Modified clay minerals efficiency against chemical and biological warfare agents for civil human protection

•The efficient composite materials against chemical warfare agents such as yperite.•The efficient materials against biological warfare agents such as Yersinia pestis.•Efficient alternative material for protective clothing or filtration equipment.•Material efficiency can be tailored according to the...

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Veröffentlicht in:	Journal of hazardous materials 2014-04, Vol.271, p.65-72
Hauptverfasser:	PLACHA, Daniela, ROSENBERGOVA, Katerina, SLABOTINSKY, Jirí, KUTLAKOVA, Katerina Mamulová, STUDENTOVA, Sona, MARTYNKOVA, Grazyna Simha
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Sprache:	eng
Schlagworte:	Acrylic Resins - chemistry Aluminum Silicates - chemistry Aluminum Silicates - pharmacology Antibacterial activity Antiinfectives and antibacterials Applied sciences Bacteria Bentonite - chemistry Bentonite - pharmacology Biological warfare Biological Warfare Agents Cations Chemical engineering Chemical Warfare Agents - chemistry Clay mineral Clay minerals Exact sciences and technology Gram-Negative Bacteria - drug effects Gram-Negative Bacteria - growth & development Gram-Positive Bacteria - drug effects Gram-Positive Bacteria - growth & development Humans Membrane separation (reverse osmosis, dialysis...) Microbial Sensitivity Tests Montmorillonite Mustard gas Mustard Gas - chemistry Permeation Pollution Polyethylene - chemistry Polyethylenes Protective Clothing Vermiculite Yperite
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container_title	Journal of hazardous materials
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creator	PLACHA, Daniela ROSENBERGOVA, Katerina SLABOTINSKY, Jirí KUTLAKOVA, Katerina Mamulová STUDENTOVA, Sona MARTYNKOVA, Grazyna Simha
description	•The efficient composite materials against chemical warfare agents such as yperite.•The efficient materials against biological warfare agents such as Yersinia pestis.•Efficient alternative material for protective clothing or filtration equipment.•Material efficiency can be tailored according to the needs. Sorption efficiencies of modified montmorillonite and vermiculite of their mono ionic Na and organic HDTMA and HDP forms were studied against chemical and biological warfare agents such as yperite and selected bacterial strains. Yperite interactions with modified clay minerals were observed through its capture in low-density polyethylene foil-modified clay composites by measuring yperite gas permeation with using chemical indication and gas chromatography methods. The antibacterial activities of synthetized organoclays were tested against selected Gram-positive and Gram-negative bacterial species in minimum inhibitory concentration tests. The obtained results showed a positive influence of modified clay minerals on the significant yperite breakthrough-time increase. The most effective material was the polyethylene-Na form montmorillonite, while the polyethylene-Na form vermiculite showed the lowest efficiency. With increasing organic cations loading in the interlayer space the montmorillonite efficiency decreased, and in the case of vermiculite an opposite effect was observed. Generally the modified montmorillonites were more effective than modified vermiculites. The HDP cations seem to be more effective compare to the HDTMA. The antibacterial activity tests confirmed efficiency of all organically modified clay minerals against Gram-positive bacteria. The confirmation of antibacterial activity against Y. pestis, plague bacteria, is the most interesting result of this part of the study.
