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Nitrogen-Doped Nanoporous Carbon Membranes with Co/CoP Janus-Type Nanocrystals as Hydrogen Evolution Electrode in Both Acidic and Alkaline Environments

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posted on 2024-11-16, 05:25 authored by Hong Wang, Shixiong Min, Qiang Wang, Debao Li, Gilberto Casillas-Garcia, Chun Ma, Yangyang Li, Zhixiong Liu, Lain Li, Jiayin Yuan, Markus Antonietti, Tom Wu
Self-supported electrocatalysts being generated and employed directly as electrodes for energy conversion has been intensively pursued in the fields of materials chemistry and energy. Herein, we report a synthetic strategy to prepare freestanding hierarchically structured, nitrogen-doped nanoporous graphitic carbon membranes functionalized with Janus-type Co/CoP nanocrystals (termed as HNDCM-Co/CoP), which were successfully applied as a highly efficient, binder-free electrode in the hydrogen evolution reaction (HER). Benefited from multiple structural merits, such as a high degree of graphitization, three-dimensionally interconnected micro/meso/macropores, uniform nitrogen doping, well-dispersed Co/CoP nanocrystals, as well as the confinement effect of the thin carbon layer on the nanocrystals, HNDCM-Co/CoP exhibited superior electrocatalytic activity and long-term operation stability for HER under both acidic and alkaline conditions. As a proof-of-concept of practical usage, a 5.6 cm x 4 cm x 60 μm macroscopic piece of HNDCM-Co/CoP was prepared in our laboratory. Driven by a solar cell, electroreduction of water in alkaline conditions (pH 14) was performed, and H2 was produced at a rate of 16 mL/min, demonstrating its potential as real-life energy conversion systems.

Funding

An aberration corrected analytical Transmission Electron Microscope for nanoscale characterisation of materials

Australian Research Council

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Citation

Wang, H., Min, S., Wang, Q., Li, D., Casillas, G., Ma, C., Li, Y., Liu, Z., Li, L., Yuan, J., Antonietti, M. & Wu, T. (2017). Nitrogen-Doped Nanoporous Carbon Membranes with Co/CoP Janus-Type Nanocrystals as Hydrogen Evolution Electrode in Both Acidic and Alkaline Environments. ACS Nano, 11 (4), 4358-4364.

Journal title

ACS Nano

Volume

11

Issue

4

Pagination

4358-4364

Language

English

RIS ID

113924

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