Journal Publications
- [1]Cobalt remobilization during tectonic–hydrothermal overprinting: A case from the Tuolugou Co(–Au) deposit in East Kunlun Orogenic Belt, China.Ore Geology Reviews, 2024, 170: 106149.
- [2]Multi-stage magmatism and Sn-polymetallic mineralization in the Shuicheng Region, SW China.Lithos, 2024, 478-479: 107624.
- [3]Cobalt enrichment mechanism in the Hengdong cobalt deposit,Northeast Hunan Province:Evidence from texture,chemical composition and sulfur isotopic composition of pyrite.Acta Petrol. Sin., 2023, 39 (9) : 2723–2740.
- [4]New insights on the formation of the Jingchong Cu-Co-Pb-Zn deposit, South China: Evidence from sphalerite mineralogy and muscovite 40Ar-39Ar dating.Ore Geology Reviews, 2023, 162: 105667.
- [5]Cobalt mineralization in the Northeastern Hunan Province of South China: New evidence from the Jintang hydrothermal Co polymetallic ore district.Ore Geology Reviews, 2023, 163: 105799.
- [6]In situ LA-ICP-MS trace elements in sphalerite from the Fankou Pb-Zn deposit, South China: Implications for ore genesis.Ore Geology Reviews, 2024, 164: 105812.
- [7]王智琳, 张凯, 许德如, 邹少浩, 王宇非.东昆仑驼路沟矿床中钴成矿过程的矿物学示踪.黄金科学技术, 2023
- [8]Di Hongfei, Wang Zhilin, Xiong Yiqu, Shao Yongjun, Jiang Shaoyong, Matthew J. Brzozowski.Identifying superimposed W–Sn mineralization events using cassiterite microtextures, trace-element chemistry, and geochronology.Ore Geology Reviews, 2023, 153: 105281.
- [9]Wang Zhilin, Mechanisms of Ni-Co enrichment in paleo-karstic bauxite deposits: An example from the Maochang deposit, Guizhou Province, SW China.Chemical Geology, 2022, 613: 121161.
- [10]Wang Zhilin, Genesis of the Lishupo gold deposit in the Jiangnan Orogen, NE Hunan (South China): Biotite Ar-Ar, zircon U-Pb ages and H-O-S-Pb isotopic constraints.Ore Geology Reviews, 2022, 145: 104890.
- [11]Wang Zhilin, Micro-textural and chemical fingerprints of hydrothermal cobalt enrichment in the Jingchong Co-Cu polymetallic deposit, South China.Ore Geology Reviews, 2022, 142: 104721.
- [12]Wang Zhilin, Trace element geochemistry and O-S-Pb-He-Ar isotopic systematics of the Lishan Pb-Zn-Cu hydrothermal deposit, NE Hunan, South China.Ore Geology Reviews, 2021, 133: 104091.
- [13]王智琳, 黔中猫场杨家洞矿段铝土矿中富钴黄铁矿的发现与意义.矿物学报, 2021, 41 (Z1) : 460-474.
- [14]王智琳, 湖南栗山铅锌铜多金属矿床闪锌矿微量元素特征及成矿指示意义.地学前缘, 2020, 27 (04) : 66-81.
- [15]王智琳, 海南石碌铁多金属矿床围岩碳酸盐岩地球化学特征及其地质意义.东华理工大学学报(自然科学版), 2020, 43 (01) : 1-11.
- [16]王智琳, 湘东北长沙—平江断裂带关键金属钴的赋存状态与成矿规律.黄金科学技术, 2020, 28 (6) : 779-785.
- [17]王智琳, 湖南井冲钴铜多金属矿床绿泥石、黄铁矿和黄铜矿的矿物学特征及其成矿指示意义.大地构造与成矿学, 2018, 42 (05) : 862-879.
- [18]王智琳, 湘东北地区栗山铅锌铜多金属矿床的成因探讨: 来自矿床地质、矿物学和硫同位素的证据.南京大学学报(自然科学), 2018, 54 (2) : 366-385.
- [19]Wang Zhilin, Mineralogical and isotopic constraints on the genesis of the Jingchong Co–Cu polymetallic ore deposit in northeastern Hunan Province, South China.Ore Geology Reviews, 2017, 88: 638-654.
- [20]X.W., Zhang, Y.R., Fu, M.Z., Hou, Q., Shan, Y.Q., Zhou, C.J., Wu, Z.L., Wang, D.R., Xu.Mesozoic gold mineralization in hainan province of south china: genetic types, geological characteristics and geodynamic settings.Journal of Asian Earth Sciences, 2017, 137: 80-108.
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Wang Zhilin
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