Metal‐based nanocatalysts supported on carbon have significant prospect for industry. However, a straightforward method for efficient and stable nanocatalysts still remains extremely challenging. Inspired by the structure and comptosition of cell walls and membranes, an ion chemical bond anchoring, an in situ carbonization coreduction process, is designed to obtain composite catalysts on N‐doped 2D carbon (C‐N) loaded with various noble and non‐noble metals (for example, Pt, Ru, Rh, Pd, Ag, Ir, Au, Co, and Ni) nanocatalysts. These 2 nm particles uniformly and stably bond with the C‐N support since the agglomeration and growth are suppressed by anchoring the metal ions on the cell wall and membrane during the carbonization and reduction reactions. The Pt@C‐N exhibits excellent catalytic activity and long‐term stability for the hydrogen evolution reaction, and the relative overpotential at 100 mA cm?2 is only 77 mV, which is much lower than that of commercial Pt/C and Pt single‐atom catalysts reported recently.
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机译:碳支持的金属纳米催化剂具有重要的行业前景。然而,用于高效且稳定的纳米催化剂的直接方法仍然是非常具有挑战性的。灵感来自细胞壁和膜的结构和铰接,一种用于原位碳化核化工艺的离子化学粘合锚定,设计用于在加载各种贵族和非惰性的N掺杂的2D碳(C-N)上获得复合催化剂金属(例如,Pt,Ru,Rh,Pd,Ag,Ir,Au,Co和Ni)纳米催化剂。由于在碳化和还原反应期间,通过将金属离子锚固和膜在碳化和还原反应期间通过沉积金属离子来均匀且稳定地粘合,因此均匀且稳定地键合。 PT @ C-N表现出优异的催化活性和用于氢进化反应的长期稳定性,并且100 mA cm 2的相对过电位仅为77mV,远低于商用PT / C和PT单一 - 最近报道的催化剂。
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