Surface Modification towards Integral Bulk Catalysts of Transition Metal Borides for Hydrogen Evolution Reaction

Abstract: Transition metal borides (TMBs) are promising catalysts for hydrogen evolution reaction (HER). While the commercially available TMBs indicate poor HER performance due to powder electrode and low activity sites density, optimizing commercial TMBs for better HER performance is urgent. To break through the challenge, a new strategy is proposed to compose integral bulk electrodes with needle surfaces in TMBs. The integral bulk electrodes in TiB2, ZrB2, and HfB2 are formed under high pressure and high temperature (… Show more

“…Except for charge transferring from the metal substrate, regulation like metal doping and intercalation can be also pervaded ways to afford external charge required for the stability of borophene. Several freestanding metal-borophene networks including the second and third main group elements (Mg, [48] Ca, [48] Sr, [49] Al, [50][51][52][53] Ga, [54] In [54] ), as well as partial transition metal elements (Sc, [48,55] Ti, [48,[56][57][58] V, [56] Cr, [56] Mn, [56,59,60] Fe, [61,62] Y, [48] Zr, [57,58] Mo, [63] Hf, [57,58] W, [64] Ir [65] ), have been reported. Among the transition metal borides (TMB) coexist various attractive characteristics, especially, strong mechanical properties and stability.…”

“…Therefore, one might raise the question that are there other 2D metal-borophene networks except for those reported previously? [48][49][50][51][52][53][54][55][56][57][58][59][60][61][62][63][64][65] What is the most stable structure? Especially, the potential catalytic application of metal-borophene networks is an interesting issue, which may offer more opportunities to search for the next generation of catalytic platforms.…”

Robust Sandwiched B/TM/B Structures by Metal Intercalating into Bilayer Borophene Leading to Excellent Hydrogen Evolution Reaction

“…Except for charge transferring from the metal substrate, regulation like metal doping and intercalation can be also pervaded ways to afford external charge required for the stability of borophene. Several freestanding metal-borophene networks including the second and third main group elements (Mg, [48] Ca, [48] Sr, [49] Al, [50][51][52][53] Ga, [54] In [54] ), as well as partial transition metal elements (Sc, [48,55] Ti, [48,[56][57][58] V, [56] Cr, [56] Mn, [56,59,60] Fe, [61,62] Y, [48] Zr, [57,58] Mo, [63] Hf, [57,58] W, [64] Ir [65] ), have been reported. Among the transition metal borides (TMB) coexist various attractive characteristics, especially, strong mechanical properties and stability.…”

“…Therefore, one might raise the question that are there other 2D metal-borophene networks except for those reported previously? [48][49][50][51][52][53][54][55][56][57][58][59][60][61][62][63][64][65] What is the most stable structure? Especially, the potential catalytic application of metal-borophene networks is an interesting issue, which may offer more opportunities to search for the next generation of catalytic platforms.…”

Robust Sandwiched B/TM/B Structures by Metal Intercalating into Bilayer Borophene Leading to Excellent Hydrogen Evolution Reaction

Cauliflower-like Co–B–P ternary catalyst loaded on graphitic carbon nitride nanosheets with synergistically enhanced electrocatalytic activity for hydrogen evolution reaction

Surface restructuring Prussian blue analog-derived bimetallic CoFe phosphides by N-doped graphene quantum dots for electroactive hydrogen evolving catalyst