Multifunctional cellulose-based air filters with high loadings of metal-organic frameworks prepared by in situ growth method for gas adsorption and antibacterial applications

Ma Shanshan; Zhang Meiyun; Nie Jingyi; Yang Bin; Song Shunxi; Lu Peng

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Multifunctional cellulose-based air filters with high loadings of metal-organic frameworks prepared by in situ growth method for gas adsorption and antibacterial applications

机译：基于多功能纤维素的空气过滤器，具有通过原位生长方法制备的气体吸附和抗菌应用的高载荷的空气滤波器

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Environmental threats, especially particulate matter, toxic gases and microbial pollution, have done serious harm to human health. In this paper, biodegradable composite filters were fabricated by an in situ deposition method to isolate pollutants and inactivate bacteria. The zeolitic imidazolate framework-8@cellulose fibers (ZIF-8@CF) filters had filtration efficiency as high as 98.36% and 99.94% against 0.3 mu m and 0.5 mu m particles, respectively, under a pressure drop of 134 Pa. Moreover, the nitrogen adsorption capacities of the composites were about 20 times higher than those of pure cellulose filters. In addition, the Ag-based metal-organic frameworks@cellulose fibers (Ag-MOFs@CF) exhibited excellent antimicrobial activity against Escherichia coli (E. coli) with an inhibition zone diameter of 20.8 mm. Herein, these metal-organic frameworks@cellulose fibers (MOFs@CF) composite filters with high filtration efficiency, gas adsorption and antibacterial properties could be potentially applied in alleviating air pollution and in healthcare fields.

机译：环境威胁，尤其是颗粒物质，有毒气体和微生物污染，对人类健康产生了严重的危害。在本文中，通过原位沉积方法制造可生物降解的复合滤光器以分离污染物和灭活细菌。沸石咪唑酯框架-8纤维素纤维（ZIF-8 @ CF）过滤器在134Pa的压降下，分别在0.3μm和0.5μm颗粒下的过滤效率高达98.36％和99.94％。此外，复合材料的氮吸附容量比纯纤维素过滤器高约20倍。此外，Ag基金属 - 有机框架@纤维素纤维（AG-MOFS @ CF）表现出对大肠杆菌（大肠杆菌）的优异的抗微生物活性，抑制区直径为20.8mm。这里，这些金属有机框架@纤维素纤维（MOFS @ CF）具有高过滤效率，气体吸附和抗菌性能的复合滤光器可以潜在地应用于缓解空气污染和医疗保健领域。

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来源
《Cellulose》 |2018年第10期|共12页
作者
Ma Shanshan; Zhang Meiyun; Nie Jingyi; Yang Bin; Song Shunxi; Lu Peng;
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作者单位

Shaanxi Univ Sci &

Technol Coll Bioresources Chem &

Mat Engn Key Lab Paper Based Funct Mat China Natl Light In Shaanxi Prov Key Lab Papermaking Technol &

Specia Xian 710021 Shaanxi Peoples R China;

Shaanxi Univ Sci &

Technol Coll Bioresources Chem &

Mat Engn Key Lab Paper Based Funct Mat China Natl Light In Shaanxi Prov Key Lab Papermaking Technol &

Specia Xian 710021 Shaanxi Peoples R China;

Shaanxi Univ Sci &

Technol Coll Bioresources Chem &

Mat Engn Key Lab Paper Based Funct Mat China Natl Light In Shaanxi Prov Key Lab Papermaking Technol &

Specia Xian 710021 Shaanxi Peoples R China;

Shaanxi Univ Sci &

Technol Coll Bioresources Chem &

Mat Engn Key Lab Paper Based Funct Mat China Natl Light In Shaanxi Prov Key Lab Papermaking Technol &

Specia Xian 710021 Shaanxi Peoples R China;

Shaanxi Univ Sci &

Technol Coll Bioresources Chem &

Mat Engn Key Lab Paper Based Funct Mat China Natl Light In Shaanxi Prov Key Lab Papermaking Technol &

Specia Xian 710021 Shaanxi Peoples R China;

Guangxi Univ Guangxi Key Lab Clean Pulp &

Papermaking &

Pollut Nanning 530004 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类有机化学;
关键词
Cellulose composite filters; ZIF-8 crystals; Cu-BTC metal-organic framework (MOF-199) crystals; Ag-MOFs crystals; Antibacterial activity; Filtration performance; Gas adsorption;

机译：纤维素复合过滤器;ZIF-8晶体;Cu-BTC金属 - 有机框架（MOF-199）晶体;Ag-Mofs晶体;抗菌活性;过滤性能;气体吸附;

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1. Multifunctional cellulose-based air filters with high loadings of metal-organic frameworks prepared by in situ growth method for gas adsorption and antibacterial applications [J] . Ma Shanshan, Zhang Meiyun, Nie Jingyi, Cellulose . 2018,第10期

机译：基于多功能纤维素的空气过滤器，具有通过原位生长方法制备的气体吸附和抗菌应用的高载荷的空气滤波器
2. Functionalization of cellulose fiber by in situ growth of zeolitic imidazolate framework-8 (ZIF-8) nanocrystals for preparing a cellulose-based air filter with gas adsorption ability [J] . Su Zhiping, Zhang Meiyun, Lu Zhaoqing, Cellulose . 2018,第3期

机译：纤维素纤维对沸石咪唑酯骨架-8（ZIF-8）纳米晶体制备纤维素的空气吸附能力的核纤维官能化
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Multifunctional cellulose-based air filters with high loadings of metal-organic frameworks prepared by in situ growth method for gas adsorption and antibacterial applications

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