Herein, we present the fabrication of MOF-in-COF membranes and their use for selective gas separation by using the facile approach of confinement synthesis of MOFs in the continuous 2D COF membrane layers. The resulting membranes have a unique MOF-in-COF micro/nanopore network, exhibiting an exc...
南京师范大学化科院周小四教授课题组在基于MOF和COF的储能材料领域进行深入研究,取得一系列重要研究进展。 成果(1):以MOF化合物ZIF-67为前驱体,通过一种简单的基于模板的两步退火策略,将CoS2纳米颗粒浸渍在结构良好的碳纳米立方体(表示为CoS2/CNCs)中。CoS2/CNCs作为钾离子电池负极材料时表现出高效的储钾性能。相关...
These membranes feature a unique MOF-in-COF micro/nanopore network, presumably due to the formation of MOFs as a pearl string-like chain of unit cells in the 1D channel of 2D COFs. The MOF-in-COF membranes exhibit an excellent hydrogen permeance (>3000 GPU) together with a significant ...
This leads to the formation of a MOF-in-COF (MC) structure that can more effectively accommodate IL, creating an exceptionally effective pathway for lithium-ion transportation. The IL-incorporated MC (IL@MC) solid electrolyte displays a notably high ionic conductivity of 1.5 × 10−3 S cm...
Nature-Inspired * MOF@COF * Nanozyme * Bacterial Inhibition * Active Sites in Tailored MicroenvironmentMetal﹐rganic frameworks (MOFs) have sparked increasing interest in mimicking the structure and function of natural enzymes. However, their catalytic and therapeutic efficiency are unsatisfactory due to...
In this regard, an electrochemical (EC) biosensor with high sensitivity was fabricated by merging MIL156 MOF@COF nanocomposite with Au nanoparticles for the detection of CA15-3. Herein, metal clusters of MIL-156 as a Metal organic frameworks (MOF) were coated by a crystalline covalent organic ...
PdIn@N3-COF 是一种复合材料,由 PdIn(钯铟合金)、N3-COF 和 COF 组成。 PdIn(钯铟合金):PdIn 是一种钯和铟的合金。钯是一种金属元素,常用作催化剂,而铟也是一种金属元素。这种合金可能用于特定的催化反应或其他应用。 N3-COF:N3-COF 是一种 COF(共价有机框架),其中 "N3" 可能表示特定的有机单体或...
Furthermore, the development of ultrathin 2D MOF/COF nanosheets in the field of electrochemistry energy storage and conversion is introduced. For more details see the Review by H. Pang et al. on page 6402 ff.doi:10.1002/chem.202082964
MOF@COF heterostructures featuring abundant porosity, designable structures and efficient separation of photogenerated charge carriers are enthusiastically embraced as promising candidates for the capture and conversion of CO2. Nonetheless, their laborious synthesis procedures involving energy-consuming protection ...
Although there are substantial advancements in sample pre-treatment with porous materials such as MOFs and COFs, MOF-COF composites have not been explored in the MSPE field. The development of MOF-COF composites is a novel strategy to realize a “mega merger”, and it has been successfully ...