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李杰，正高級(jí)工程師，博士生導(dǎo)師。2007年7月畢業(yè)于中國科學(xué)院廣州地球化學(xué)研究所地球化學(xué)專業(yè)，獲理學(xué)博士學(xué)位。主要從事分析地球化學(xué)研究方向。截至2025年11月，已發(fā)表150余篇學(xué)術(shù)論文（第一和通訊作者SCI論文32篇），申請(qǐng)國家發(fā)明專利4項(xiàng)?，F(xiàn)任中國礦物巖石地球化學(xué)學(xué)會(huì)巖礦分析測(cè)試專業(yè)委員會(huì)委員。

主要從事分析地球化學(xué)研究，近期研究工作包括：（1）高精度Pt-Re-Os放射性同位素體系術(shù)研發(fā)；（2）非傳統(tǒng)穩(wěn)定同位素U、Re、Mo、Cu、Zn、Sn、Cd、In和Tl等分析技術(shù)研發(fā)和革新；（3）非傳統(tǒng)穩(wěn)定同位素在海相沉積物中的分餾特征、分餾機(jī)制及對(duì)古海洋環(huán)境的指示。

2013年，中國科學(xué)院“青年創(chuàng)新促進(jìn)會(huì)”會(huì)員?

2016年，第16屆“侯德封礦物巖石地球化學(xué)青年科學(xué)家“獎(jiǎng)

2016年，中國科學(xué)院“關(guān)鍵技術(shù)人才”

2017年，中國科學(xué)院院所兩級(jí)公共技術(shù)服務(wù)中心“優(yōu)秀個(gè)人”

2017年，中國科學(xué)院廣州分院 “優(yōu)秀共產(chǎn)黨員”

2020年，廣東省自然科學(xué)一等獎(jiǎng)：顯生宙增生造山過程中大陸地殼的非均勻生長（排名第四）

2025年

【1】 Wu Y-W., Tian H*., Fan H-F*., Strandmann P.A.E.V. Zhao W., Li J., Sun H., Gu H-O., Liu C-J., Liu X-Y., Li T-F., Ji S., Peng P-A. Enhanced erosion by continental arc volcanism as a driver of the Cambrian Explosion. Nature Communications., 2025, 16: 9204.

【2】 Rui H-C., Namur O., Lian D-Y*., Cai P-J., Li J., Valdes-Marino Y., Yang J-S., He H-P. Modification of oceanic lithospheric mantle by percolated melts sourced from recycled ancient crust: Evidence from Ca–Os isotopes of refractory harzburgites. Chemical Geology, 2025, 695: 23077.

【3】 鐘橋輝，彭冰鈺，何熾鳳，郭家凱，初高彬，尹露，李杰*。改進(jìn)的兩柱Cd 色譜分離流程和高精度的Cd 同位素分析。地球科學(xué)，2025，50（7）：2511-2524.

【4】 Wu Y-W*., Tian H., Li J., Hu J-F., Wang Y-J., Gan C-S., Fan H-F. Cadmium isotopic evidence for a collapse of primary productivity during the Hirnantian glaciation and mass extinction. Chemical Geology, 2025, 694: 123017.

【5】 Lei M., Guo Z-F., Dingwell D B., Li J., Chen J-L*. Identification of the nature of recycled carbonates in the mantle: Insights from the Mo-Mg isotopic pair. American Mineralogist, 2025, 110: 1197–1208.

【6】 Tang L., Zeng T., Wagner T., Fusswinkel T., Chen L-L., Li J., Wang R*. Calcium and molybdenum isotopes trace eclogitic crust recycling in formation of unique carbonatite-hosted Mo-REE-U-Nb deposits in orogenic belt. Earth and Planetary Science Letters, 2025, 668:119568.

【7】 Wang J-L., Zhong Q-H., Wang Z-Y., Yin L., Guo J-K., Wang Z-B., Li J*. Quantification of cadmium, rhenium and thallium in low-content samples via isotope dilution ICP-MS combined with single-step anion exchange preconcentration. J. Anal. At. Spectrom. 2025, 40:2232-2242.

【8】 Dong F-Y., Wang Z-Y., Yin L., Li J*. Determination of Thallium Isotope Ratios in Ten Geological Reference Materials, and of Thallium Isotopic Fractionation Effects Related to Sample Digestion by Dry Ashing. Geostandards and Geoanalytical Research, 2025, 49(2):329-341.

【9】 Peng B-Y., Zhong Q-H., Dong F-Y., Chu G-B., Yin L., Zhang J., Li J*. Determination of Molybdenum Isotopic Compositions in Eleven Geological Reference Materials by MC-ICP-MS Combined with BPHA Resin Separation Atom. Spectrosc. 2025, 46(2):209-220.

【10】 Bao H-Y., Li J*., Guo J-K., Mao G-H., Xu J-F. Micowave digestion for Re-Os isotope measurements in geological samples. Atom. Spectrosc. 2025, 46(1):59–65.

【11】 Miao X-M., Oppo D., Wei J-G., Li J-T., Li J-W., Du M-R., Guan H-X., Liu X-T., Li J., Wu T-T., Wu K-K., Li J-R. Environmental sulfidation and Mo source jointly control Mo isotopic composition in sediments under methane seepage. GSA Bulletin?2025; doi:?https://doi.org/10.1130/B37992.1

【12】 Zhong Q-H., Yin L., Chu G-B., He C-F., Li J*. Effective separation of zinc from geological samples for high-precision zinc isotope measurement using MC-ICP-MS. J. Anal. At. Spectrom. 2025, 40:1353-1363.

【13】 Bao H-Y., Li J*., Ni W-S., Wang T-T., Shen N-P., Chu G-B., Liu J-G., Liu J-J., Xu J-F. High-precision determination of ¹⁸⁶Os/¹⁸⁸Os and ¹⁸⁷Os/¹⁸⁸Os isotope ratios via antimony fire assay and multi-collector ICP-MS. Analytical Chemistry, 2025, 97:8048-8055.

【14】 Chen Z-X*., Teng F-Z., Stern R J., Zhang Y-X., Li J., Zeng Z-G. Molybdenum isotope evidence for subduction-modified mantle beneath mid-ocean ridges.Earth and Planetary Science Letters, 2025, 658:119294.

【15】 Fan J-J., Wang Q*., Long X-P., Wyman D.A., Kerr A.C., Li J., Wang Z-L., Gong L., Xu D-J., Yang Q-J., Zhang L., Cui Z-X. Mo isotope evidence for the significance of subducted continental crust in formation of post-collisional porphyry Cu deposits. Chemical Geology, 2025, 680: 122683.

