An energy-saving support made of silver nanowire aerogel for hydrogen evolution reaction

• Published in: Cell reports physical science Vol. 4; no. 4; p. 101377
• Main Authors: Zuo, Chunyan, Zhou, Feng, Zhang, Gaowei, Zhong, Liubiao, Ling, Jianjun, Yang, Jun, Qiu, Yejun, Tao, Guohua
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 19.04.2023
• Subjects: Density functional calculations; electrocatalytic systems; hierarchical catalytic network; Hydrogen Evolution Reaction; iR compensation; NiO; potential drop; silver nanowire aerogel; solution resistance; support; hierarchical catalytic network; solution resistance; NiO; potential drop; Density functional calculations; Hydrogen Evolution Reaction; iR compensation; silver nanowire aerogel; support; electrocatalytic systems
• ISSN: 2666-3864; 2666-3864
• DOI: 10.1016/j.xcrp.2023.101377

Minimizing the potential drop due to serial resistances in electrocatalytic systems and the corresponding energy overhead is required to achieve better overall catalytic performance. However, the role of the support is normally overlooked through iR compensation. Here, a silver nanowire (AgNW) aerogel-based support is developed to generate highly energy-efficient catalytic systems upon catalyst loading. In a case study of two Ni-based catalytic systems for the hydrogen evolution reaction (HER), outstanding performance is achieved with ultralow solution resistance (Rs ∼ 0.3 Ω) and overpotential without iR compensation (87 and 77 mV at 100 mA cm−2 in 1 M KOH, respectively). Density functional calculations support the theoretical hypothesis that the support-induced hierarchical nanostructures of the loaded catalyst could result in favorable hydrogen adsorption sites and enhanced conductivity and HER activity. This work thus opens up the possibility of developing highly efficient catalytic systems using NW-based supports. [Display omitted] •A support is developed to minimize the energy overhead of the catalytic system•Outstanding HER performance is achieved in 1 M KOH without iR compensation•The enhanced activity is attributed to the support-induced hierarchical nanostructure•The results indicate that NiO could be an active component for HER Minimizing the potential drop due to serial resistances in electrocatalytic systems and the corresponding energy overhead is desired to achieve better overall catalytic performance. Zuo et al. report a silver nanowire (AgNW) aerogel-based support for generating highly energy-efficient catalytic systems without iR compensation for the potential drop.