Rui‐Qin Zhong
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View article: “One‐Stone, Two‐Birds”: Zinc‐Rich Metal–Organic Frameworks as Precursors for High‐Entropy Zn‐Air Battery Electrocatalysts with Hierarchical Pore Structures
“One‐Stone, Two‐Birds”: Zinc‐Rich Metal–Organic Frameworks as Precursors for High‐Entropy Zn‐Air Battery Electrocatalysts with Hierarchical Pore Structures Open
The active sites of inexpensive transition metal electrocatalysts are sparse and singular, thus high‐entropy alloys composed of non‐precious metals have attracted considerable attention due to their multi‐component synergistic effects. How…
View article: Phase Engineered Composite Phase Change Materials for Thermal Energy Manipulation
Phase Engineered Composite Phase Change Materials for Thermal Energy Manipulation Open
Phase change materials (PCMs) present a dual thermal management functionality through intrinsic thermal energy storage (TES) capabilities while maintaining a constant temperature. However, the practical application of PCMs encounters chall…
View article: Graphene-Oxide-Modified Metal–Organic Frameworks Embedded in Mixed-Matrix Membranes for Highly Efficient CO2/N2 Separation
Graphene-Oxide-Modified Metal–Organic Frameworks Embedded in Mixed-Matrix Membranes for Highly Efficient CO2/N2 Separation Open
MOF-74 (metal–organic framework) is utilized as a filler in mixed-matrix membranes (MMMs) to improve gas selectivity due to its unique one-dimensional hexagonal channels and high-density open metal sites (OMSs), which exhibit a strong affi…
View article: High-Selective CO2 Capture in Amine-Decorated Al-MOFs
High-Selective CO2 Capture in Amine-Decorated Al-MOFs Open
Amine-functionalized metal-organic framework (MOF) material is a promising CO2 captor in the post-combustion capture process owing to its large CO2 working capacity as well as high CO2 selectivity and easy regeneration. In this study, an e…
View article: Tailoring Amine-Functionalized Ti-MOFs via a Mixed Ligands Strategy for High-Efficiency CO2 Capture
Tailoring Amine-Functionalized Ti-MOFs via a Mixed Ligands Strategy for High-Efficiency CO2 Capture Open
Amine-functionalized metal-organic frameworks (MOFs) are a promising strategy for the high-efficiency capture and separation of CO2. In this work, by tuning the ratio of 1,3,5-benzenetricarboxylic acid (H3BTC) to 5-aminoisophthalic acid (5…
View article: Cover Feature: Tuning Expanded Pores in Metal–Organic Frameworks for Selective Capture and Catalytic Conversion of Carbon Dioxide (ChemSusChem 21/2018)
Cover Feature: Tuning Expanded Pores in Metal–Organic Frameworks for Selective Capture and Catalytic Conversion of Carbon Dioxide (ChemSusChem 21/2018) Open
The Cover Feature shows three Co-based isostructural Metal–Organic Frameworks (MOFs) with expanded pores for the selective capture and catalytic conversion of carbon Dioxide. In their Full Paper, W. Meng et al. finely tune the pore sizes o…