The metal organic framework (MOF) comprises a coordination product of metal ions and at least bidentate organic ligands, wherein the metal ions and organic ligands are selected to provide a deliverable adsorption capacity of at least 70 g / l for the electron gas. The porous organic polymer (...
Metal organic frameworks for gas storage 金属有机框架(Metal Organic Frameworks,MOFs)用于气体储存 随着人们对清洁能源的需求增加,化石燃料的排放成为了一个越来越严峻的问题。为了减少二氧化碳和其他有害气体的排放量,我们需要发展新的能源储存技术。其中,金属有机框架(MOFs)的出现为解决这一问题提供了一种全新的...
The structure of MOFs is characterized by an open framework that can be porous (porous materials). MOFs can be used for gas storage, purification and separation, as well catalysis and sensing applications. Latest Research and Reviews Unravelling nonclassical beam damage mechanisms in metal-organic ...
PREDICTING GAS STORAGE CAPACITY OF METAL-ORGANIC FRAMEWORKSAmong alternative energy fuels, natural gas is gaining popularity. However, methane, the major component of natural gas, is notoriously hard to liquefy and transport, and the process is also incredibly energy inefficient. It is more effective...
第二部分:MOF在气体分离,吸附方面的应用及其相关原理。吸附的气体包括CO2,H2等;第三部分:MOF在催化...
MOFs是金属有机骨架化合物(英文名称metal organic framework)的简称。是由无机金属中心(金属离子或金属簇)与桥连的有机配体通过自组装相互连接,形成的一类具有周期性网络结构的晶态多孔材料。 Metal-organic frameworks (MOFs) are a class of crystalline materials that consist of coordination bonds between transition...
The disclosure provides organic frameworks for gas separation and storage. BACKGROUND One of the challenges in the field of porous materials is to implement high storage capacity. Such materials are quite important because of the environmental concern in the earth. From the discovery of metal-organic...
Gas storage and separation are closely associated with the alleviation of greenhouse effect, the widespread use of clean energy, the control of toxic gases, and various other aspects in human society. In this review, we highlight the recent advances in gas storage and separation using metal-orga...
Emerging as a new family of hybrid crystalline materials, bimetallic porous metal-organic frameworks (MOFs) have received great attention in gas storage and separation. We present a critical perspective in the construction of bimetallic MOFs, involving one-step synthesis and post-synthetic modification ...
Metal–organic frameworks (MOFs), an emerging class of highly porous, well-defined crystalline materials, have attracted considerable interest for catalysis, gas storage/separation, and chemical sensing, among other applications [[15], [16], [17], [18], [19]]. These materials are composed of...