Bifunctional Monolayer WSe₂/Graphene Self-Stitching Heterojunction Microreactors for Efficient Overall Water Splitting in Neutral Medium

Abstract: Developing efficient bifunctional electrocatalysts in neutral media to avoid the deterioration of electrodes or catalysts under harsh environments has become the ultimate goal in electrochemical water splitting. This work demonstrates the fabrication of an on-chip bifunctional two-dimensional (2D) monolayer (ML) WSe2/graphene heterojunction microreactor for efficient overall water splitting in a neutral medium (pH = 7). Through the synergistic atomic growth of the metallic Cr dopant and graphene stitching cont… Show more

“…The authors attributed such a superior performance to the self-stitching heterojunction with a lower contact resistance. 89 Besides the above graphene contact, Cha et al also constructed a WTe 2 –MoS 2 microcell with a WTe 2 metallic contact. As shown in Fig.…”

Emerging on-chip microcells in electrocatalysis: functions of window and circuit

“…The authors attributed such a superior performance to the self-stitching heterojunction with a lower contact resistance. 89 Besides the above graphene contact, Cha et al also constructed a WTe 2 –MoS 2 microcell with a WTe 2 metallic contact. As shown in Fig.…”

Emerging on-chip microcells in electrocatalysis: functions of window and circuit

“…This includes the exploration of transition-metal carbides, [20][21][22] nitrides, 23,24 sulfides, [25][26][27] oxides 28 and phosphides. [29][30][31] Within the category of catalysts that are free of platinum-group metals, transition-metal disulfides (TMDs), such as WS 2 , 32 WSe 2 33 and WTe 2 , 34 have received significant attention and are regarded as promising electrocatalysts for water splitting. Both theoretical predictions and experimental findings suggest that the HER activity of TMDs primarily stems from their edges rather than their basal planes.…”

Te-doped-WSe₂/W as a stable monolith catalyst for ampere-level current density hydrogen evolution reaction

“…Recently, researchers have shown a preference for non-precious transition metals due to their affordable prices and excellent catalytic properties. 20–22 Transition metal-based oxides, 23,24 hydroxides, 25–28 sulfides, 29–31 phosphides, 32–34 nitrides 35,36 and borides 37,38 were found to be good electrocatalysts for water splitting. Transition metal phosphides (TMPs) are highly conductive, stable, and catalytically active, which has greatly piqued the interest of researchers.…”

Self-supporting FeCoMoP nanosheets for efficient overall water splitting