TY - DATA T1 - Self-Supported FeP Nanorod Arrays: A Cost-Effective 3D Hydrogen Evolution Cathode with High Catalytic Activity PY - 2014/11/07 AU - Yanhui Liang AU - Qian Liu AU - Abdullah M. Asiri AU - Xuping Sun AU - Yonglan Luo UR - https://acs.figshare.com/articles/journal_contribution/Self_Supported_FeP_Nanorod_Arrays_A_Cost_Effective_3D_Hydrogen_Evolution_Cathode_with_High_Catalytic_Activity/2237434 DO - 10.1021/cs501106g.s001 L4 - https://ndownloader.figshare.com/files/3873370 KW - 58 mV KW - FeP KW - energy systems KW - acidic media KW - 2O KW - carbon cloth KW - NA KW - polymer binder KW - electrode KW - novel 3 D hydrogen evolution cathode N2 - Developing non-noble-metal hydrogen evolution reaction electrocatalysts with high activity is critical for future renewable energy systems. The direct growth of active phases on current collectors not only eliminates using polymer binder but also offers time-saving preparation of electrode. In this Letter, we develop self-supported FeP nanorod arrays on carbon cloth (FeP NAs/CC) via low-temperature phosphidation of its Fe2O3 NAs/CC. As a novel 3D hydrogen evolution cathode in acidic media, the FeP NAs/CC exhibits high catalytic activity and only needs an overpotential of 58 mV to afford current density of 10 mA/cm2. This electrode also works efficiently in both neutral and alkaline solutions. ER -