Investigation of pyrite surface state by DFT and AFM

Investigation of pyrite surface state by DFT and AFM

下载PDF

导出

摘要 The surface states of pyrite(Fe S2) were theoretically investigated using first principle calculation based on the density functional theory(DFT). The results indicate that both the(200) and(311) surfaces of pyrite undergo significant surface atom relaxation after geometry optimization, which results in a considerable distortion of the surface region. In the normal direction, i.e., perpendicular to the surface, S atoms in the first surface layer move outward from the bulk, while Fe atoms move toward the bulk, forming an S-rich surface. The surface relaxation processes are driven by electrostatic interaction, which is evidenced by a relative decrease in the surface energy after surface relaxation. Such a relaxation process is visually interpreted through the qualitative analysis of molecular mechanics. Atomic force microscopy(AFM) analysis reveals that only sulfur atom is visible on the pyrite surface. This result is consistent with the DFT data. Such S-rich surface has important influence on the flotation properties of pyrite. The surface states of pyrite（Fe S2） were theoretically investigated using first principle calculation based on the density functional theory（DFT）. The results indicate that both the（200） and（311） surfaces of pyrite undergo significant surface atom relaxation after geometry optimization, which results in a considerable distortion of the surface region. In the normal direction, i.e., perpendicular to the surface, S atoms in the first surface layer move outward from the bulk, while Fe atoms move toward the bulk, forming an S-rich surface. The surface relaxation processes are driven by electrostatic interaction, which is evidenced by a relative decrease in the surface energy after surface relaxation. Such a relaxation process is visually interpreted through the qualitative analysis of molecular mechanics. Atomic force microscopy（AFM） analysis reveals that only sulfur atom is visible on the pyrite surface. This result is consistent with the DFT data. Such S-rich surface has important influence on the flotation properties of pyrite.

作者先永骏聂琪文书明刘建邓久帅

机构地区 Faculty of Land Resource Engineering Kunming University of Science and Technology State Key Laboratory of Complex Nonferrous Metal Resources Clean Utilization (Kunming University of Science and Technology) Faculty of Mining Engineering Kunming Metallurgy College

出处《Journal of Central South University》 SCIE EI CAS CSCD 2015年第7期2508-2514,共7页 中南大学学报（英文版）

基金 Project(51464029)supported by the National Natural Science Foundation of China Project(2014M562343)supported by China Postdoctoral Science Foundation Project(KKSY201421110)supported by the Scholar Development Project of Yunnan Province,China

关键词 pyrite density functional theory（DFT） surface energy surface relaxation S-rich surface 表面状况黄铁矿 DFT 原子力显微镜 AFM 密度泛函理论静电相互作用第一性原理

分类号 TD912 [矿业工程—选矿] TD951 [矿业工程—选矿]

引文网络
相关文献

参考文献23

1Y1ANATOS J, CARRASCO C, VINNETT L, ROJAS 1. Pyrite recovery mechanisms in rougher flotation circuits [J]. Minerals Engineering, 2014, 66-68: 197-201.
2XIAN Yong-jun, WEN Shu-ming, LIU Jian, DENG Jiu-shuai, BAO Shao-jun. Discovery of a new source of unavoidable ions in pyrite aqueous solutions [J]. Minerals & Metallurgical Processing, 2013, 30(2): 117 121.
3CHEN Jian-hua, LI Yu-qiong, CHEN Ye, Cu-S flotation separation via the combination of sodium humate and lime in a low pH medium [J]. Minerals Engineering, 2011, 24(1): 58-63.
4DEDITIUS A P, UTSUNOMIYA S, REICH M, KESLER S E, EWING R C, HOUGH R M, WALSHE J L. Trace metal nanoparticles in pyrite [J]. Ore Geology Reviews, 2011, 42(1): 32-46.
5ABRAITIS P K, PATTRICK R A D, VAUGHAN D J. Variations in the compositional, textural and electrical properties of natural pyrite: A review [J]. International Journal of Mineral Processing, 2004, 74(1/2/3/4): 41-59.
6YALCIN E, KELEBEK S. Flotation kinetics of a pyritic gold ore [J]. International Journal of Mineral Processing, 2011, 98(1/2): 48-54.
7CA1 Yuan-feng, PAN Yu-guan, XUE Ji-yue, SUN Qing-feng, SU Gui-zhen, LI Xiang. Comparative XPS study between experimentally and naturally weathered pyrites [J]. Applied Surface Science, 2009, 255(21): 8750-8760.
8ACRES R G, HARMER S L, BEATTIE D A. Synchrotron XPS studies of solution exposed chalcopyrite, bomite, and heterogeneous chalcopyrite with bornite [J]. International Journal of Mineral Processing, 2010, 94(1/2): 43-51.
9张辉,刘应书,王宝义,魏龙,奎热西,钱海杰.X-ray absorption near the edge structure and x-ray photoelectron spectroscopy studies on pyrite prepared by thermally sulfurizing iron films[J].Chinese Physics B,2009,18(7):2734-2738. 被引量：1
10CHELGANI S C, HART B. TOF-SIMS studies of surface chemistry of minerals subjected to flotation separation--A review [J]. Minerals Engineering, 2014, 57:1-1 I.

