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Preparation and modification of activated carbon for benzene adsorption by steam activation in the presence of KOH 被引量:12
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作者 Yao Xin Liu Jinchang +2 位作者 Gong Guozhuo Jiang Yu Xie Qiang 《International Journal of Mining Science and Technology》 SCIE EI 2013年第3期395-401,共7页
A series of activated carbons from Taixi anthracite were prepared by steam activation in the presence of KOH and then they were modified by different methods. The regulation of porosity and the modification of surface... A series of activated carbons from Taixi anthracite were prepared by steam activation in the presence of KOH and then they were modified by different methods. The regulation of porosity and the modification of surface chemistry were carried out with the aim to improve the benzene adsorption capacity of activated carbon. The influences of KOH and activation process parameters including activation temperature, activation time and steam flow rate on porosity of activated carbon were evaluated, and the effect of modification methods on surface chemistry was investigated. Also, the relationship between benzene adsorption capacity and porosity and surface chemistry was analyzed. Results show that activation temperature is the dominant factor in the activation process; the introduction of KOH into the raw material can enhance the reactivity of char in activation process, meanwhile it shows a negative effect on the porosity development, especially on the mesopore development. Results of FTIR analysis indicate that anthracite-based activated carbon with condensed aromatics and chemically inert oxygen does not present the nature to be surface modified. Besides, benzene adsorption capacity has an approximate linear relationship with surface area and in our preparation, benzene adsorption capacity and surface area of activated carbon are up to 1210 m 2 /g and 423 mg/g, respectively. 展开更多
关键词 Activated carbon Steam activation surface modification Benzene Potassium hydroxide
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Acid/Base Treatment of Monolithic Activated Carbon for Coating Silver with Tunable Morphology 被引量:1
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作者 程辞 WANG Fei +3 位作者 赵斌元 宁月生 LAI Yijian WANG Lei 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2017年第4期760-765,共6页
Silver coatings on the exterior surface of monolithic activated carbon(MAC) with different morphology were prepared by directly immersing MAC into [Ag(NH3)2]NO3 solution. Acid and base treatments were employed to ... Silver coatings on the exterior surface of monolithic activated carbon(MAC) with different morphology were prepared by directly immersing MAC into [Ag(NH3)2]NO3 solution. Acid and base treatments were employed to modify the surface oxygenic groups of MAC, respectively. The MACs' Brunauer-EmmettTeller(BET) surface area, surface groups, and silver coating morphology were characterized by N2 adsorption, elemental analysis(EA), X-ray photoelectron spectroscopy(XPS), and scanning electron microscopy(SEM), respectively. The coating morphology was found to be closely related to the surface area and surface functional groups of MAC. For a raw MAC which contained a variety of oxygenic groups, HNO3 treatment enhanced the relative amount of highly oxidized groups such as carboxyl and carbonates, which disfavored the deposition of silver particles. By contrast, Na OH treatment significantly improved the amount of carbonyl groups, which in turn improved the deposition amount of silver. Importantly, lamella silver was produced on raw MAC while Na OH treatment resulted in granular particles because of the capping effect of carbonyl groups. At appropriate [Ag(NH3)2]NO3 concentrations, silver nanoparticles smaller than 100 nm were homogeneously dispersed on Na OH-treated MAC. The successful tuning of the size and morphology of silver coatings on MAC is promising for novel applications in air purification and for antibacterial or aesthetic purposes. 展开更多
关键词 monolithic activated carbon silver coating morphology functional groups surface modification
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Inhibition of thrombin by functionalized C_(60)nanoparticles revealed via in vitro assays and in silico studies
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作者 Yanyan Liu Jianjie Fu +3 位作者 Wenxiao Pan Qiao Xue Xian Liu Aiqian Zhang 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2018年第1期285-295,共11页
The studies on the human toxicity of nanoparticles(NPs) are far behind the rapid development of engineered functionalized NPs. Fullerene has been widely used as drug carrier skeleton due to its reported low risk. Ho... The studies on the human toxicity of nanoparticles(NPs) are far behind the rapid development of engineered functionalized NPs. Fullerene has been widely used as drug carrier skeleton due to its reported low risk. However, different from other kinds of NPs, fullerene-based NPs(C_(60) NPs) have been found to have an anticoagulation effect, although the potential target is still unknown. In the study, both experimental and computational methods were adopted to gain mechanistic insight into the modulation of thrombin activity by nine kinds of C_(60) NPs with diverse surface chemistry properties. In vitro enzyme activity assays showed that all tested surface-modified C_(60) NPs exhibited thrombin inhibition ability. Kinetic studies coupled with competitive testing using 3 known inhibitors indicated that six of the C_(60) NPs, of greater hydrophobicity and hydrogen bond(HB) donor acidity or acceptor basicity, acted as competitive inhibitors of thrombin by directly interacting with the active site of thrombin. A simple quantitative nanostructure-activity relationship model relating the surface substituent properties to the inhibition potential was then established for the six competitive inhibitors.Molecular docking analysis revealed that the intermolecular HB interactions were important for the specific binding of C_(60) NPs to the active site canyon, while the additional stability provided by the surface groups through van der Waals interaction also play a key role in the thrombin binding affinity of the NPs. Our results suggest that thrombin is a possible target of the surface-functionalized C_(60) NPs relevant to their anticoagulation effect. 展开更多
关键词 Thrombin C_(60) nanoparticle(NP) surface modification Activity inhibition Quantitative nanostructure-activity relationship Molecular docking
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