Your search keyword '"Zhang, Wen-Xuan"' showing total 2 results

1. Synthesis, structure and optical limiting effect of a novel inorganic–organic hybrid polymer containing mixed chains of copper(I)/iodine

Author

Li, Hao-Hong, Chen, Zhi-Rong, Li, Jun-Qian, Zhan, Hong-Bing, Zhang, Wen-Xuan, Huang, Chang-Cang, Ma, Cheng, and Zhao, Bin

Subjects

*LATTICE theory, *THERMAL analysis, *ANALYTICAL chemistry, *CRYSTAL lattices

Abstract

Abstract: In this paper, treatment of N-ethyl-benzo[f]quinolium (ebq) iodide and CuI with excess KI afforded an unusual coordination polymer [(ebq)2(Cu3I4)(CuI2)] n (1). 1 crystallizes in tetragonal system, space group P4(2)bc with cell parameters of , , , , , and . A highly interesting feature of 1 is its presence of mixed types of chains [ and chain] in one crystal lattice based on supramolecular self-assembly directed by cations. The infinite chains and in 1 could be described as the edge-sharing arrangement of CuI4 tetrahedron. Furthermore, IR, EA, UV–Vis, thermal analysis and optical limiting measurements were adopted to characterize polymer 1. The optical limiting experiment shows that the present polymer exhibits a large optical limiting capacity. [Copyright &y& Elsevier]

Published

2006

2. Ultrasound-assisted catalytic reduction of Cr(VI) by an acid mine drainage based nZVI coupling with FeS2 system from aqueous solutions: Performance and mechanism.

Author

Diao, Zeng-Hui, Yan, Liu, Dong, Fu-Xin, Chen, Zhi-Liang, Guo, Peng-Ran, Qian, Wei, Zhang, Wen-Xuan, Liang, Jing-Yi, Huang, Shi-Ting, and Chu, Wei

Subjects

*ACID mine drainage, *CATALYTIC reduction, *AQUEOUS solutions, *CHROMIUM removal (Water purification), *ETHYLENEDIAMINE, *HUMIC acid, *CHROMATES

Abstract

Nowadays, nanoscale zero valent iron (nZVI) has been extensively applied for the decontamination of various pollutants, but passivation of nZVI severely affects its reactivity in use. In this study, ultrasound (US)-assisted catalytic reduction of Cr(VI) by an acid mine drainage based nZVI (AMD-nZVI) coupling with FeS 2 system was systematically examined. Results show that the presence of FeS 2 and US induced a synergistic enhancement of Cr(VI) removal by AMD-nZVI. Nearly 98% of Cr(VI) removal was achieved by AMD-nZVI/FeS 2 /US process within 60 min under optimal reaction conditions. Several coexisting substances with lower concentration including Pb(II), Ni(II), bisphenol A (BPA) and 2,4-diclorophenol (2,4-DCP) could be effectively removed in simultaneous manner with Cr(VI) removal. The inhibitory order of water matrix species on Cr(VI) removal was NO 3 − > PO 4 3− > HCO 3 − > Ca2+ > Mg2+ > Cl−, and a serious suppression effect was induced by humic acid (HA). Addition of ethylene diamine tetra-acetic acid (EDTA) and citric acid (CA) could enhance Cr(VI) removal rate. An enhanced reaction mechanism was proposed, which involved the regeneration of more Fe2+ and H+ by AMD-nZVI/FeS 2 /US process, leading to the reduction of Cr(VI) by AMD-nZVI and FeS 2 into Cr(III) species inculding Cr 2 O 3 and Cr(OH) 3. This study well demonstrates that AMD-nZVI/FeS 2 /US process is considered as a potential candidate for the remediation of Cr(VI) in real wasterwater. Image 1 • FeS 2 induced an enhanced removal of Cr(VI) by AMD-nZVI/US process. • The formation of Fe2+ and acidic condition played a primary role in this process. • Removal of Pb(II), Ni(II), 2,4-DCP and BPA could be achieved with Cr(VI) removal. • Most of Cr(VI) species was sucessfully reduced into Cr 2 O 3 and Cr(OH) 3. • Enhanced mechanism of Cr(VI) removal by AMD-nZVI/FeS 2 /US process was proposed. [ABSTRACT FROM AUTHOR]

Published

2021