Welcoem to posts!!
in the future - u will be able to do some more stuff here,,,!! like pat catgirl- i mean um yeah... for now u can only see others's posts :c
🎉 庆祝《物理化学学报》40周年学术盛会!🌟 加入我们在河北石家庄的能源催化科学与技术论坛,探索绿色能源和清洁环境的创新之路。🌿 助力实现碳达峰、碳中和目标!🌱
📅 日期:11月1-4日📍 地点:河北石家庄
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Tune in to the livestream of the ACS Physical Chemistry Summit from April 26-27 to hear leading physical chemists discuss advances in heterogeneous catalysis including single-atom catalysis and AI-assisted electrochemistry.
Date: April 26 (1:30-5:40pm Beijing Time) & April 27 (8:30am-5:40pm Beijing Time)
Livestream Link: https: www.youtube.com/channel/UCqJZ...
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Tune in to the livestream of the ACS Physical Chemistry Summit from April 26-27 to hear leading physical chemists discuss advances in heterogeneous catalysis including single-atom catalysis and AI-assisted electrochemistry.
Date: April 26 (1:30-5:40pm Beijing Time) & April 27 (8:30am-5:40pm Beijing Time)
Livestream Link: https: www.youtube.com/channel/UCqJZ...
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Tune in to the livestream of the ACS Physical Chemistry Summit from April 26-27 to hear leading physical chemists discuss advances in heterogeneous catalysis including single-atom catalysis and AI-assisted electrochemistry.
Date: April 26 (1:30-5:40pm Beijing Time) & April 27 (8:30am-5:40pm Beijing Time)
Livestream Link: https: www.youtube.com/channel/UCqJZ...
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Two-dimensional cobalt ferrite through direct chemical vapor deposition for efficient oxygen evolution reaction
Two-dimensional cobalt ferrite (CoFeO) was synthesized by chemical vapor deposition and its oxygen evolution reaction (OER) performance was tested using ultra-microelectrode platform. The experimental and density functional theory results show the surface bimetallic sites of CoFeO facilitate the OER process.
Read more here: www.sciencedirect.com/science/article/pii/S1872206…
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Post-synthesis metal (Sn, Zr, Hf) modification of BEA zeolite: Combined Lewis and Brønsted acidity for cascade catalysis
Post-synthetically metal (Sn, Zr, and Hf) modified BEA zeolite are active cascade reductive etherification of cinnamaldehyde, a bulky biobased reactant. The metal-modified catalysts contain isolated metal ions as Lewis acid sites in closed and open metal sites, while Brønsted acidity stems from silanols perturbed by Lewis acidic metal ions of open metal sites and the OH group connected to the open metal sites.
Read more here: www.sciencedirect.com/science/article/pii/S1872206…
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Harnessing magnetic fields to accelerate oxygen evolution reaction
Magnetic fields prompt the release of paramagnetic O2 bubbles by Lorentz and Kelvin forces during water electrolysis. The setup of magnetic fields, surface wettability and magnetic properties of electrodes/electrocatalysts play crucial roles in this process.
Read more here: www.sciencedirect.com/science/article/pii/S1872206…
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Recent advances in the development of bismuth-based materials for the photocatalytic reduction of hexavalent chromium in water
The Bi-based materials are recognized as a highly efficient catalyst for the reduction of Cr(VI) in water environment although more efforts are needed to improve performance further from the perspective of energy consumption and cost effectiveness.
Read more here: www.sciencedirect.com/science/article/pii/S1872206…
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A Bi-doped RuO2 catalyst for efficient and durable acidic water oxidation
The bismuth doped RuO2 electrocatalyst (Bi0.15Ru0.85O2) exhibits remarkable oxygen evolution reaction performance in acidic media. The activated Ru active sites and strengthened electron interaction between Bi and Ru simultaneously improve the activity and stability, accelerating the kinetics of the reaction.
Read more here: www.sciencedirect.com/science/article/pii/S1872206…
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A synchronous defluorination-oxidation process for efficient mineralization of fluoroarenes with photoelectrocatalysis
Fluoroarene (FA) derivatives are persistent pollutants in wastewater cause ecological risk. The cleavage of C–F bonds and mineralization of intermediates are two challenges for elimination of FAs. Here we developed a synchronous defluorination-oxidation process with a PEC device, hich couples the photolysis defluorination with •OH-initiated oxidation. Thus, efficient defluorination and TOC removal (both over 99.9%) were successfully achieved under mild conditions.
Read more here: www.sciencedirect.com/science/article/pii/S1872206…
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