【16】 Qiu W-H., Zhou M-F*., Malpas J., Li J., Liu Z-R., Wu Y-F. Development of weakly euxinic basin environments in the Phanerozoic oxic ocean: Insights from Fe speciation and Mo isotopes of Devonian pyrite-bearing black shales, Dajiangping pyrite mine, South China. Global and Planetary Change, 2025, 248：104721

【17】 Zhang M-Y., Hao L-L*., Qi Y*., Wang Q., Kerr. A.C., Ma L., Huang C-C., Wei G-J., Li J., Ma J-L., Li Q-W., Wang Z-L., Huang T-Y., Yang Y-H. Mantle metasomatism by subducted Indian continental crust: Evidence from post-collisional basaltic ultrapotassic rocks in southern Tibetan plateau. LITHOS, 2025, 498–499:107966.

【18】 Meng L., Shi X-Y., Zhou L-M., Li J., Liu W., Xie B-Z., Sun L-F., Xu D-T., Xu L., Wang X-Q., Tang D-J*. A prominent oxygenation event in the late Mesoproterozoic broke the calm of the second half of the “Boring Billion”. Palaeogeography, Palaeoclimatology, Palaeoecology, 2025, 662:112752.

【19】 Huang F*., Li J., Xu J-F., Zeng Y-C. Sediment melts impart extremely light Mo isotopes to arc magmas of central Tibet. Chemical Geology, 2025, 676:122610.

2024年

【20】 Tan Z-Z*., Luo J-N, Xu X-S., Jia W-L., Li J., Chen L-R. New Re–Os Geochronological Data from the Upper Doushantuo Formation: Age Constraint on theShuram Excursion and Implication for the Ediacaran Fluctuated Continental Weathering. ACS Omega,?2024,?9,?50,?49121-49131.

【21】 Miao X-M., Wei J-G., Li J-R., Wang D., Li J., Feng X-L*. Isotopically light Mo in sediments of methane seepage controlled by the benthic Fe–Mn redox shuttle process, Global and Planetary Change, 2024,239:104512

【22】 鮑厚銀，李杰*。Pt-Re-Os 同位素體系分析技術(shù)研究進(jìn)展，地球化學(xué)，2024，53（4）：595-610.

【23】 Zhang P-F., Zhou M-F*., Robinson P.T., Malpas J., Yumul Jr G.P., Wang Y., Li J. Diversities of chromite mineralization induced by chemo–thermal evolution of the mantle during subduction initiation. Nature Communications, 2024,15:9385

【24】 Xu DJ., Qi Y., Wang Q*., Li J., Wyman D. A., Kerr, A. C., Zhang XZ., Guo PN. Identifying recycled materials using Mo isotopes in intraplate alkali basalts from the southeastern margin of Tibetan Plateau. Geochemistry, Geophysics, Geosystems, 2024, 25, e2024GC011750.

【25】 Ren J-B*., Yang Y., Yu M., LiuJ., Luo S., Li J., Deng XZ., Zhang XZ, Dong F., Zhang LM., Wei ZQ., He GW. Spatial distribution of critical metals and chemostratigraphy in Co-rich ferromanganese nodules in the northwestern Pacific Ocean. Journal of Geophysical Research: Oceans, 2024,129, e2024JC021287

【26】 Wang Z-Y., Dong F-Y., Yin L., Liu J-J., Zhong Q-H., Li J*. Determination of thallium isotopic composition through MC-ICP-MS with mass bias corrected using admixed W. J. Anal. At. Spectrom. 2024,39: 2443–2451

【27】 Wang J., Tappe S., Wang Q., Li J., Zou Z-Q., Tang G.‐J*. Carbon cycling during the India-Asia collision revealed by δ26Mg–δ66Zn–δ98Mo evidence from ultrapotassic volcanoes in NW Tibet. Geology, 2024, 52:672-677.

【28】 Liu H-Q*., Tian F., Hoernle K., Li J., Huang X-L., Zhang L., Bindeman I., Xu Y-G. Molybdenum isotope insights into recycling of wedge serpentinite and fore-arc crust in subduction zones. Chemical Geology, 2024, 665:122302.

【29】 Wang J., Tang G.‐J*., Tappe S., Li J., Zou Z-Q., Wang Q., Su Y-P., Zheng J-P. Tracing subducted carbonates in Earth's mantle using zinc and molybdenum isotopes. Geophysical Research Letters, 2024, 51, e2023GL105208

【30】 Li X-H*., Li S-Z., Chen S., Fan J-J., Li J., Peng W-G., Guo K., Chen L. Molybdenum isotopic signatures of forearc serpentinites: Origin and contribution to the subduction zone Mo cycle. Journal of Geophysical Research: Solid Earth, 2024, 129, e2023JB028169.

【31】 Wang Z-B*., Ye F., Li J., Ma J-L., Chen Y-W., Liu X., Huang C., Zeng T., Wei G-J., Hong Q-Q. Diagenesis decreasing the Mo isotopic composition in estuarine systems: Implications for constraining its riverine input to ocean. Geochemistry, Geophysics, Geosystems, 2024, 25: e2023GC011251.

【32】 Dong B-H., Dong Y-P*., Long X-P*., Hua H., Li J., Zhao B-S., Chen C. The Ediacaran palaeo-ocean environment in the northwest margin of South China Craton: Constraints of C–O–Mo isotopic and element geochemistry. Earth-Science Reviews , 2024, 250 :104712.

【33】 Dai F-Q*., Chen Y-X., Zhao Z-F., Li J., Wang Y. Subducted serpentinite contributes to the formation of arc lavas with heavy Mo isotopic compositions. Geochimica et Cosmochimica Acta, 2024, 369 : 62–70.

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2023年度

【34】 Qin Z., Wang C-P., Zhou W-J., Liu H-X., Gao R-H., Li J*., Liu J-G*. A Novel Alkali Precipitation Method for Tungsten Separation and High-Precision Isotopic Measurement in Geological Samples. Geostandards and Geoanalytical Research, 2023, 47: 811-819.

【35】 Jia Z-C., Hu Y., Bayon G., Peckmann J., Wang X*., Gong S., Li J., Roberts H.H., Chen D-F., Feng D*. Seawater-fluid composition records frommolybdenum isotopes of sequentiallyextracted phases of seep carbonate rocks. Geochemistry, Geophysics, Geosystems, 2023, 24: e2023GC011128

【36】 Zhong Q-H., Yin L., Li J*., Feng Y-X., Shen N-P., Peng B-Y., Wang C-Y. A single-stage anion exchange separation methodfor Cd isotopic analysis in geological andenvironmental samples by MC-ICP-MS. J. Anal. At. Spectrom., 2023, 38: 2291-2301.

