Single molecule fluorescence imaging of nanoconfinement in porous materials
This review covers recent progress in using single molecule fluorescence microscopy
imaging to understand the nanoconfinement in porous materials. The single molecule …
imaging to understand the nanoconfinement in porous materials. The single molecule …
Nanoconfinement dynamics and crystal plane exposure: Synergistic promotion of simulated solar-driven H2O-to-H2 conversion on host (CdS)-guest (Ti single-atom) …
Hexagonal cadmium sulfide (h-CdS) is very prospective in photocatalytic hydrogen
production due to its appropriate band structure, and researchers concern so much on the …
production due to its appropriate band structure, and researchers concern so much on the …
Virus-like particles nanoreactors: from catalysis towards bio-applications
Y Su, B Liu, Z Huang, Z Teng, L Yang, J Zhu… - Journal of Materials …, 2023 - pubs.rsc.org
Virus-like particles (VLPs) are self-assembled supramolecular structures found in nature,
often used for compartmentalization. Exploiting their inherent properties, including precise …
often used for compartmentalization. Exploiting their inherent properties, including precise …
Direct visualization of nanoconfinement effect on nanoreactor via electrochemiluminescence microscopy
Nanoconfinement in mesoporous nanoarchitectures could dramatically change molecular
transport and reaction kinetics during electrochemical process. A molecular‐level …
transport and reaction kinetics during electrochemical process. A molecular‐level …
Single-molecule photocatalytic dynamics at individual defects in two-dimensional layered materials
The insightful comprehension of in situ catalytic dynamics at individual structural defects of
two-dimensional (2D) layered material, which is crucial for the design of high-performance …
two-dimensional (2D) layered material, which is crucial for the design of high-performance …
Tailoring hydrophobic-aerophilic microenvironment for robust electrochemical ozone production
J Liu, C Qiu, Z Xu, M Xue, J Cai, H Shi, L Ding… - Chemical Engineering …, 2023 - Elsevier
Improving the activity and durability of electrocatalysts in electrochemical ozone production
(EOP) processes is essential for efficient ozone generation. Herein, superhydrophallic cubic …
(EOP) processes is essential for efficient ozone generation. Herein, superhydrophallic cubic …
Single-molecule fluorescence imaging for probing nanocatalytic process
Y **ao, W Xu - Chem, 2023 - cell.com
Single-molecule fluorescent microscopy (SMFM) has proved to be a powerful imaging tool
for in situ monitoring catalytic reactions on individual nanocatalysts with high spatiotemporal …
for in situ monitoring catalytic reactions on individual nanocatalysts with high spatiotemporal …
Single-molecule tracking of reagent diffusion during chemical reactions
Z Zhang, H Chen, M Hu, D Wang - Journal of the American …, 2023 - ACS Publications
Recent experiments have shown that the diffusion of reagent molecules is inconsistent with
what the Stokes–Einstein equation predicts during a chemical reaction. Here, we used …
what the Stokes–Einstein equation predicts during a chemical reaction. Here, we used …
PoreMS: a software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions
H Kraus, J Rybka, A Höltzel, N Trebel… - Molecular …, 2021 - Taylor & Francis
Mass transport under confinement is at the heart of all processes employing functionalised
mesoporous silica materials, such as liquid chromatography, heterogeneous catalysis, and …
mesoporous silica materials, such as liquid chromatography, heterogeneous catalysis, and …
Superresolved Motions of Single Molecular Catalysts during Polymerization Show Wide Distributions
The motion of single molecular ruthenium catalysts during and after single turnover events of
ring-opening metathesis polymerization is imaged through single-molecule superresolution …
ring-opening metathesis polymerization is imaged through single-molecule superresolution …