[1]
TURNER R J, BORGHESE R, ZANNOUI D, et al. Microbial processing of tellurium as a tool in biotechnology[J]. Biotechnology Advances, 2012, 30:954-963.
https://www.sciencedirect.com/science/article/pii/S0734975011001509
[2]
BA L A, DORING R, JAMIER R, et al. Tellurium:an element with great biological potency and potential[J]. Organic & Biomolecular Chemistry, 2010, 8:4203-4216.
https://pubs.rsc.org/en/content/articlelanding/2010/ob/c0ob00086h
[3]
ZWEIBEL K. The impact of tellurium supply on cadmium telluride photovoltaics[J]. Science, 2010, 328:699-701.
[4]
ZHANG H, LIU C X, Qi X L, et al. Topological insulators in Bi2Se3, Bi2Te3 and Sb2Te3 with a single Dirac cone on the surface[J]. Nature Physics, 2009, 5:438-442.
[5]
ROCCHETTI L, BEOLCHINI F. Recovery of valuable materials from end-of-life thin-film photovoltaic panels:environmental impact assessment of different management options[J]. Journal of Cleaner Production, 2015, 89:59-64.
[6]
银剑钊, 周剑雄, 杨百川, 等.世界首例独立碲矿床:中国四川石棉县大水沟碲矿的矿床地质特征[J].地学前缘, 1994, 4:241-243.
[7]
周令冶, 陈少纯.稀散金属提取冶金[M].北京:冶金工业出版社, 2008.
[8]
First solar achieves yet another cell conversion efficiency world record, thin film record 22.1 percent research cell continues performance advancement trend[EB/OL]. http://www.businesswire.com/news/home/20160223005315/en/Solar-Achieves-Cell-ConversionEfficiency-World-Record, (2016-02-23)[2020-9-10].
[9]
U. S. Department of the Interior U. S. Geological Survey. Mineral commodity summaries: tellurium[R]. 2010-2020.
[10]
British scientists find sub-sea minerals treasure trove[EB/OL]. (2017-04-13)[2020-9-10]. http://www.mining.com/.
[11]
中国地质矿产信息研究院.中国矿产[M].北京:中国建材工业出版社, 1993.
[12]
吴萍.辉碲铋矿湿法冶金研究[J].有色金属(冶炼部分), 2013(5):30-32.
[13]
银剑钊, 陈毓川, 周剑雄, 等.全球碲矿资源若干问题综述-兼述中国四川石棉县大水沟独立碲矿床的发现[J].河北地质学院学报, 1995, 18(4):348-353.
[14]
CHIZHIKOV DM, SHCHASTLIVYI VP. Tellurium and Tellurides[M]. Collet's London and Welling borough, 1970, 25-99.
[15]
COOPER W C (Ed.). Tellurium[M]. Noranda Research Centre, Pointe Clare, Quebec, 1971, 1-47.
[16]
SINDEEVA N D. Mineralogy and types of deposits of selenium and tellurium[M]. John Willey& Sons Inc, 1964.
[17]
黄洪浪.太阳能光伏产业风险研究[R].2014.
[18]
DAVEY T R A. The physical chemistry of lead refining[J]. In: Cigan, J.M. (Ed.), Lead Zinc-Tin'80. TMS, Warrendale, PA, 1980, 477-507.
[19]
ZHANG J, ZHANG Y, RICHMOND W. Processing technologies for goldtelluride ores[J]. J Miner, Metall. Mater, 2010, 17, 1-9.
[20]
张博亚.铜阳极泥加压酸浸预处理工艺及机理研究[D].昆明: 昆明理工大学, 2008.
[21]
田中秀明, 清水文彦.从铜电解阳极泥的浸出液中回收碲[J].国外稀有金属, 1986(2):18-23.
[22]
SHAO LX, DIAO J, JI CQ, et al. A novel and clean process for extracting tellurium and bismuth from Dashuigou tellurium ore by oxidizing leaching[J]. Hydrometallurgy, 2020, 191:105-205.
[23]
冯振华.碲铋矿湿法利用工艺研究[D].成都: 成都理工大学, 2012.
[24]
HOFFMANN, J E. Recovering selenium and tellurium from copper refinery slimes[J]. JOM 41(7), 1989, 33-38.
[25]
SMIRNOV M P. The refining of lead and treatment of by-products[J]. 1977, 90-94.
[26]
陈国发.重金属冶金学[M].北京:冶金工业出版社, 2010.
[27]
HAIT J, JANA R K, SANYA S K. Mineralogical characteristics of copper electro-refininganode slime and its leached residues[J]. Ind. Eng. Chem. Res, 2004, 43:2079-2087
[28]
董凤书.波立登隆斯卡尔冶炼厂阳极泥的处理[J].有色冶炼:贵金属, 2003(4):25-27.
[29]
胡一平.铜阳极泥处理工艺的选择[J].云南冶金, 2015, 44(4):34-38.
[30]
SENANAYAKE G, MAKUE F M. Extraction of tellurium from lead and copper bearing feed materials and interim metallurgical products-A short review[J]. Minerals Engineering, 2018, 115:79-87
[31]
熊家春, 铜阳极泥卡尔多炉处理工艺中碲化铜渣及文丘里泥综合提取碲的研究[D].赣州: 江西理工大学, 2017.
[32]
涂百乐, 张源, 王爱荣.卡尔多炉处理铜阳极泥技术及应用实践[J].黄金, 2011, 32(3):45-48.
[33]
张焕然, 张永锋, 王俊娥, 等.碲化铜渣湿法处理制备二氧化碲工艺与工业化设计[J].中国有色冶金, 2019, 2(1):64-67.