【37】 Nan J-B., Tsang M-Y., Li J., K?ster M., Henkel S., Lin F-Y., Yao W-Q*. Postdepositional behavior of molybdenumin deep sediments and implications for paleoredox reconstruction. Geophysical Research Letters, 2023, 50, e2023GL104706.

【38】 Dong F-Y., Yin L., Dong Z-G., Liu J-J., Tan Z-Z., Long X-P., Jia W-L., Li J*. Dynamic deep-water oxygenation of marginal seas in the aftermath of the Sturtian Snowball Earth: Insights from redox-hydrological reconstructionsof the Nanhua basin (South China). Precambrian Research, 2023, 398:107219.

【39】 Zhang M-Y., Huang C-C., Hao L-L*., Qi Y*., Wang Q., Kerr AC., Wei G-J., Li J., Ma J-L., Ma L., Fan J-J. Light Mo Isotopes of Post-Collisional Ultrapotassic Rocks in Southern Tibet Derived From Subducted Indian Continental Crust. Geochemistry, Geophysics, Geosystems, 2023, 24, e2023GC011053.

【40】 Yu Y., Huang X-L*., Lai Y-M., Li J., Xu Y-G., Chung S-L., Setiawan I., Yang F. Different B–Mo isotopic fractionation processes controlled by redox conditions in the subduction zone. Chemical Geology, 2023, 636:121646.

【41】 Wang X-D*., Xu T., Peckmann J., Bayon G., Jia Z-C., Gong S-G., Li J., Cordes E., Sun Y-N., Tao J., Chen D-F. Feng D*. Molybdenum isotope signature of microbial nitrogen utilization in siboglinid tubeworms. Geology, 2023, 51:698-702.

【42】 Wang S-P., Li J., Ren Z-Y*., Narantsetseg T., Zhang Q-L., Zhong Q-H., Zhang L., Yuan C. Influence of subducted carbonate on the composition of basalts in the Paleo-Asian Ocean domain. Gondwana Research, 2023, 124:290-304.

【43】 Tang W-L*., Xu J-F., Cao K., Li J., Chen J-L. Molybdenum isotope heterogeneity of metal sulfides from magmatic hydrothermal systems. Chemical Geology, 2023, 639:121742.

【44】 Tan Z-Z., Wu J-X., Jia W-L*., Li J., Kendall B., Song J-Z., Peng P-A. Molybdenum isotope evidence from restricted-basin mudstones for an intermediate extent of oxygenation in the late Ediacaran ocean. Chemical Geology, 2023, 623:121410.

【45】 Mao W*., Zhong H., Yang J-H., Liu L., Fu Y-Z., Zhang X-C., Li J., Zhang L., Fan H_F., Tang Y-W., Chen X-C. Molybdenum cycling in Andean?type subduction and metallogenic implications. Mineralium Deposita.2023,https://doi.org/10.1007/s00126-023-01178-8

【46】 Xu D-T., Qin Z., Wang X-D*., Li J., Shi X-Y., Tang D-J., Liu J-G. Extensive sea-floor oxygenation during the early Mesoproterozoic. Geochimica et Cosmochimica Acta, 2023, 354:186-196.

【47】 Zeng X-L., Zhang J., Yao H-Q*., Ren J-B., Li J*. A high-resolution Os-Nd-Pb isotopic record of a hydrogenous Fe–Mn crust from the Northwestern Pacific and its response to plate motion. Marine Geology, 2023, 459:107028.

【48】 Wang C-Y., Li J*., Yin L., Zhang L., Liu J-J., Shen N-P., Yan S., Guan Q-D. A new procedure for separating thallium from geological materials prior to stable isotope ratio determination by MC–ICP–MS. Chemical Geology, 2023, 627:121457.

【49】 Zhong Q-H., Li J*., Yin L., Shen N-P., Yan S., Wang Z-Y., Zhu C-H. A two-stage Cd purification method with anion exchange resin and BPHA extraction resin for high precision determination of Cd isotopic compositions by double spike MC-ICP-MS. J. Anal. At. Spectrom., 2023, 38: 939–949.

【50】 Guo J., Huang X-L*., Zhang L., Li J., Zhong J-W. Decoupling between Sr–Pb and Nd–Hf isotopes of Mesozoic mafic rocks in the eastern North China Craton: Implication for multi-stage modification of sub-continental lithospheric mantle. Lithos, 2023, 443:107096.

【51】 Yin L., Zhao P-P., Liu J-J., Li J.* Re-Os isotope system in organic-rich samples for dating and tracing: Methodology, principle, and application. Earth-Science Reviews, 2023, 238: 104317.

【52】 Liu J-J., Pujol M., Zhou H-G., Selby D., Li J*., Chen B. Origin and evolution of a CO₂-Rich gas reservoir offshore Angola: Insights from the Gas Composition and isotope analysis. Applied Geochemistry, 2023, 148: 105552.

【53】 Liu H-Q*., Li J., Xu Y-G., Yumul,J G.P., Knittel U., Dimalanta C.B., Payot B.D., Queano K., Huang X-L., Zhang L. Heavy Mo isotope composition of northern Bataan adakites, Philippines: Evidence for fore-arc subduction erosion? Geology, 2023，51：49-53

【54】 Huang F*., Li J., Xu J-F., Chen J-L., Wang B-D., Hu P., Xu R., Zeng Y-C., Zhang L., Zhou T. Mo isotopes archive oceanic sediments in post-orogenic lithospheric mantle. Geochimica et Cosmochimica Acta, 2023, 341: 75–89.

【55】 Dong Z-G., Peng Z-D., Robbings L.J., Konhauser K., Zhang B-L., Zhang L-C., Li J., Li W-J., Zhang L., Wang C-L*. Episodic ventilation of euxinic bottom waters triggers the formation of black shale-hosted Mn carbonate deposits. Geochimica et Cosmochimica Acta, 2023, 341:132-149.

2022年度

【56】 Dong Z-G., Peng Z-D., Wang C-L*., Zhang B-L., Zhang L-C., Li J., Zhang X., Li W-J., Zhang L. Insight into?the?genesis of?the?Zhaosu Carboniferous Mn carbonate deposit (NW China): constraints from?petrography, geochemistry, and?C–Mo isotopes. Mineralium Deposita ,2022, 57:1269–1289.

