用于酸性和碱性介质中析氢反应（HER）的高孔隙率MIL-100（Fe）

Highly Porous MIL-100(Fe) for the Hydrogen Evolution Reaction (HER) in Acidic and Basic Media.

作者信息

Nivetha Ravi, Gothandapani Kannan, Raghavan Vimala, Jacob George, Sellappan Raja, Bhardwaj Preetam, Pitchaimuthu Sudhagar, Kannan Arunachala Nadar Mada, Jeong Soon Kwan, Grace Andrews Nirmala

机构信息

Centre for Nanotechnology Research, VIT University, Vellore 632014, India.

Photocatalyst and Coatings Group, SPECIFIC, College of Engineering, Swansea University (Bay Campus), Fabian Way, Swansea SA1 8EN,U.K.

出版信息

ACS Omega. 2020 Jul 21;5(30):18941-18949. doi: 10.1021/acsomega.0c02171. eCollection 2020 Aug 4.

The present study reports the synthesis of a porous Fe-based MOF named MIL-100(Fe) by a modified hydrothermal method without the HF process. The synthesis gave a high surface area with the specific surface area calculated to be 2551 m g and a pore volume of 1.407 cm g with an average pore size of 1.103 nm. The synthesized electrocatalyst having a high surface area is demonstrated as an excellent electrocatalyst for the hydrogen evolution reaction investigated in both acidic and alkaline media. As desired, the electrochemical results showed low Tafel slopes (53.59 and 56.65 mV dec), high exchange current densities (76.44 and 72.75 mA cm), low overpotentials (148.29 and 150.57 mV), and long-term stability in both media, respectively. The high activity is ascribed to the large surface area of the synthesized Fe-based metal-organic framework with porous nature.

本研究报道了一种通过改进的水热法合成的多孔铁基金属有机框架材料MIL-100(Fe)，该方法无需氢氟酸处理。合成得到的材料具有高比表面积，计算得出的比表面积为2551 m²/g，孔体积为1.407 cm³/g，平均孔径为1.103 nm。所合成的具有高比表面积的电催化剂被证明是在酸性和碱性介质中研究析氢反应的优异电催化剂。正如所期望的那样，电化学结果显示出低塔菲尔斜率（分别为53.59和56.65 mV/dec）、高交换电流密度（分别为76.44和72.75 mA/cm²）、低过电位（分别为148.29和150.57 mV）以及在两种介质中均具有长期稳定性。高活性归因于所合成的具有多孔性质的铁基金属有机框架的大比表面积。