Metal–Organic Framework‐Based Electrocatalysts for CO2 Reduction
The increasing concentration of CO2 is alarming for modern society and the reduction of
CO2 into valuable products is the unique solution. Metal–organic frameworks (MOFs) …
CO2 into valuable products is the unique solution. Metal–organic frameworks (MOFs) …
Metal oxides for the electrocatalytic reduction of carbon dioxide: Mechanism of active sites, composites, interface and defect engineering strategies
The electrochemical reduction of CO 2 into fine chemicals, assisted with renewable energy,
is the most instant approach for balancing the atmospheric CO 2 level, as well as for storing …
is the most instant approach for balancing the atmospheric CO 2 level, as well as for storing …
Healthcare waste in Bangladesh: Current status, the impact of Covid-19 and sustainable management with life cycle and circular economy framework
COVID-19 has accelerated the generation of healthcare (medical) waste throughout the
world. Developing countries are the most affected by this hazardous and toxic medical waste …
world. Developing countries are the most affected by this hazardous and toxic medical waste …
Molecular level understanding of the chalcogen atom effect on chalcogen-based polymers through electrostatic potential, non-covalent interactions, excited state …
Polymer donor materials have been considered as a game changer, especially in the early
history of polymer solar cells. However, much progress is the result of hard work resulting …
history of polymer solar cells. However, much progress is the result of hard work resulting …
Single-atom catalysts for next-generation rechargeable batteries and fuel cells
The worldwide emission of greenhouse gasses combined with the lessening of crude oils is
passionate about the research on sustainable energy conversion and storage devices …
passionate about the research on sustainable energy conversion and storage devices …
Covalent Organic Frameworks (COFs) for heterogeneous catalysis: Recent trends in design and synthesis with structure-activity relationship
Covalent organic frameworks (COFs) are emerging materials with high potential in catalysis.
The thermal/chemical stabilities, adjustable porosities, and tunable functionalities with the …
The thermal/chemical stabilities, adjustable porosities, and tunable functionalities with the …
Hierarchical Core–Shell Co2N/CoP Embedded in N, P‐doped Carbon Nanotubes as Efficient Oxygen Reduction Reaction Catalysts for Zn‐air Batteries
C Yao, J Li, Z Zhang, C Gou, Z Zhang, G Pan, J Zhang - Small, 2022 - Wiley Online Library
Projecting a cost‐effective and highly efficient electrocatalyst for the oxygen reaction
reduction (ORR) counts a great deal for Zn‐air batteries. Herein, a hierarchical core–shell …
reduction (ORR) counts a great deal for Zn‐air batteries. Herein, a hierarchical core–shell …
Surface engineering of MOF-derived FeCo/NC core-shell nanostructures to enhance alkaline water-splitting
MOF-derived catalysts show excellent performance in many electrochemical reactions,
including alkaline water splitting. This manuscript describes synthesis of composite mixture …
including alkaline water splitting. This manuscript describes synthesis of composite mixture …
[HTML][HTML] Tailoring MOF structure via iron decoration to enhance ORR in alkaline polymer electrolyte membrane fuel cells
W da Silva Freitas, A D'Epifanio, CL Vecchio… - Chemical Engineering …, 2023 - Elsevier
Fe-NC catalysts were synthesized by combining a Zn-based zeolitic imidazolate framework
(ZIF-8) structure, adopted as a nitrogen-carbon template, with an iron salt and conductive …
(ZIF-8) structure, adopted as a nitrogen-carbon template, with an iron salt and conductive …
Binder-free cupric-ion containing zinc sulfide nanoplates-like structure for flexible energy storage devices
Researchers have been enthusiastic about developing high-performance electrode
materials based on metal chalcogenides for energy storage applications. Herein, we …
materials based on metal chalcogenides for energy storage applications. Herein, we …