Zeng, Qing Liu, Danye Liu, Hui Xu, Lin Cui, Penglei Chen, Dong Wang, Jing Yang, Jun
Construction of core-shell nanostructures with ultrathin shells is a powerful way to leverage the lattice strain effect to enhance surface activity for a given catalytic reaction. Herein, we report a gold-catalyzed approach for growing a large variety of subnanometer-thick metal shells of up to several atomic layers on the gold cores. This strategy...
Zeng, Qing Liu, Danye Liu, Hui Xu, Lin Cui, Penglei Chen, Dong Wang, Jing Yang, Jun
Construction of core-shell nanostructures with ultrathin shells is a powerful way to leverage the lattice strain effect to enhance surface activity for a given catalytic reaction. Herein, we report a gold-catalyzed approach for growing a large variety of subnanometer-thick metal shells of up to several atomic layers on the gold cores. This strategy...
Deng, Lifang Yuan, Haoran Qian, Xin Lu, Qiang Wang, Lufeng Hu, Huawen Chen, Yong
Uncontrolled emission of carbon dioxide (CO2) from various industries, which poses a severe threat to the environment and induces climate change, CO2 electroreduction is an advanced technology for converting waste CO2 and closing anthropogenic carbon cycle. However, developing novel, affordable and high-performance electrocatalysts for converting C...
Deng, Lifang Yuan, Haoran Qian, Xin Lu, Qiang Wang, Lufeng Hu, Huawen Chen, Yong
Uncontrolled emission of carbon dioxide (CO2) from various industries, which poses a severe threat to the environment and induces climate change, CO2 electroreduction is an advanced technology for converting waste CO2 and closing anthropogenic carbon cycle. However, developing novel, affordable and high-performance electrocatalysts for converting C...
Yao, Jiahao Li, Zhuang Ji, Xiuling Xue, Yaju Ren, Baozeng Zhao, Hai Huang, Yuhong
Cadaverine is an important precursor for the synthesis of nylon 5X, which is used for engineering plastics and fibers. L-lysine can be converted to cadaverine by lysine decarboxylases with high catalytic activity and selectivity. However, the pH sensitivity and non-recyclability impede the practical application of lysine decarboxylases for cadaveri...
Yao, Jiahao Li, Zhuang Ji, Xiuling Xue, Yaju Ren, Baozeng Zhao, Hai Huang, Yuhong
Cadaverine is an important precursor for the synthesis of nylon 5X, which is used for engineering plastics and fibers. L-lysine can be converted to cadaverine by lysine decarboxylases with high catalytic activity and selectivity. However, the pH sensitivity and non-recyclability impede the practical application of lysine decarboxylases for cadaveri...
He, Feng Zhuang, Jiahao Lu, Bin Liu, Xianglin Zhang, Jianling Gu, Fangna Zhu, Minghui Xu, Jing Zhong, Ziyi Xu, Guangwen
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Developing Ni-based catalysts with high activity and stability in low-temperature methanation is necessary due to their sintering and coking at high temperatures. Here, we report our developed novel Ni-Zr-Al catalysts derived from Ni-Zr-Al ternary hydrotalcites synthesized by a hydrothermal process, followed by a reduction in hydrogen. Comparing wi...
He, Feng Zhuang, Jiahao Lu, Bin Liu, Xianglin Zhang, Jianling Gu, Fangna Zhu, Minghui Xu, Jing Zhong, Ziyi Xu, Guangwen
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Developing Ni-based catalysts with high activity and stability in low-temperature methanation is necessary due to their sintering and coking at high temperatures. Here, we report our developed novel Ni-Zr-Al catalysts derived from Ni-Zr-Al ternary hydrotalcites synthesized by a hydrothermal process, followed by a reduction in hydrogen. Comparing wi...
Zhang, Xinxin Chen, Zhipeng Mou, Kaiwen Jiao, Mingyang Zhang, Xiangping Liu, Licheng
Herein, SnO2-NC (SnO2-nanocube) and SnO2-NF (SnO2-nanoflake) electro-catalysts featuring a large specific surface area and 3D porous structure were successfully constructed via acid etching and sulfurization-desulphurization methods, respectively. As catalysts for the electrochemical reduction of CO2, the faradaic efficiency (FHCOO-+CO = 82.4%, 91....
Zhang, Xinxin Chen, Zhipeng Mou, Kaiwen Jiao, Mingyang Zhang, Xiangping Liu, Licheng
Herein, SnO2-NC (SnO2-nanocube) and SnO2-NF (SnO2-nanoflake) electro-catalysts featuring a large specific surface area and 3D porous structure were successfully constructed via acid etching and sulfurization-desulphurization methods, respectively. As catalysts for the electrochemical reduction of CO2, the faradaic efficiency (FHCOO-+CO = 82.4%, 91....