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Laser-Induced Graphitic Carbon with Ultrasmall Nickel Nanoparticles for Efficient Overall Water Splitting (Part. Part. Syst. Charact. 9/2021)
Particle & Particle Systems Characterization ( IF 2.7 ) Pub Date : 2021-09-16 , DOI: 10.1002/ppsc.202170022 Do Van Lam 1 , Van‐Toan Nguyen 2 , Euijin Roh 3 , Quang‐Tung Ngo 2 , Wanuk Choi 3 , Jae‐Hyun Kim 1, 4 , Hyunuk Kim 3, 4 , Ho‐Suk Choi 2 , Seung‐Mo Lee 1, 4
Particle & Particle Systems Characterization ( IF 2.7 ) Pub Date : 2021-09-16 , DOI: 10.1002/ppsc.202170022 Do Van Lam 1 , Van‐Toan Nguyen 2 , Euijin Roh 3 , Quang‐Tung Ngo 2 , Wanuk Choi 3 , Jae‐Hyun Kim 1, 4 , Hyunuk Kim 3, 4 , Ho‐Suk Choi 2 , Seung‐Mo Lee 1, 4
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In article 2100119, Lam, Lee, and co-workers report the rapid synthesis of graphitic carbon with ultrasmall Ni metal nanoparticles (4–11 nm) by simple laser-scribing of a Ni-based metal-organic framework (Ni-MOF). The synthesized material shows the best electrocatalytic performances in alkaline electrolytes for hydrogen and oxygen evolution reactions (HER/OER) when the Ni particle size is ≈6 nm. The laser-based synthesis can serve as a powerful tool for the size-controlled synthesis of various catalysts out of MOFs.
中文翻译:
具有超小镍纳米颗粒的激光诱导石墨碳用于有效的整体水分解(部分。部分。系统特性。9/2021)
在文章 2100119 中,Lam、Lee 和同事报告了通过简单的激光划片镍基金属有机骨架 (Ni-MOF) 快速合成石墨碳与超小镍金属纳米粒子 (4-11 nm)。当 Ni 粒径 ≈6 nm 时,合成材料在碱性电解质中对析氢和析氧反应 (HER/OER) 显示出最佳电催化性能。基于激光的合成可以作为从 MOF 中尺寸控制合成各种催化剂的有力工具。
更新日期:2021-09-16
中文翻译:
具有超小镍纳米颗粒的激光诱导石墨碳用于有效的整体水分解(部分。部分。系统特性。9/2021)
在文章 2100119 中,Lam、Lee 和同事报告了通过简单的激光划片镍基金属有机骨架 (Ni-MOF) 快速合成石墨碳与超小镍金属纳米粒子 (4-11 nm)。当 Ni 粒径 ≈6 nm 时,合成材料在碱性电解质中对析氢和析氧反应 (HER/OER) 显示出最佳电催化性能。基于激光的合成可以作为从 MOF 中尺寸控制合成各种催化剂的有力工具。
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