Plasmon Au/K-doped defective graphitic carbon nitride for enhanced hydrogen production

Abstract: Knowledge of the photocatalytic H2 evolution mechanism is of critical importance for water splitting, and designing active catalysts for a sustainable energy supply. In this study, we prepared plasmon Au...

“…The imperative need arises to design a functional separator capable of regulating polysulfide transformation and controlling dendrite growth. The distinctive characteristics of carbon materials, such as their expansive specific surface area, robust physical adsorption capacity, and exceptional mechanical strength, render them a compelling choice for the electrochemical field [19–27] . Earlier investigations, involving the application of carbon films like carbon nanotube (CNT) [28,29] and graphene oxide (GO) [30,31] onto PP, have demonstrated efficacy in managing LiPSs.…”

“…The distinctive characteristics of carbon materials, such as their expansive specific surface area, robust physical adsorption capacity, and exceptional mechanical strength, render them a compelling choice for the electrochemical field. [19][20][21][22][23][24][25][26][27] Earlier investigations, involving the application of carbon films like carbon nanotube (CNT) [28,29] and graphene oxide (GO) [30,31] onto PP, have demonstrated efficacy in managing LiPSs. However, carbon materials cannot regulate the transformation of polysulfide.…”

Regulating Polysulfide Transformation and Stabilizing Lithium Anode Using [PMo₁₂O₄₀]³⁻ Cluster@Carbon Nanotube‐Modified Separator for Lithium‐Sulfur Batteries

“…The imperative need arises to design a functional separator capable of regulating polysulfide transformation and controlling dendrite growth. The distinctive characteristics of carbon materials, such as their expansive specific surface area, robust physical adsorption capacity, and exceptional mechanical strength, render them a compelling choice for the electrochemical field [19–27] . Earlier investigations, involving the application of carbon films like carbon nanotube (CNT) [28,29] and graphene oxide (GO) [30,31] onto PP, have demonstrated efficacy in managing LiPSs.…”

“…The distinctive characteristics of carbon materials, such as their expansive specific surface area, robust physical adsorption capacity, and exceptional mechanical strength, render them a compelling choice for the electrochemical field. [19][20][21][22][23][24][25][26][27] Earlier investigations, involving the application of carbon films like carbon nanotube (CNT) [28,29] and graphene oxide (GO) [30,31] onto PP, have demonstrated efficacy in managing LiPSs. However, carbon materials cannot regulate the transformation of polysulfide.…”

Regulating Polysulfide Transformation and Stabilizing Lithium Anode Using [PMo₁₂O₄₀]³⁻ Cluster@Carbon Nanotube‐Modified Separator for Lithium‐Sulfur Batteries

Highly intra- and inter-plane crystalline ReS /g-C3N4: Facile synthesis and boosted photocatalytic H2 evolution

Highly Intra- and Inter-Plane Crystalline Resx/G-C3n4: Facile Synthesis and Boosted Photocatalytic H2 Evolution