二级参考文献23

1李杰,钟宏,刘广义.硫化铜矿石浮选捕收剂的研究进展[J].铜业工程,2004(4):15-18. 被引量：36
2熊道陵,陈湘清,蒋玉仁.含钙物质对黄铜矿和黄铁矿浮选行为的影响[J].湖南有色金属,2004,20(6):8-10. 被引量：19
3刘智林,许方.低碱度下组合抑制剂对易浮黄铁矿的抑制机理研究[J].矿冶工程,2005,25(5):33-35. 被引量：16
4张东晨,张明旭,陈清如.煤中黄铁矿表面细菌氧化的XRD及SEM/TEM研究[J].中国矿业大学学报,2005,34(6):761-765. 被引量：17
5Ennaoui A, Fiechter S and Goslowsky H 1985 J. Electrochem. Soc. 132 1579.
6Ferret I J, Nevskaia D M, de las Heras C and Sanchez C 1990 Solid State Commun. 74 913.
7Smestad G, Ennaoui A, Fiechter S, Tributsh H, Hofmann W K, Birkholz M and Kautek W 1990 Sol. Energy Mater. 20 149.
8Wan D Y, Wang Y T, Wang B Y, Ma C X, Sun H and Wei L 2003 J. Cryst. Growth 253 230.
9Pan MX, CaoXZ, LiYX, WangB Y, XueD S, MaC X, Zhou C L and Wei L 2004 Acta Phys. Sin. 53 1956.
10Thomas B, Ellmer K and Muller M 1997 J. Cryst. Growth 170 808.

共引文献5

1黄真瑞,钟宏,王帅,刘广义.黄铜矿浮选工艺及捕收剂研究进展[J].应用化工,2013,42(11):2048-2051. 被引量：12
2孙忠梅,孙春宝,王纪镇,李绍英.载金黄铁矿新型捕收剂2-甲基-5-己基黄药捕收性能及其作用机理[J].中南大学学报（自然科学版）,2015,46(8):2778-2784. 被引量：4
3沈新春,李平,李振飞.某钨矿山混合硫化矿中铜回收试验研究[J].中国钨业,2015,30(5):49-53. 被引量：4
4孙忠梅.硫化铜浮选及滑石高效抑制剂的研究[J].黄金,2016,0(3):54-58. 被引量：2
5徐伟,张仁忠,田言,解田,刘松林.贵州某碳酸盐型磷矿反浮选脱镁提磷试验研究[J].化工矿物与加工,2018,47(4):1-3. 被引量：9

1刘强,肖贵乾,杨秋萍.Pyrite-结构TiO_2弹性性质的第一性原理研究[J].重庆理工大学学报（自然科学）,2015,29(1):37-40. 被引量：1
2陈艳华,郑毓峰,张校刚,孙言飞,董有忠.pH值对溶剂热合成FeS_2粉体的影响[J].物理化学学报,2005,21(4):419-424. 被引量：6
3吕维强,杨春晖,孙亮,朱崇强,马天慧,孙彧.The First Principle Calculation of Electronic Structure and Optical Properties of CdGeAs_2[J].Chinese Journal of Structural Chemistry,2009,28(5):553-558. 被引量：1
4唐涛.STRUCTURAL EVOLUTION AND COMPOSITION CHANGE IN THE SURFACE REGION OF POLYPROPYLENE/CLAY NANOCOMPOSITES ANNEALED AT HIGH TEMPERATURES[J].Chinese Journal of Polymer Science,2009,27(6):879-888.
5李俊乹,章永凡.A density functional study on the electronic structures of TiN solid[J].Chinese Journal of Chemistry,2000,18(3):286-293.
6李登峰,肖海燕,薛书文,杨莉.Surface Structure and Electronic Property of InP（001）-（2×1）S Surface： A First-Principles Study[J].Chinese Physics Letters,2010,27(4):193-195.
7Yudong Du,Wenkai Chen,Yongfan Zhang,Xin Guo.Study of CO adsorption on perfect and defective pyrite (100) surfaces by density functional theory[J].Journal of Natural Gas Chemistry,2011,20(1):60-64.
8Baisheva R.G.,Ibgasheva R.Kh..Surface Properties of Cu Doped La-Ni Intermetallic Compounds[J].Chemical Research in Chinese Universities,1993,9(3):225-230.
9SONG Feng-li,LI Jin-ying,LIN Can-sheng,ZHOU Chang-xin,LI Hui-bo,SU Zhe,WANG Xiao-rong.Qualitative Analysis of Radiolytic Products in TBP Extraction System[J].Annual Report of China Institute of Atomic Energy,2009(1):301-301.
10Hu Weibing,Zhou Zhongxin,Zhang Manzheng.STRUCTURAL CHARACTERIZATION OF Pd-SnO_2/D_(3520) CATALYSTS[J].Chinese Journal of Reactive Polymers,1996,5(1):64-70.

Journal of Central South University

2015年第7期

浏览历史

内容加载中请稍等...

Investigation of pyrite surface state by DFT and AFM

参考文献23

二级参考文献23

共引文献5

相关作者

相关机构

相关主题

浏览历史