Quantum Dots Compete at the Acme of MXene Family for the Optimal Catalysis

Abstract: It is well known that two-dimensional (2D) MXene-derived quantum dots (MQDs) inherit the excellent physicochemical properties of the parental MXenes, as a Chinese proverb says, “Indigo blue is extracted from the indigo plant, but is bluer than the plant it comes from.” Therefore, 0D QDs harvest larger surface-to-volume ratio, outstanding optical properties, and vigorous quantum confinement effect. Currently, MQDs trigger enormous research enthusiasm as an emerging star of functional materials applied to physic… Show more

“…3e). 45–49 Since the MAX and MXene phases have hexagonal symmetry structures, the derived MQD systems form hexagonal lattices with the same symmetry. 50–56 Zeng et al established a hexagonal cluster MQD model for DFT calculations, in which the size of the model was on the brink of the experimental size; this proved the reliability of the calculation results.…”

Emerging carbon-based quantum dots for sustainable photocatalysis

“…3e). 45–49 Since the MAX and MXene phases have hexagonal symmetry structures, the derived MQD systems form hexagonal lattices with the same symmetry. 50–56 Zeng et al established a hexagonal cluster MQD model for DFT calculations, in which the size of the model was on the brink of the experimental size; this proved the reliability of the calculation results.…”

Emerging carbon-based quantum dots for sustainable photocatalysis

“…104 It is evident from an MQD system that a non-metallic atom with enhanced electronegativity is preferably selected to passivate the MQD active sites efficiently. 105 Mei et al in 2019 discussed the enriched optical properties that are colour tuned, made of cadmium-free transition metal ions that are doped with InP/ZnS quantum dots. This work inculcated a nucleation doping method via an organic synthetic pathway wherein a series of transition metals co-doped with InP/ZnS quantum dots with variable colour-tuned optical properties were synthesized.…”

“…The use of MQDs for the heterostructure composite is a strategy to tune the band gap and improve the catalytic efficiency. 105 Mo 2 C QDs and WC QDs incorporated with N-doped graphene nanosheets have been reported for HER. The catalyst shows good durability and high exchange current density.…”

Transition metal quantum dots for the electrocatalytic hydrogen evolution reaction: recent progresses and challenges

“…Interestingly, transition group metals (Fe, Co, Ni, Cu, etc.) expected to be substitutes for noble metal catalysts due to the merits of unique d-orbital electronic structures and good electronic conductivity. − In addition, the interaction between transition group metals and hydrogen atoms is unfavorable to the catalytic reaction based on the description of the HER volcano diagram. The design of transition group metals is necessary for preparing high-performance electrocatalysts.…”

Hydrogen Production Technology Promotes the Analysis and Prospect of the Hydrogen Fuel Cell Vehicles Development under the Background of Carbon Peak and Carbon Neutrality in China