Research laboratory at Cambridge University. Our work focuses on artificial photosynthesis to make renewable fuels.☀️☀️PhD-run account.
ReisnerLab
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The @reisnerlab.bsky.social across all its generations reunited at the Gordon Research Conference on Renewable Energy - #Solar Fuels in Lucca, Italy ⛰️🍝🌺
More than 15 years of #memories, #people, and #stories of a solar-driven journey☀️and counting ...
It's time for one more #PhD wrap-up 🥳🥳
Congrats to Kay, making justice with his #acid-catalysed #plastic depolymerisation and #photoreforming in a world previously dominated by alkali ♻️☀️
Congratulations Dr Kwarteng and all the best for your future 👏👏👏
Designing #air-tolerant systems for #H2 generation from #biomass is challenging, given the high reactivity of O2 under reducing conditions 🌬️🪵☀️
Check out the latest work by Kim leveraging deep eutectic solvents now out in @chemicalscience.rsc.org 🎉🎉
doi.org/10.1039/D6SC...
Our @trincollcam.bsky.social members Chen and Qingxin attented the 9th Annual Chemistry Meal, bringing together all the college #Chemistry community 🍷🧪
Chen also gave a talk on her recent results on advanced #electrochemical #solar #synthesis ☀️🗣️👏
Extending #light absorption for #semiartificial #photosynthesis with a robust #semiconductor couple: BaTaO2N/CNx 💡
Check the latest work by Ming and @YongpengLiu now out in @jacs.acspublications.org pubs.acs.org/doi/10.1021/...
A semi-artificial #leaf to power E. #coli's growth with no applied bias ☀️🍃🦠
Check out the latest work by Lin and @celineyeungws.bsky.social, now out in @jacs.acspublications.org 🎉🎉
pubs.acs.org/doi/10.1021/...
It was a great pleasure attending @lrese-epfl.bsky.social Prof. Sophia Haussener's #talk at @chemistrycambridge.bsky.social on her pioneering work on concentrated #solar light for #photoelectro and #thermochemical technologies☀️🔍⛽️
Inspiring explorations from #degradation studies to #reactor design💡
Thanks to @cp-chemcircularity.bsky.social and Qian Wang for highlighting the works by Kay and @andrea-rogo.bsky.social on #acid plastic #photoreforming and liquid-solid-liquid #photocatalysis, published in @cp-joule.bsky.social and @cp-chem.bsky.social 💡☀️🧪🔋
www.sciencedirect.com/science/arti...
Using #plastic as a substrate for #H2 evolution is a wonderful pathway to #solar #fuels ☀️⛽️, but what about using H for transfer #hydrogenation towards solar #chemicals☀️🧪?
Check out the latest work by Kay now out in @angewandtechemie.bsky.social
onlinelibrary.wiley.com/doi/abs/10.1...
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Semiartificial photosynthesis offers a promising route for solar chemistry, but most biohybrid systems rely on UV or blue-light excitation, are limited by inefficient interfacial charge transfer, or r...
Plastic waste is transformed into functional amines via solar-driven transfer hydrogenation. Soluble monomers from acid hydrolysis of waste polymers serve as a hydrogen (electron/proton)donors in the...
We report an air-tolerant solar reforming (SR) system for the valorisation of pre-treated biomass and plastic waste streams. This process operates in low O2-diffusivity solvents such as the robust dee...
Integrated coupling of renewable energy sources with microbial CO2 fixation remains a major challenge in carbon-neutral biomanufacturing. Here, a biohybrid design is presented that combines a semiarti...
