https://scholars.lib.ntu.edu.tw/handle/123456789/349752
標題: | Photo-enhancement of Cr(VI) reduction by fungal biomass of Neurospora crassa | 作者: | Lin, Y.C. Wang, S.L. Shen, W.C. Huang, P.M. Chiang, P.N. Liu, J.C. Chen, C.C. Tzou, Y.M. Lin, Y.C. SHAN-LI WANG WEI-CHIANG SHEN Wang, S.L. Shen, W.C. Huang, P.M. Chiang, P.N. Liu, J.C. Chen, C.C. Tzou, Y.M. |
關鍵字: | Chromium; Fungal biomass; Neurospora crassa; Photo-reduction | 公開日期: | 2009 | 卷: | 92 | 期: | 3-4 | 起(迄)頁: | 294-300 | 來源出版物: | Applied Catalysis B: Environmental | 摘要: | Various organisms such as fungus are capable of reducing Cr(VI) to less toxic Cr(III). However, light-induced Cr(VI) reduction by fungus is less reported and needs to be explored since anthropogenic or natural activities may bring these two reactants into a sunlit environment. In this study, the interactions and reaction mechanisms of Cr(VI) on a model fungus, Neurospora crassa, were evaluated in the presence or absence of light. The influence of ferric ion, a widely distributed metal, on Cr(VI) reduction by the fungus was also investigated under illumination. The results show that 20-54% of added Cr(VI) (96.2 μM) was removed by 1 g of dead fungal biomass (i.e., 1-2.7 mg Cr(VI) reduction by 1 g biomass) at pH 1-3, after 6 h reaction in the dark. However, 96.2 μM Cr(VI) disappeared completely (i.e., 5 mg Cr(VI) reduction by 1 g biomass) under the same reaction time and experimental conditions when light was present. The rapid disappearance of Cr(VI) in solution was due to the reduction of Cr(VI) by the excited biomass upon light absorption, and the rates of redox reactions increased with a decrease at pH. Cr(VI) reduction could be further increased with the addition of 89.5 μM Fe(III) because the formation of Fe(II) from the photolysis of Fe-organic complexes enhanced Cr(VI) reduction. Spectroscopic studies indicated that the amide, {single bond}NH, and carboxyl groups of N. c.-biomass may be responsible for initiating Cr(VI) reduction; comparatively, the cyclo-carbons of chitin, glucan, and their derivatives were more persistent to the oxidation by Cr(VI). Accordingly, fungi containing high amount of carboxyl, amide, and {single bond}NH groups may be preferable as efficient reductants for scavenging Cr(VI) from environment. Upon the absorption of a renewable light source, Cr(VI) could be converted rapidly by the biomaterials to the less toxic Cr(III). © 2009 Elsevier B.V. All rights reserved. |
URI: | http://www.scopus.com/inward/record.url?eid=2-s2.0-71749084289&partnerID=MN8TOARS http://scholars.lib.ntu.edu.tw/handle/123456789/349752 |
DOI: | 10.1016/j.apcatb.2009.08.006 | SDG/關鍵字: | Carboxyl groups; Cr reductions; Experimental conditions; Ferric ions; Fungal biomass; Neurospora crassa; NH groups; Organic complex; Photo-reduction; Reaction mechanism; Reaction time; Reductants; Single bond; Spectroscopic studies; Absorption; Amides; Biological materials; Biomass; Chromium; Fluorine containing polymers; Iron compounds; Light; Light sources; Photolysis; Redox reactions; Spectroscopic analysis; Toxic materials; Chromium compounds; Fungi; Neurospora crassa |
顯示於: | 植物病理與微生物學系 |
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