[HTML][HTML] Advanced oxidation processes in microreactors for water and wastewater treatment: Development, challenges, and opportunities
The miniaturization of reaction processes by microreactors offers many significant
advantages over the use of larger, conventional reactors. Microreactors' interior structures …
advantages over the use of larger, conventional reactors. Microreactors' interior structures …
Coupling Strategy for CO2 Valorization Integrated with Organic Synthesis by Heterogeneous Photocatalysis
L Yuan, MY Qi, ZR Tang, YJ Xu - Angewandte Chemie, 2021 - Wiley Online Library
Photocatalytic reduction of CO2 to solar fuels and/or fine chemicals is a promising way to
increase the energy supply and reduce greenhouse gas emissions. However, the …
increase the energy supply and reduce greenhouse gas emissions. However, the …
Recent advances in focused ion beam nanofabrication for nanostructures and devices: Fundamentals and applications
The past few decades have witnessed growing research interest in develo** powerful
nanofabrication technologies for three-dimensional (3D) structures and devices to achieve …
nanofabrication technologies for three-dimensional (3D) structures and devices to achieve …
[HTML][HTML] 3D printing in photocatalysis: Methods and capabilities for the improved performance
The continuous miniaturization of technologies demands of high precision techniques in the
microdevice manufacture, where 3D printing arises as a powerful tool. 3D printing …
microdevice manufacture, where 3D printing arises as a powerful tool. 3D printing …
Advanced treatment of industrial wastewater by ozonation with iron-based monolithic catalyst packing: From mechanism to application
W An, X Li, J Ma, L Ma - Water Research, 2023 - Elsevier
An Fe-based catalyst was prepared by oxidising waste Fe shavings directly in a solution. In
engineering applications, Fe shavings were compressed and modified to form Fe-based …
engineering applications, Fe shavings were compressed and modified to form Fe-based …
[HTML][HTML] Multiphase flow processing in microreactors combined with heterogeneous catalysis for efficient and sustainable chemical synthesis
The convergence of continuous flow chemistry and microreactor technology creates
numerous possibilities towards the development of an efficient and sustainable chemical …
numerous possibilities towards the development of an efficient and sustainable chemical …
[HTML][HTML] Transition-metal catalyzed asymmetric reactions under continuous flow from 2015 to early 2020
During last two decades, transition-metal catalyzed asymmetric reactions under continuous
flow system have attracted a widespread attention. With its prominent advantages including …
flow system have attracted a widespread attention. With its prominent advantages including …
Taylor‐Couette reactor: Principles, design, and applications
Abstract The Taylor‐Couette reactor (TCR) is an apparatus that capitalizes on the Taylor‐
Couette flow, which allows many flow regimes and conditions to perform (bio‐) chemical …
Couette flow, which allows many flow regimes and conditions to perform (bio‐) chemical …
Emerging porous materials in confined spaces: from chromatographic applications to flow chemistry
J Zhang, J Chen, S Peng, S Peng, Z Zhang… - Chemical Society …, 2019 - pubs.rsc.org
Searching for porous materials that can be employed as solid stationary phases for
chromatographic separations, porous membrane matrixes and solid supports for catalysis …
chromatographic separations, porous membrane matrixes and solid supports for catalysis …
Bamboo-inspired design of a stable and high-efficiency catalytic capillary microreactor for nitroaromatics reduction
A stable and high-efficiency bamboo-inspired catalytic capillary microreactor (CMR)
decorated with Ag nanoparticles (NPs) is skillfully designed for the continuous-flow …
decorated with Ag nanoparticles (NPs) is skillfully designed for the continuous-flow …