【57】 Long X-P., Shu C-T., Foley S.F., Wang X-C., Li J. Subducted Front of the Indian Continental Crust Beneath the Tibetan Plateau in the Early Eocene. Earth and Space Science, 2022, 9: e2022EA002533.

【58】 Wei W-F., Liu B., Sun L-Q., Wei G-Y., Chen W-F*., Chen X., Fan Q-C., Tang X-S., Li J., Ling H-F*. Molybdenum isotope variation mechanism and ore-genesis of Niutoushan Pb–Zn sulfide orebodies in the Xiangshan volcanic basin, South China. Journal of Geochemical Exploration, 2022, 242:107057.

【59】 Ma L*., Xu Y-G., Li J., Chen L-H., Liu J-Q., Li H-Y., Huang X-L., Ma Q., Hong L-B., Wang Y. Molybdenum isotopic constraints on the origin of EM1-type continental intraplate basalts. Geochimica et Cosmochimica Acta, 2022, 317: 255-268.

【60】 Li J*.,Zhong Q-H., Zhang L., Yu H-X., Wang C-Y., Bao H-Y. A two-stage column protocol for the separation of Cu from geological materials and high-precision Cu isotopic analysis on a MC-ICP-MS. J. Anal. At. Spectrom., 2022, 37: 849–860.

【61】 Chen S., Peng X-T*., Li J*., Lin Z-Y., Li H-Y., Wei G-J., Li X., Ta K-W., Dasgupta S., Xu H-C., Du M-R., Li J-W., Liu Y., Zhou J-L., Liu S-Q., Zhang J. Extremely light molybdenum isotope signature of sediments in the Mariana Trench. Chemical Geology, 2022, 605:120959.

【62】 Fan J-J., Wang Q*., Ma L., Li J., Zhang X-Z., Zhang L., Wang Z-L. Extreme Mo isotope variations recorded in high-SiO2 granites: Insights into magmatic differentiationand melt–fluid interaction. Geochimica et Cosmochimica Acta, 2022, 334: 241-258.

【63】 Liu J-J., Zhou H-G., Pujol M., Selby D., Li J*.,Tian H. The bitumen formation and Re-Os characteristics of a CO2-rich pre-salt gas reservoir of the Kwanza Basin, offshore Angola. Marine and Petroleum Geology, 2022, 143: 105786.

【64】 Qin Z., Xu D-T., Kendall B., Zhang X-L., Ou Q., Wang X-Q., Li J., Liu J-G*. Molybdenum isotope-based redox deviation driven by continental margin euxinia during the early Cambrian. Geochimica et Cosmochimica Acta, 2022, 325: 152-169.

【65】 Sun M-D*., Xu Y-G., Gazel E., Li J., Zhang W-F., Zhang L., He P-L., Xiao Y-Y., Fourdan F., Wilde S.A. Exploring small-scale recycled mantle components with intraplate continental twin volcanoes. Chemical Geology, 2022, 598: 120842.

【66】 Wang C-Y., Luo Z-Y., Zhang L., Liu J-J., Li J*. Sn Isotopic Values in Ten Geological Reference Materials by Double-Spike MC-ICP-MS. Geostandards and Geoanalytical Research, 2022, 46: 547-561.

【67】 Wu Y-W., Tian H*., Jia W-L., Li J., Li T-F., Zhou Q., Xie L-H., Peng P-A. Nitrogen isotope evidence for stratified ocean redox structure during late Ediacaran to Cambrian Age 3 in the Yangtze Block of South China. Chemical Geology, 2022, 589: 120679.

【68】 Yu Y., Huang X-L*., Chung S-L., Li J., Lai Y-M., Setiawan I., Sun M. Molybdenum isotopic constraint from Java on slab inputs to subduction zone magmatism. Geochimica et Cosmochimica Acta, 2022, 332: 1-18.

【69】 Zhao J., Long X-P*., Li J., Zhao B-S., Gao Y-L., Zuo R. Serpentinite as a tracer for tectonic setting and mantle metasomatism of ophiolites: A case study of the Aoyougou ophiolite in the Qilian Orogenic Belt, NW China. Gondwana Research, 2022,105: 1–11.

2021年度

【70】 Qian S-P*., Gazel E., Nichols A.R.L., Chen H., Zhang L., Salters V.J., Li J., Xia X-P., Zhou H-Y*. The Origin of Late Cenozoic Magmatism in the South China Sea and Southeast Asia. Geochemistry, Geophysics, Geosystems, 2021, 22: e2021GC009686.

【71】 Ou Q*., Nichols A.R.L., Carvalho B.B., Zi F., Wang K., Li J., Zhang L., Liu J-Y. The role of axial discontinuities in oceanic crustal evolution: Evidence from elemental and Mo–Sr–Nd–Pb–Hf isotopic compositions of rock suites from the Southwest Indian Ridge (42?–53?E). Marine Geology, 2021:106626.

【72】 Lin Z-Y*., Sun X-M., Strauss H., Eroglu S., Bottcher ME., Lu Y., Liang J-Q., Li J., Peckmann J. Molybdenum isotope composition of seep carbonates-Constraints on sediment biogeochemistry in seepage environments. Geochimica et Cosmochimica Acta, 2021, 307: 56-71.

【73】 Li H-Y*., Zhao R-P., Li J., Tamura Y., Spencer C., Stern RJ., Ryan JG., Xu Y-G. Molybdenum isotopes unmask slab dehydration and melting beneath the Mariana arc. Nature Communications, 2021, 12: 6015.

【74】 Li X-H., Yan QS*., Zeng ZG*., Fan JJ., Li SZ., Li J., Yang HX., Wang XY. Across-arc variations in Mo isotopes and implications for subducted oceanic crust in the source of back-arc basin volcanic rocks. Geology, 2021,49: 1165-1170.

【75】 Kong D-X., Cao K., Xu, JF*., Li J*., Li W. Molybdenum isotope systematics of subduction-related magmas from the Zhongdian region: Assessing the Mo fractionation behavior in magmatic-hydrothermal processes. Ore Geology Reviews, 2021, 133: 104089.

【76】 Luo, J., Long, XP., Bowyerb, FT., Millsb, BJW., Li, J., Xiong, YJ., Zhu, XK., Zhang, K., Poulton, SW. Pulsed oxygenation events drove progressive oxygenation of the early Mesoproterozoic ocean. Earth and Planetary Science Letters, 2021, 559: 116754.

