Recent advances in controlled modification of the size and morphology of metal-organic frameworks 被引量：6

Recent advances in controlled modification of the size and morphology of metal-organic frameworks

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摘要 Advances in metal-organic frameworks （lVIOFs） resulted in significant contributions to diverse applications such as carbon capture, gas storage, heat transformation and separation along with emerging applications toward catalysis, medical imaging, drug deliver~ and sensing. The unique in situ and ex situ structural features of MOFs can be tailored by conceptual selection of the organic （e.g., ligand） and inorganic （e.g., metal） components. Here, we provide a comprehensive review on the synthesis and characterization of MOFs, particularly with respect to controlling their size and morphology. A better understanding of the specific size and morphological parameters of MOFs will help initiate a new era for their real-world applications. Most importantly, this assessment will help develop novel synthesis methods for MOFs and their hybrid/porous materials counterparts with considerably improved properties in targeted applications. Advances in metal-organic frameworks （lVIOFs） resulted in significant contributions to diverse applications such as carbon capture, gas storage, heat transformation and separation along with emerging applications toward catalysis, medical imaging, drug deliver~ and sensing. The unique in situ and ex situ structural features of MOFs can be tailored by conceptual selection of the organic （e.g., ligand） and inorganic （e.g., metal） components. Here, we provide a comprehensive review on the synthesis and characterization of MOFs, particularly with respect to controlling their size and morphology. A better understanding of the specific size and morphological parameters of MOFs will help initiate a new era for their real-world applications. Most importantly, this assessment will help develop novel synthesis methods for MOFs and their hybrid/porous materials counterparts with considerably improved properties in targeted applications.

作者 Botao Liu Kowsalya Vellingiri Sang-Hee Jo Pawao Kumar Yong Sik Ok Ki-Hyun Kim

机构地区 Department of Civil & Environmental Engineering Environmental and Water Resources Engineering Division Department of Nano Science and Materials Korea Biochar Research Center

出处《Nano Research》 SCIE EI CAS CSCD 2018年第9期4441-4467,共27页 纳米研究（英文版）

关键词 metal-organic frameworks smart materials novel synthesis advanced materials composite materials green chemistry metal-organic frameworks smart materials novel synthesis advanced materials composite materials green chemistry

分类号 O1 [理学—基础数学]

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