

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Milner Group at Cornell University@RunOfThePhill·9 Oca

Amazing!

Organic synthesis meets nanofabrication! Introducing SPECS: light-powered microchips that turn any well plate into a wireless high-throughput electrosynthesis reactor at the µL scale. Ideal for reaction discovery, optimization, and library synthesis! nature.com/articles/s4158…

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Jonas Rein@JonasRein_·9 Oca

Super excited to see our wireless electrosynthesis microchips in @Nature! SPECS make electrochemical reaction setup as easy as adding SPECS to a reaction and shining light on it! nature.com/articles/s4158…

Organic synthesis meets nanofabrication! Introducing SPECS: light-powered microchips that turn any well plate into a wireless high-throughput electrosynthesis reactor at the µL scale. Ideal for reaction discovery, optimization, and library synthesis! nature.com/articles/s4158…

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Song Lin Lab@SongLinLab·19 Kas

@RunOfThePhill 👏👏👏

QME

J. Mater. Chem. family@JMaterChem

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Milner Group at Cornell University@RunOfThePhill·19 Kas

PJM: Very excited to be named a (co-)runner up for the Journal of Materials Chemistry Lectureship! Congrats to all former and current members of the group! Congrats also to @MaxxSolidChem! 🎉 🥹 🍾

Congratulations to Dr Maxx Arguilla (University of California, Irvine, United States) and Dr Phillip Milner (Cornell University, United States) for being selected as the runners-up of the 2024 Journal of Materials Chemistry Lectureship. blogs.rsc.org/jm/2024/11/19/…

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Song Lin Lab@SongLinLab·12 Kas

All good things come in pairs😉 We’re excited to see these works out in @J_A_C_S today! Check them out: doi.org/10.1021/jacs.4… doi.org/10.1021/jacs.4…

No hydridic C–H bond is safe! Back to back in @ChemRxiv today, we report oxoammonium catalyzed oxidation of N-substituted amines and ethers! Featuring high TON, 100 g scale-up, a novel NMR experiment for radical quantification, & QSPR! (1/3)

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Song Lin Lab@SongLinLab·25 Eki

Farewell’s are also in order for our beloved post-docs Chenfei, Pierre-Louis and Bartosz🥹We’re sad to see you go, but can’t wait for what your new careers will have in store! Congrats!

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Song Lin Lab@SongLinLab·25 Eki

We are thrilled to welcome five stellar 1st year students to the Lin Lab! Congrats to Bofei, Nayan, Evan, Joe and Xiaowei! Here’s to new friends and great science ahead🤩⚡️

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Song Lin Lab@SongLinLab·17 Eyl

Nothing brightens up a Monday morning like a successful PhD defense! Congratulations to the incredible Dr. @Zhipengluu🤩 Wishing you the best of luck as you begin your career @TakedaPharma 🎉

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Jonas Rein@JonasRein_·29 Ağu

Super happy to share these two works by our aminoxyl team: Oxoammonium catalyzed hydride abstraction for selective C–H oxidation!

No hydridic C–H bond is safe! Back to back in @ChemRxiv today, we report oxoammonium catalyzed oxidation of N-substituted amines and ethers! Featuring high TON, 100 g scale-up, a novel NMR experiment for radical quantification, & QSPR! (1/3)

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