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💡 Check out the latest collection! Tutorials on #Electrochemistry, with a focus in #Electrocatalysis Read now ➡️ go.acs.org/8A4

Understanding why electrocatalysts lose activity is essential to make practical electrolyzers. In this APL Energy article, we share some thoughts on how to study and understand catalyst deactivation, focusing on the importance of in situ technique. pubs.aip.org/aip/ape/articl…

It is finally out! Our Chemical Reviews on "Precious Metal Free Hydrogen Evolution Catalyst Design and Application" Thank you KingRegmi Group for a great collaboration! pubs.acs.org/doi/10.1021/ac… #TeamCAPeX

Following the surge of antisemitism and anti-Israel rhetoric around the world: the Technion invites undergraduate and graduate students and academic faculty residing abroad to come to our campuses in Haifa to carry out their research, teaching and learning

Reviewer #2: you have shown lots of data to support your conclusions, but I don’t believe your data. I believe …. XXX (no reference given).

Here we quantify the energetics and kinetics of O2 evolution on iridium oxide using spectroelectrochemistry+DFT+SIMS. Amorphous and crystalline IrOx have similar rates, but different energetics, leading to modified🌋. So🤪 to see it out Nature Catalysis!!! nature.com/articles/s4192…

I will deliver an introduction webinar on involving Python in electrochemical research on 28 Aug. 2024. The webinar is hosted by Physics World, ECS . Join us if you have no Python background but interested in using it.

Understanding the ammonia electrooxidation pathway can be difficult with coexisting OER. Combining four in situ techniques, we managed to understand it a little better. Check out our new work on Journal of Catalysis sciencedirect.com/science/articl…

Are kinetic zone diagrams beyond 2D, 3D—or dare we say, 4D—even possible? Check out our new preprint where we decipher complexity in electrocatalysis through the lens of geometry. #electrocatalysis #electrochemistry chemrxiv.org/engage/chemrxi…

Excited to share our latest publication, on the electrochemical ammonia oxidation reaction (AOR) using NiOOH as a catalyst. In this study, we explored the complex dynamics of AOR on NiOOH using a variety of operando/in-situ characterization techniques, focusing on how...

Using a graphite rod as the counter electrode for electrocatalyst benchmarking offers both convenience and challenges. In our viewpoint at ACSEnergyLett , we explored its applicability in both acidic and alkaline environments. Check it out if you use it. pubs.acs.org/doi/10.1021/ac…

Our Chemical Reviews article on Gas Evolution in Water Electrolysis is now available online (pubs.acs.org/doi/full/10.10…)! If you are curious about bubbles, operando characterization, or electrolyzer design this is a review for you 🫧

Nice work of Campinas Electrochemistry Group in collaboration with Prof. Angel C Ciscar Take a look here: pubs.acs.org/doi/10.1021/ja… Cine Energy unicampoficial Rafael Vicente Victor Yukuhiro

Be Aware of Transient Dissolution Processes in Co3O4 Acidic Oxygen Evolution Reaction Electrocatalysts | Journal of the American Chemical Society Serhiy Cherevko Forschungszentrum Jülich | @[email protected] pubs.acs.org/doi/10.1021/ja…

A very detailed and comprehensive analysis of electrocatalyst behaviour under relevant reaction conditions!

New paper alert: led by Weiran Zheng, we explore AOR on RuO₂ under alkaline conditions using a.o. DEMS + UV–vis spectroscopy. Key takeaway: intermediate control = selectivity control. Read more: doi.org/10.1021/acs.jp…

From a most-read tutorial review in 2023 to >5k view webinar in 2024, then to a full day short course at ECS meeting 2025. It is a surprising and interesting way to experience how scientific communication and education is done at ECS .