【77】 Fan, J-J., Wang, Q*., Li, J., Wei, GJ., Ma, JL., Ma, L*., Li, QW., Jiang,ZQ., Zhang, L., Wang, ZL., Zhang, L. Boron and molybdenum isotopic fractionation during crustal anatexis: Constraints from the Conadong leucogranites in the Himalayan Block, South Tibet. Geochimica et Cosmochimica Acta, 2020, 297: 120-142.

【78】 Fan, J-J., Wang, Q*., Li, J., Wei, GJ., Wyman, D., Zhao, ZH., Liu, Y., Ma, JL., Zhang, L., Wang, ZL. Molybdenum and Boron Isotopic Compositions of Porphyry Cu Mineralization‐Related Adakitic Rocks in Central‐Eastern China: New Insights Into their Petrogenesis and Crust‐Mantle Interaction. Journal of Geophysical Research: Solid Earth, 2021, 125: e2020JB020474.

【79】 Tan, ZZ., Jia, WL*., Li, J., Yin, L., Wang, SS., Wu, JX., Song, JZ., Peng, PA. Geochemistry and molybdenum isotopes of the basal Datangpo Formation: Implications for ocean-redox conditions and organic matter accumulation during the Cryogenian interglaciation. Palaeogeography, Palaeoclimatology, Palaeoecology, 2021, 563:110169.

2020年度

【80】 Fan J‐J., Wang Q., Li J., Wei G‐J., Wyman D., Zhao Z‐H., Liu Y., Ma J-L., Zhang L., Wang Z-L. Molybdenum and boron isotopic compositions of porphyry Cu mineralization‐related adakitic rocks in central‐eastern China: New insights into their petrogenesis and crust‐mantle interaction. Journal of Geophysical Research: Solid Earth, 2020, 125:e2020JB020474

【81】 Mao W., Zhong H., Yang J-H., Tang Y-W., Liu L., Fu Y-Z., Zhang X-C., Sein K., Aung S.M., Li J., Zhang L. Combined Zircon, Molybdenite, and Cassiterite Geochronology and Cassiterite Geochemistry of the Kuntabin Tin-Tungsten Deposit in Myanmar. Economic Geology, 2020,115(3): 603–625.

【82】 Li, J*., Fan, J-J., Sun, SL., Zhang, J., Li, HY. An investigation of Re and Os contamination by materials used in rock and mineral powdering. Geochemical Journal, 2020, 54:421-426.

【83】 Wang, ZB., Ma, JL., Li, J., Zeng, T., Zhang, ZY., He, XY., Zhang, L., Wei, GJ. Effect of Fe–Ti oxides on Mo isotopic variations in lateritic weathering profiles of basalt. Geochimica et Cosmochimica Acta, 2020, 286:380-403.

【84】 Fan, JJ., Li, J*., Wang, Q., Zhang, L., Zhang, J. Zeng, XL., Ma, L., Wang, ZL. High-precision molybdenum isotope analysis of low-Mo igneous rock samples by MC–ICP–MS. Chemical Geology, 2020, 54: 119648.

【85】 Qian, SP., Nichols, ARL., Zhang, L., Xu, YG., Li, J., Guo, YL., Ren, ZY. The mantle transition zone hosts the missing HIMU reservoir beneath eastern China. Geophysical Research Letters, 2020, 47(9), e2020GL087260.

【86】 Zhang, YY., Yuan, C., Sun, M., Li, J., Long, XP., Jiang, YD., Huang, ZY. Molybdenum and boron isotopic evidence for carbon-recycling via carbonate dissolution in subduction zones. Geochimica et Cosmochimica Acta, 2020, 278:340-352

【87】 Zhang, J., Li, J*., Zhang, L., Wang, ZB., Sun, SL., Luo, ZY. Precise determination of the molybdenum isotopic composition of urine by multiple collector inductively coupled plasma mass spectrometry. Rapid Communications in Mass Spectrometry, 2020, 34(7): e8658.

【88】 Yang, XX., Long, XP., Li, J., Dong, YP., Zhao, BS. Mo isotopic response to the end of Neoproterozoic Marinoan glaciation: Evidence from a sedimentary profile in South China. Precambian Research, 2020, 339:105609.

【89】 Zhang, Y., Tian, J., Hollings, P., Gong, L., Alburo, I., Berador, AE., Francisco, DG., Li, J., Chen, HY. Mesozoic porphyry Cu–Au mineralization and associated adakite-like magmatism in the Philippines: insights from the giant Atlas deposit. Mineralium Deposita,2020, 55: 881-900.

【90】 Ionov, D.A., Liu, Z., Li, J., Golovin, A.V., Korsakov, A.V., Xu, YG. The age and origin of cratonic lithospheric mantle:Archean dunites vs. Paleoproterozoic harzburgites fromthe Udachnaya kimberlite, Siberian craton. Geochimica et Cosmochimica Acta, 2020, 281:67-90.

【91】 Yan, HY., Long, XP., Li, J., Wang, Q., Wang, XC., Wu, B., Wang, JY., Gou, LL. Miocene adakites in south Tibet: Partial melting of the thickened Lhasa juvenile mafic lower crust with the involvement of ancient Indian continental crust compositions. GSA Bulletin, 2020,132 (5-6): 1273–1290.

2019年度

【92】 Wang, ZB., Li, J., Wei, GJ., Deng, WF., Chen, XF., Zeng, T., Wang, XJ., Ma, JL., Zhang, L., Tu, XL., Wang, Q., McCulloch, M. Biologically controlled Mo isotope fractionation in coral reef systems. Geochimica et Cosmochimica Acta, 2019, 262:128-142.

【93】 Li, J*., Yin, Lu. Rhenium-Osmium isotope measurements in marine shale reference material SBC-1: implications for method validation and quality control. Geostandards and Geoanalytical Research, 2019,43:497-507.

【94】 沈曉燕，李杰，許繼峰，孫勝玲。精確測(cè)定國家鉑族元素巖石標(biāo)樣GPt-3和GPt-4的鉑族元素和錸-鋨同位素組成。地球化學(xué)，2019，48（4）:395-402.

【95】 Liu, F., Li, X., An, YJ., Li, J., Zhang, ZF. Calcium Isotope Ratio (d44/40Ca) Measurements of Ca-Dominated Minerals and Rocks without Column Chemistry Using the Double-Spike Technique and Thermal Ionisation Mass Spectrometry. Geostandards and Geoanalytical Research, 2019,43:509-517.