[34]
XU L, XIONG Y, ZHANG G, et al. An environmental-friendly process for recovery of tellurium and copper from copper telluride[J]. Journal of Cleaner Production, 2020, 272:122723.
[35]
XU L, XIONG Y, SONG Y, et al. Recycling of copper telluride from copper anode slime processing:Toward efficient recovery of tellurium and copper[J]. Hydrometallurgy, 2020, 196:105436.
[36]
姜国敏.铜阳极泥综合渣中碲的回收[J].金属矿山, 2008(6):142-144.
[37]
王吉坤, 张博亚.铜阳极泥现代综合利用技术[M].北京:冶金工业出版社, 2008.
[38]
郑雅杰, 陈昆昆, 孙召明.SO2还原沉金后液回收硒碲及捕集铂钯[J].中国有色金属学报, 2011, 21(9):2258-2264.
[39]
ZHANG F Y, ZHENG Y J, PENG G M. Selection of reductants for extracting selenium and tellurium from degoldized solution of copper anode slimes[J].中国有色金属学报(英文版), 2017, 27(4):917-924.
[40]
张林宝, 郑雅杰, 安小凯.沉铂钯后液中碲铋的分离与回收工艺[J].中国有色金属学报2018, 28(8):1660-1668.
[41]
郑雅杰, 乐红春, 孙召明.铜阳极泥处理过程中中和渣中碲的提取与制备[J].中国有色金属学报, 2012, 22(8):2360-2365..
[42]
张林宝, 郑雅杰, 安小凯.沉铂钯后液中碲铋的分离与回收工艺[J].中国有色金属学报, 2018, 28(8):1660-1668.
[43]
李永佳, 雷霆, 邹艳梅, 等.稀散金属冶金[M].北京:冶金工业出版社, 2018, 547-508.
[44]
周安梁, 谢永金, 贵冶铜阳极泥处理工艺与扩能改造[J].有色金属(冶炼部分), 2013(10):11-14.
[45]
吴展, 李云峰, 王亚东, 等.铜阳极泥回收碲的工艺优化研究[J].中国有色冶金, 2019, 6:6-9, 22.
[46]
沙梅.铜阳极泥浮选处理工艺及实践[J].有色冶炼, 2003(5):27-30.
[47]
杨勇, 陈鹤群.铜阳极泥选冶联合流程的特点与展望[J].昆明理工大学学报, 2002, 27(1):31-34.
[48]
MARGULIS EV, ZAITSEV VY. The metallurgy of lead and zinc[M]. Moscow "Metallurgiya", 1985, 91-93.
[49]
王珂.大水沟碲铋矿湿法冶金工艺研究[D].成都: 成都理工大学, 2018.
[50]
冯海亮, 车小奎, 郑其, 等.某难选贫辉碲铋矿的选矿工艺研究[J].稀有金属, 2016, 40(7):687-694.
[51]
邓伟, 舒超, 王昌良, 等.四川某难选低品位碲铋矿的选矿试验研究[J].矿产综合利用, 2018, 3:34-37.
[52]
蒋新宇.从铋碲矿中分离碲的新技术[J].稀有金属与硬质合金, 2000, 141:8-10..
[53]
周堃, 曾英, 龙剑平, 等.一种碲铋矿提取二氧化碲方法: 108217610A[P].2018-06-29..
[54]
LI D C, GUO Y F, DENG T L, et al. Solvent extraction of tellurium from chloride solutions using tri-n-butyl phosphate: conditions and thermodynamic data[J]. The Scientific World Journal, 2014.
[55]
JOHN A D. Lange's Handbook of Chemistry, 12ed[S]. New York: Me Graw-Hill, 1979.
[56]
周堃, 曾英, 龙剑平, 等.一种碲铋矿提取碲的方法: 108217609A[P].2018-06-29..
[57]
曾英, 周堃, 龙剑平, 等.一种碲铋矿硫酸浸液萃碲方法: 108328584A[P].2018-07-27.
[58]
SHAO L X, DIAO J, JI C Q, et al. A novel and clean process for extracting tellurium and bismuth from Dashuigou tellurium ore by oxidizing leaching[J]. Hydrometallurgy, 2020, 191:105-205.
[59]
杨显万, 沈庆峰, 郭玉霞.微生物湿法冶金[M].北京:冶金工业出版社, 2003.
[60]
GUO Y F, Deng T L, Zhang N, et al. Tellurium extraction from the unique independent tellurium ores in China by bioleaching[J]. Advanced Materials Research, 2012, 343-344:625-630.
[61]
谢鸿观, 雷泞菲, 侯立玮, 等.一种低品位碲矿的生物浸出方法: 10220252A[P].2011-04-20.
[62]
谢鸿观, 童晋, 雷泞菲, 等.一种低品位碲矿生物浸出液中碲的微生物方法: 103288059A[P].2013-09-11.
[63]
陈美勇, 刘俊来, 胡建江, 等.大兴安岭北段三道湾子碲化物型金矿床的发现及意义[J].地质通报, 2008, 27(4):584-587. doi: 10.3969/j.issn.1671-2552.2008.04.016
[64]
董萍.碲化物型难处理金矿综合回收碲金银的工艺研究[D].西安: 西安建筑科技大学, 2018.
[65]
ZHANG J, ZHANG Y, RICHMOND W, et al. Processing technologies for gold-telluride ores[J], International Journal of Minerals, Metallurgy and Materials, 2010, 17(1):1-10.
[66]
孙戬.金银冶金(第二版)[M].北京:冶金工业出版社, 1998.
[67]
杨玮, 董萍, 王刚, 等.一种从碲化物型含金矿石中回收碲的方法: 108160309B[P].2020-01-07.
[68]
王刚.从含碲金精矿氰化浸渣中浸出碲的工艺研究[D].西安: 西安建筑科技大学, 2019.