doi_str_mv	10.1016/j.jhazmat.2014.01.059
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Sorption efficiencies of modified montmorillonite and vermiculite of their mono ionic Na and organic HDTMA and HDP forms were studied against chemical and biological warfare agents such as yperite and selected bacterial strains. Yperite interactions with modified clay minerals were observed through its capture in low-density polyethylene foil-modified clay composites by measuring yperite gas permeation with using chemical indication and gas chromatography methods. The antibacterial activities of synthetized organoclays were tested against selected Gram-positive and Gram-negative bacterial species in minimum inhibitory concentration tests. The obtained results showed a positive influence of modified clay minerals on the significant yperite breakthrough-time increase. The most effective material was the polyethylene-Na form montmorillonite, while the polyethylene-Na form vermiculite showed the lowest efficiency. With increasing organic cations loading in the interlayer space the montmorillonite efficiency decreased, and in the case of vermiculite an opposite effect was observed. Generally the modified montmorillonites were more effective than modified vermiculites. The HDP cations seem to be more effective compare to the HDTMA. The antibacterial activity tests confirmed efficiency of all organically modified clay minerals against Gram-positive bacteria. 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Sorption efficiencies of modified montmorillonite and vermiculite of their mono ionic Na and organic HDTMA and HDP forms were studied against chemical and biological warfare agents such as yperite and selected bacterial strains. Yperite interactions with modified clay minerals were observed through its capture in low-density polyethylene foil-modified clay composites by measuring yperite gas permeation with using chemical indication and gas chromatography methods. The antibacterial activities of synthetized organoclays were tested against selected Gram-positive and Gram-negative bacterial species in minimum inhibitory concentration tests. The obtained results showed a positive influence of modified clay minerals on the significant yperite breakthrough-time increase. The most effective material was the polyethylene-Na form montmorillonite, while the polyethylene-Na form vermiculite showed the lowest efficiency. With increasing organic cations loading in the interlayer space the montmorillonite efficiency decreased, and in the case of vermiculite an opposite effect was observed. Generally the modified montmorillonites were more effective than modified vermiculites. The HDP cations seem to be more effective compare to the HDTMA. The antibacterial activity tests confirmed efficiency of all organically modified clay minerals against Gram-positive bacteria. 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Sorption efficiencies of modified montmorillonite and vermiculite of their mono ionic Na and organic HDTMA and HDP forms were studied against chemical and biological warfare agents such as yperite and selected bacterial strains. Yperite interactions with modified clay minerals were observed through its capture in low-density polyethylene foil-modified clay composites by measuring yperite gas permeation with using chemical indication and gas chromatography methods. The antibacterial activities of synthetized organoclays were tested against selected Gram-positive and Gram-negative bacterial species in minimum inhibitory concentration tests. The obtained results showed a positive influence of modified clay minerals on the significant yperite breakthrough-time increase. The most effective material was the polyethylene-Na form montmorillonite, while the polyethylene-Na form vermiculite showed the lowest efficiency. With increasing organic cations loading in the interlayer space the montmorillonite efficiency decreased, and in the case of vermiculite an opposite effect was observed. Generally the modified montmorillonites were more effective than modified vermiculites. The HDP cations seem to be more effective compare to the HDTMA. The antibacterial activity tests confirmed efficiency of all organically modified clay minerals against Gram-positive bacteria. The confirmation of antibacterial activity against Y. pestis, plague bacteria, is the most interesting result of this part of the study.</abstract><cop>Kidlington</cop><pub>Elsevier B.V</pub><pmid>24603112</pmid><doi>10.1016/j.jhazmat.2014.01.059</doi><tpages>8</tpages></addata></record>
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subjects	Acrylic Resins - chemistry Aluminum Silicates - chemistry Aluminum Silicates - pharmacology Antibacterial activity Antiinfectives and antibacterials Applied sciences Bacteria Bentonite - chemistry Bentonite - pharmacology Biological warfare Biological Warfare Agents Cations Chemical engineering Chemical Warfare Agents - chemistry Clay mineral Clay minerals Exact sciences and technology Gram-Negative Bacteria - drug effects Gram-Negative Bacteria - growth & development Gram-Positive Bacteria - drug effects Gram-Positive Bacteria - growth & development Humans Membrane separation (reverse osmosis, dialysis...) Microbial Sensitivity Tests Montmorillonite Mustard gas Mustard Gas - chemistry Permeation Pollution Polyethylene - chemistry Polyethylenes Protective Clothing Vermiculite Yperite
title	Modified clay minerals efficiency against chemical and biological warfare agents for civil human protection
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