【96】 Zhang, YY., Yuan, C., Sun, M., Chen, M., Hong, LB., Li, J., Long, XP., Li, PF., Lin, ZF. Recycled oceanic crust in the form of pyroxenite contributing to the Cenozoic continental basalts in central Asia: new perspectives from olivine chemistry and whole?rock B–Mo isotopes. Contributions to Mineralogy and Petrology, 2019, 174:83.

【97】 Li, HY., Li, J., Ryan, JG., Li, X., Zhao, RP., Ma, L., Xu, YG. Molybdenum and boron isotope evidence for fluid-fluxed melting of intraplate upper mantle beneath the eastern North China Craton. Earth and Planetary Science Letters, 2019 ,520: 105-114.

【98】 Yan, H., Long, X., Li, J., Wang, Q., Zhao, B., Shu, C., Gou, L., & Zuo, R. Arc andesitic rocks derived from partial melts of mélange diapir in subduction zones: Evidence from whole‐rock geochemistry and Sr‐Nd‐Mo isotopes of the Paleogene Linzizong volcanic succession insouthern Tibet. Journal of Geophysical Research: Solid Earth, 2019,124.

【99】 Dong, B., Long, X., Li, J., Yang, X., Zhao, B., Luo, J. Mo isotopic variations of a Cambrian sedimentary profile in the Huangling area, South China: Evidence for redox environmentcorresponding to the Cambrian Explosion. Gondwana Research, 2019, 69: 45-55.

2018年度

【100】 Yin, L., Li, J*.,Tian, H., Long, X.P. Rhenium–osmium and molybdenum isotope systematics of black shales from the Lower Cambrian Niutitang Formation, SW China: evidence of a well oxygenated ocean at ca. 520Ma. Chemical Geology, 2018. 499: 26-42.（*通訊作者）

【101】 李杰，張晶，尹露。地質(zhì)樣品的Re-Os同位素分析技術(shù)及存在的問題。礦物巖石地球化學(xué)通報(bào)，2018，37（2）：242-249.

【102】 趙冰爽，李杰*，龍曉平，袁超。東天山梅嶺銅礦黃鐵礦Re-Os等時(shí)線年齡：Os同位素不均一的結(jié)果。地球科學(xué)，2018，43（9）：2966-2979.

【103】 Ou, Q., Wang, Q., Wyman, D.A., Zhang, C.F., Hao, L.L., Dan, W., Jiang, Z.Q., Wu, F.Y., Yang, J.H., Zhang, H.X., Xia, X.P., Ma, L., Long, X.P., Li, J. Postcollisional delamination and partial melting of enriched lithospheric mantle: Evidence from Oligocene (ca. 30 Ma) potassium-rich lavas in the Gemuchaka area of the central Qiangtang Block, Tibet. Geological Society of America. 2018. 8, p448.

【104】 姚會(huì)強(qiáng)，張晶，李杰，何高文，任江波。富鈷鐵錳結(jié)殼年代學(xué)研究方法進(jìn)展。地球化學(xué)，2018，47（6）：627-635.

【105】 Li, S.-D., Wang, Z.-G., Wang, K.-Y., Cai, W.-Y., Peng, D.-W., Xiao, L., Li, J. Re–Os Pyrite Geochronological Evidence of Three Mineralization Styles within the Jinchang Gold Deposit, Yanji–Dongning Metallogenic Belt, Northeast China.?Minerals, 2018,?8, p 448-454.

【106】 Wu, T., Wang, X-C., Li, W-X., Wilde, S.A., Tian, L-Y., Pang, C-J., Li, J. The 825 Ma Yiyang high–MgO basalts of central South China: Insights from Os–Hf–Nd data. Chemical Geology, 2018. 502, p 107-121.

【107】 Sun, S.L., Li, J*., Zhang, L., Yin, L., Zhang, J. Simultaneous measurement of Re–Os and S isotopic compositions of sulfur-bearing minerals using a Carius tube digestion-based N-TIMS and MC-ICP-MS approach. Journal of Analytical Atomic Spectrometry, 2018. 33, p 1057-1067. （*通訊作者）

【108】 Zhang, L., Li, J*., Xu, Y.G., Ren, Z.Y. The influence of the double spike proportion effect on stable isotope (Zn, Mo, Cd, and Sn) measurements by multicollector-inductively coupled plasma-mass spectrometry (MC-ICP-MS). Journal of Analytical Atomic Spectrometry, 2018. 33, p 555-562. （*通訊作者）

【109】 Wang, Z.B., Ma, J.L., Li, J., Wei, G.J., Zeng, T., Li, L., Zhang, L., Deng, W.F., Xie, L.H., Liu, Z.F. Fe (hydro) oxide controls Mo isotope fractionation during the weathering of granite. Geochimica et Cosmochimica Acta, 2018, 226: 1–17.

2017年度

【110】 Huang, CC., Guo, HF., Li, J., Wang, Q., Zhang , CF., Wyman, D., Tang, GJ. Re-Os isotope geochronology of the Shangbao pyrite-flourite deposit in southeastern Hunan, South China: Evidence for multiple mineralization events and the role of crust-mantle interaction in polymetallic deposits. Solid Earth Sciences, 2017, 2: 109-122

【111】 Huang, F., Xu, J.F., Liu, Y.S., Li, J.,Chen, J.L., Li, X.Y. Re–Os isotope evidence from Mesozoic and Cenozoic basalts for secular evolution of the mantle beneath the North China Craton. Contrib Mineral Petrol 2017. 172:28.

【112】 Zhang, J., Li, J*., Long, X.P., Sun, S.L., Yin, L., Dai, M.N. Rhenium–osmium isotope measurements of geological reference material BIR–1a: Evaluation of homogeneity and implications for method validation and quality control. Geostandards and Geoanalytical Research, 2017,(41):649-658. （*通訊作者）

【113】 Yin, L., Li, J*., Liu, J.G., Li, C., Sun, S.L., Liang, H.Y., Xu, J.F. Precise and Accurate Re–Os Isotope Dating of Organic-rich Sedimentary Rocks by Thermal Ionization Mass Spectrometry with an Improved H2O2-HNO3 Digestion Procedure. International Journal of Mass Spectrometry, 2017. 421: 263-270.（*通訊作者）

2016年度

【114】 Zhao, P.P., Li, J*.,Zhang, L., Wang, Z.B., Kong, D.X., Ma, J.L., Wei, G.J., Xu,J.F., Molybdenum mass fractions and isotopic compositions of international geological reference materials. Geostandards and Geoanalytical Reseach, 2016.40(2): 217-226. （*通訊作者）

【115】 Hao, L.L., Wang, Q., Wyman.D.A., Ou,Q., Dan,W., Jiang,Z.Q., Wu,F.Y., Yang,J.H., Long,X.P., Li,J. Underplating of basaltic magmas and crustal growth in a continental arc: Evidence from Late Mesozoic intermediate-felsic intrusive rocks in southern Qiangtang, central Tibet. Lithos, 2016. 245:233-242.

