Flexible N doped carbon/bubble-like MoS2 core/sheath framework: Buffering volume expansion for potassium ion batteries

“…Constructing heterogeneous interfaces by introducing another component is an efficient way to boost the electrochemical activity of catalysts. [19][20][21][22][23] As is known to all, HER proceeds with the initial formation of hydrogen intermediates (H*) followed by a Tafel or Heyrovsky step. The synergistic effect between two hybridized components could ne tune their surface adsorption properties by interfacial electronic coupling and facilitate an excellent activity and a high stability towards HER.…”

Synergistic effect of cocatalytic NiSe₂ on stable 1T-MoS₂ for hydrogen evolution

“…Constructing heterogeneous interfaces by introducing another component is an efficient way to boost the electrochemical activity of catalysts. [19][20][21][22][23] As is known to all, HER proceeds with the initial formation of hydrogen intermediates (H*) followed by a Tafel or Heyrovsky step. The synergistic effect between two hybridized components could ne tune their surface adsorption properties by interfacial electronic coupling and facilitate an excellent activity and a high stability towards HER.…”

Synergistic effect of cocatalytic NiSe₂ on stable 1T-MoS₂ for hydrogen evolution

“…[21][22][23] One of the most effective tactics is the construction of multicomponent/ multiphase heterostructured photocatalysts comprised of distinct units that arise from physical-chemical interactions such as covalent or ionic bonding, hydrogen bonding, van der Waals (VDW) and Coulomb forces. 1,[24][25][26][27][28] Furthermore, devising 2D/2D heterojunctions is a most adequate approach towards an enhanced photocatalytic achievement. Owing to their "face to face" contact, such heterojunctions could ensure improved interfacial charge separation and transfer between layers, also enabling broad light-responsivity with different bandgap widths of the two photocatalytic semiconductors.…”

Designing 2D–2D g-C₃N₄/Ag:ZnIn₂S₄ nanocomposites for the high-performance conversion of sunlight energy into hydrogen fuel and the meaningful reduction of pollution

“…15 Therefore, the carbon doping and carbon modication of nano-TiO 2 have been widely investigated in recent years with different synthesis strategies and diversied perspectives. 13,[16][17][18][19][20] Nevertheless, due to the diversity of the carbon species, [21][22][23] an in-depth understanding of the structure of carbon species and the synergistic promotion of the photocatalytic activity of nano-TiO 2 by multi-type carbon species is still decient.…”

Facile synthesis of multi-type carbon doped and modified nano-TiO₂ for enhanced visible-light photocatalysis