【116】 張朋，李斌，李杰，柴鵬，王希今，沈德銘，時(shí)建民。遼東裂谷白云金礦載金黃鐵礦Re-Os定年及其地質(zhì)意義。大地構(gòu)造與成礦學(xué)，2016（40）：731-738.

【117】 Li, DF., Chen, HY., Hollings, P., Zhang, L., Mi,M., Li, J., Fang, J., Wang, CM., Lu,WJ. Re-Os pyrite geochronology of Zn-Pb mineralization in the giant Caixiashan deposit, NW China. Miner Deposita, 2016,51:309-317

2015年度

【118】 Li, J., Wang, X.C., Xu, J.F., Xu, Y.G., Tang, G.J. and Wang, Q. Disequilibrium-induced initial Os isotopic heterogeneity in gram aliquots of single basaltic rock powders: Implications for dating and source tracing. Chemical Geology, 2015. 406: 10-17.

【119】 Li, J., Zhao, P.P., Liu, J.G., Wang, X.C., Yang, Y., Wang, G.Q. and Xu, J.F. Reassessment of Hydrofluoric Acid Desilicification in the Carius Tube Digestion Technique for Re-Os Isotopic Determination in Geological Samples. Geostandards and Geoanalytical Research, 2015. 39(1): 17-30.

【120】 Sun, S.L. and Li, J*. Determination of Zr, Nb, Mo, Sn, Hf, Ta, and W in seawater by N-benzoyl-N-phenylhydroxylamine extraction chromatographic resin and inductively coupled plasma-mass spectrometry. Microchemical Journal, 2015. 119: 102-107. （*通訊作者）

【121】 Long,X.P., Wilde,S.A., Wang,Q., Yuan,C., Wang,X.C., Li, J., Jiang,Z.Q., Dan, W..Partial melting of thickened continental crust in central Tibet: Evidence from geochemistry and geochronology of Eocene adakitic rhyolites in the northern Qiangtang Terrane. Earth and Planetary Science Letters, 2015 414: 30-44.

【122】 Huang, F., Chen, J.L., Xu, J.F., Wang, B.D. and Li J. Os-Nd-Sr isotopes in Miocene ultrapotassic rocks of southern Tibet: Partial melting of a pyroxenite-bearing lithospheric mantle? Geochimica et Cosmochimica Acta, 2015. 163: 279-298.

【123】 Wang, Z.B., Ma, J.L., Li, J., Wei, G.J., Chen, X.F., Deng, W.F., Xie, L.H., Lu, W.J. and Zou, L. Chemical weathering controls on variations in the molybdenum isotopic composition of river water: Evidence from large rivers in China. Chemical Geology, 2015.410: 201-212.

【124】 Zhang, L., Ren, Z.Y., Xia, X..P, Li, J., Zhang. Z.F. IsotopeMaker: A Matlab program for isotopic data reduction. International Journal of Mass Spectrometry, 2015. 392: 118-124.

【125】 Niu,X.L., Yang,J.S., Dilek,Y., Xu,J.F., Li,J., Chen,S.Y.,Feng,G.Y.,Liu,F., Xiong,F.H., Liu.Z. Petrological and Os isotopic constraints on the origin of the Dongbo peridotite massif, Yarlung Zangbo Suture Zone, Western Tibet. Journal of Asian Earth Sciences, 2015. 110: 72-84.

【126】 Li, X.W., Li, J., Bader, T., Mo, X.X., Scheltens, M., Chen, Z.Y., Xu, J.F., Yu, X.H. and Huang, X.F. Evidence for crustal contamination in intra-continental OIB-like basalts from West Qinling, central China: A Re-Os perspective. Journal of Asian Earth Sciences, 2015. 98: 436-445.

2014年度

【127】 Li, J., Wang, X.C., Ren, Z.Y., Xu, J.F., He, B. and Xu, Y.G.. Chemical heterogeneity of the Emeishan mantle plume: Evidence from highly siderophile element abundances in picrites. Journal of Asian Earth Sciences, 2014. 79: 191-205.

【128】 Li, J., Jiang, X.Y., Xu, J.F., Zhong, L.F., Wang, X.C., Wang, G.Q. and Zhao, P.P. Determination of Platinum-Group Elements and Re-Os Isotopes using ID-ICP-MS and N-TIMS from a Single Digestion after Two-Stage Column Separation. Geostandards and Geoanalytical Research, 2014. 38(1): 37-50.

【129】 Li, J., Liang, X.R., Zhong, L.F., Wang, X.C., Ren, Z.Y., Sun, S.L., Zhang, Z.F. and Xu, J.F. Measurement of the Isotopic Composition of Molybdenum in Geological Samples by MC-ICP-MS using a Novel Chromatographic Extraction Technique. Geostandards and Geoanalytical Research, 2014. 38(3): 345-354.

【130】 Zhao, P.P., Li, J*., Zhong, L.F. and Xu, J.F. A method for determination of PGE–Re concentrations and Os isotopic compositions in environmental materials. Analytical Methods, 2014. 6: 5537-5545. （*通訊作者）

【131】 Wang, X. C*., Li, Z. X., Li, J., Pisarevsky, S.A. and Wingate M.T.D. Genesis of the 1.21 Ga Marnda Moorn large igneous province by plume-lithosphere interaction. Precambrian Research, 2014. 241: 85-103.

2013年度

【132】 Wang XC*, Li ZX, Li XH, Li J, Xu YG, Li XH. Identification of an ancient mantle reservoir and young recycled materials in the source region of a young mantle plume: Implications for potential linkages between plume and plate tectonics. Earth and Planetary Science Letters, 2013. 377: 248-259.

【133】 Zhong, L.F*., Li, J., Peng, T.P., Xia, B. and Liu, L.W. Zircon U-Pb geochronology and Sr-Nd-Hf isotopic compositions of the Yuanzhuding granitoid porphyry within the Shi-Hang Zone, South China: Petrogenesis and implications for Cu-Mo mineralization. Lithos, 2013.177: 402-415.

【134】 Yang, A.Y., Zhao, T.P*., Zhou,M.F., Deng, X.G., Wang, G.Q. and Li, J. Os isotopic compositions of MORBs from the ultra-slow spreading Southwest Indian Ridge: Constraints on the assimilation and fractional crystallization (AFC) processes. Lithos, 2013. 179: 28-35.

2012年度

【135】 Hong, L.B., Xu, Y.G*., Ren, Z.Y., Kuang, Y.S., Zhang, Y.L., Li, J., Wang, F.Y. and Zhang, H. Petrology, geochemistry and Re-Os isotopes of peridotite xenoliths from Yantai, Shandong Province: Evidence for Phanerozoic lithospheric mantle beneath eastern North China Craton. Lithos, 2012. 155: 256-271,

【136】 Zhong,L.F*., Li, J., Yan,W., Tu, X.L., Huang, W.X. and Zhang, X.H. Platinum-group and other traffic-related heavy metal contamination in road sediment, Guangzhou, China. J Soils Sediments, 2012.12: 942–951

【137】 Zhong, L.F*., Yan, W., Li, J., Tu, X.L; Liu, B.M. and Zhen, X. Pt and Pd in sediments from the Pearl River Estuary, South China: background levels, distribution, and source. Environ Sci Pollut Res Int, 2012.19(4): 1305-1314.

【138】 Yu,S.Y., Song,X.Y., Xu,Y.G*., Chen,L.M., Li, J. Effects of melt percolation on the Re-Os systematics of continental mantle lithosphere: A case study of spinel peridotite xenoliths from Heilongjiang, NE China. Sci China Earth Sci, 2012. 55(6): 949-965.

【139】 Wang X. C*., Li Z. X., Li X. H., Li J., Liu Y., Long W. G., Zhou J. B., Wang F. Temperature, Pressure, and Composition of the Mantle Source Region of Late Cenozoic Basalts in Hainan Island, SE Asia: a Consequence of a Young Thermal Mantle Plume close to Subduction Zones? Journal of Petrology, 2012. 53: 177-233.

【140】 Tang G-J., Wyman D. A., Wang Q*., Li J., Li Z. X., Zhao Z.H., Sun W. D. Asthenosphere-lithosphere interaction triggered by a slab window during ridge subduction: Trace element and Sr-Nd-Hf-Os isotopic evidence from Late Carboniferous tholeiites in the western Junggar area (NW China). Earth and Planetary Science Letters, 2012. 329: 84-96.

2012年度之前

【141】 Li J., Xu J.F*., Suzuki K., He B., Xu Y.G., Ren Z.Y. Os, Nd and Sr isotope and trace element geochemistry of the Muli picrites: Insights into the mantle source of the Emeishan Large Igneous Province. Lithos, 2010. 119: 108-122.

【142】 Li J*., Zhong L.F., Tu X.L., Liang X.R., Xu J.F. Determination of rhenium content in molybdenite by ICP-MS after separation of the major matrix by solvent extraction with N-benzoyl-N-phenylhydroxalamine. Talanta, 2010. 81: 954-958.

【143】 Li J., Liang X.R., Xu J.F*., Suzuki K., Dong Y.H. Simplified technique for the measurements of Re-Os isotope by multicollector inductively coupled plasma mass spectrometry (MC-ICP-MS). Geochemical Journal, 2010. 44: 73-80.

【144】 Shi R.D*., Griffin W,L., O'Reilly S.Y., Zhao G.C., Huang Q.S., Li J., Xu J.F. Evolution of the Lüliangshan garnet peridotites in the North Qaidam UHP belt, Northern Tibetan Plateau: Constraints from Re-Os isotopes. Lithos, 2010.117: 307-321.

【145】 Zhong L.F*., Liu L.W., Xia B., Li J., Lin, X.G. and Lin, L.Z. Re-Os Geochronology of Molybdenite from Yuanzhuding Porphyry Cu-Mo Deposit in South China. Resource Geology, 2010. 60: 389-396.

【146】 Chen J.L., Xu J.F*., Wang B.D., Kang Z.Q. Li J. Origin of Cenozoic alkaline potassic volcanic rocks at KonglongXiang, Lhasa terrane,Tibetan Plateau: Products of partial melting of a mafic lower-crustal source? Chemical Geology, 2010.273: 286-299.

【147】 Xu J.F*., Suzuki K*., Mei H.J., Xu Y.G., Li, J. Os, Pb, and Nd isotope geochemistry of the Permian Emeishan continental flood basalts: Insights into the source of a large igneous province. Geochim.Cosmochim.Acta, 2007. 71: 2104-2119.

【148】 李杰，梁細(xì)榮，董彥輝，涂湘林，許繼峰*。利用多接收器電感耦合等離子體質(zhì)譜法精確測(cè)定天然巖石樣品中的錸含量。質(zhì)譜學(xué)報(bào)，2008（29）：219-225.

【149】 李杰，梁細(xì)榮，董彥輝，涂湘林，許繼峰*。利用多接收器電感耦合等離子體質(zhì)譜儀(MC-ICPMS)測(cè)定鎂鐵-超鎂鐵質(zhì)巖石中的錸-鋨同位素組成。地球化學(xué)，2007（36）：153-160.

【150】 李杰，鐘立峰，崔學(xué)軍，許繼峰*，涂湘林，梁細(xì)榮。Carius管溶樣-標(biāo)準(zhǔn)加入電感耦合等離子體質(zhì)譜法測(cè)定土壤碘。巖礦測(cè)試，2006（25）：19-21.

【151】 李杰，鐘立峰，孫勝玲。一種BPHA萃淋樹脂及利用其分離與富集環(huán)境與地質(zhì)樣品中Mo的方法。國家發(fā)明專利。專利號(hào)：ZL2013 1 0278033.8. 專利申請(qǐng)日：2013年7月，授權(quán)日：2015年4月。

【152】 孫勝玲，李杰。一種PGE和Re的分離純化方法。國家發(fā)明專利。專利號(hào)：ZL2016 1 0687862.5 專利申請(qǐng)日：2016年8月，授權(quán)日：2019年7月。

【153】 李杰，孫勝玲，張晶。一種N-苯甲酰-N-苯基羥胺的純化方法。國家發(fā)明專利。專利號(hào)：ZL2019 1 0085460.1 專利申請(qǐng)日：2019年1月，授權(quán)日：2020年4月。

【154】 劉俊杰，李杰，賽彥明，盧遠(yuǎn)琪，何葉芝。一種分離原油瀝青質(zhì)次組分的方法。國家發(fā)明專利。專利號(hào)：ZL 2020 1 0460111.6。專利申請(qǐng)日：2020年5月，授權(quán)日：2021年4月。