1.Sun, G.Y., Feng, X.B., Yin, R.S., et al. Dissociation of Mercuric Oxides Drives Anomalous Isotope Fractionation during Net Photo-oxidation of Mercury Vapor in Air. Environmental Science & Technology 2022, 56(18), 13428-13438.
2.Yang, C.M., Wu, Y.J., Zhang, L.M., Sun, G.Y. *, et al. Spatiotemporal Distributions and Source Apportionment of PM2.5-Bound Antimony in Beijing, China. JGR-Atmospheres 2022, DOI:10.1029/2021JD036401.
3.Zhang, C., Sun, G.Y. *, Li, X.Y., et al. Sampling and determination of antimony isotopes in airborne particles: an assessment of membrane filter materials. J. Anal. At. Spectrom 2022, 37, 2713-2720.
4.Li, Z.G., Huang, Y. M., Liu, J.L., Sun, G.Y.*, et al. Mass flow, enrichment and potential environmental impacts of mercury in a preheater-precalciner cement plant using multiple mining and industrial wastes. Journal of Environmental Management 2022, 311, 114819.
5.Wang, Q.F., Wang, D., Li, Z.G., Wang, Y. Y., Yang, Y., Liu, M.X., Li, D. D., Sun, G. Y. *, Zeng, B.Q. Concentrations, leachability, and health risks of mercury in green tea from major production areas in China. Ecotoxicology and Environmental Safety, 2022, 232, 113279.
6.Sun, G.Y., Wu, Y.J., Feng, X.B., et al. Precise analysis of antimony isotopic composition in geochemical materials by MC-ICP-MS. Chemical Geology 2021, 582, 120459.
7.Zhang, W., Sun, G.Y., Yin, R.S., et al. Separation of methylmercury from biological samples for stable isotopic analysis. J. Anal. At. Spectrom 2021, 36, 2415.
8.Zhao, H.F., Sun, G.Y., Li, Z.G., et al. Total mercury and mercury isotope signatures in reservoir sediment reflecting the landscape changes and agricultural activities in northeast China. Catena 2021, 197, 104983.
9.Jiang, J.L., Wu, Y.J., Sun, G.Y. *, et al. Characteristics, Accumulation, and Potential Health Risks of Antimony in Atmospheric Particulate Matter. ACS Omega 2021, 6, 9460?9470. (通讯作者)
Yang, C.M., Yao, H., Wu, Y.J., Sun, G.Y.*, Yang, W., Li, Z.G., Shang, L.H. Status and risks of selenium deficiency in a traditional selenium-deficient area in Northeast China. Science of the Total Environment 2021, 762, 144103. (通讯作者)
10.Deng, C.Z., Sun, G.Y., Rong, Y.M., et al. Recycling of mercury from the atmosphere-ocean system into volcanic-arc associated epithermal gold systems. Geology 2021, 49 (3): 309–313.
11.Sun, R.Y., Sun, G.Y., Kwon, S.Y., et al. Mercury biogeochemistry over the Tibetan Plateau: An overview. Critical Reviews in Environmental Science and Technology, DOI:10.1080/10643389.2020.1733894.
12.Sun, G.Y., Feng, X.B., Yang, C.M., Zhang, L.M., Yin, R.S., Li, Z.G., Bi, X.Y., Wu, Y.J. Levels, sources, isotope signatures, and health risks of mercury in street dust across China. Journal of Hazardous Materials 2020, 392, 122276.
13.Bi, X.Y., Zhang, M.H., Wu, Y.J., Fu, Z.B., Sun, G.Y. *, et al. Distribution patterns and sources of heavy metals in soils from an industry undeveloped city in Southern China. Ecotoxicology and Environmental Safety 2020, 205, 11115.
14.Sun, G.Y., Feng, X.B., Yin, R.S., Zhao, H.F., Zhang, L.M., Sommar, J., Li, Z.G., Zhang, H. Corn (Zea mays L.): A low methylmercury staple cereal source and an important biospheric sink of atmospheric mercury, and health risk assessment. Environment International 2019, 131, 104971.
15.Sun, G.Y., Sommar, J., Feng, X.B., Lin, J., Ge, M.F., Wang, W.G., Yin, R.S., Fu, X.W., Shang, L.H. Mass-dependent and independent fractionation of mercury isotope during gass-phase oxidation of elementl mercury vapour by atomic Cl and Br. Environmental Science & Technology 2016, 50, 9232-9241.)
16.Sun, G.Y., Li, Z.G., Liu, T., Chen, J., Wu, T.T., Feng, X.B. Rare earth elements in street dust and associated health risk in a municipal industrial base of central China. Environmental Geochemistry and Health 2017, DOI 10.1007/s10653-017-9982-x.
17.Sun, G.Y., Li, Z.G., Liu, T., Chen, J., Wu, T.T., Feng, X.B. Metal exposure and associated health risk to human beings by street dust in a heavily industrialized city of Hunan Province, Central China. International Journal of Environmental Research and Public Health 2017, 14, 261-272.
18.Sun, G.Y., Sommar, J., Feng, X.B., Lin, J., Ge, M.F., Wang, W.G., Yin, R.S., Fu, X.W., Shang, L.H. Mass-dependent and independent fractionation of mercury isotope during gass-phase oxidation of elementl mercury vapour by atomic Cl and Br. Environmental Science & Technology 2016, 50, 9232-9241.
19.Yin, R.S., Zhang, W., Sun, G.Y., Feng,Z.H., et al. Mercury risk in poultry in the Wanshan mercury mine, China. Environmental Pollution 2017, 230, 810-816.
20.Wu, T.T., Bi, X.Y., Li, Z.G., Sun, G.Y., Feng, X.B., et al. Contaminations, sources and health risks of trace metal(loid)s in street dust of a small city impacted by artisanal Zn smelting activities. International Journal of Environmental Research and Public Health 2017, 14, 961-980.
21.Sun, G.Y., Feng, X.B., Sommar, J., Lin, J., Ge, M.F., Wang, W.G. Isotopic fractionation of mercury through Cl and Br atom initiated oxidation of Hg0 in the gas phase. 12th International Conference of Mercury as a Global Pollutant, June 14-19,2015, Jeju, South Korea, Oral Presentation.
22.Bi, X.Y., Li, Z.G., Sun, G.Y., Liu, J.L., Han, Z.X. In vitro bioaccessibility of lead in surface dust and implications for human exposure: A comparative study between industrial area and urban district. Journal of Hazardous Materials, 2015, 297: 191-197.
23.Sun, G.Y., Li, Z.G., Bi, X.Y., Chen, Y.P., Lu, S.F., Yuan, X. Distribution, sources and health risk assessment of mercury in kindergarten dust. Atmospheric Environment, 2013, 73: 169-176.
24.Sun, G.Y*., Chen, Y.P., Bi, X.Y., et al. Geochemical assessment of agricultural soil: A case study in Songnen-Plain (Northeastern China). Catena, 2013, 111: 56-63. (通讯作者)
25.Zhu, Z.M., Sun, G.Y., Bi, X.Y., Li, Z.G., Yu, G.H. Identification of trace metal pollution in urban dust from kindergartens using magnetic, geochemical and lead isotopic analyses. Atmospheric Environment, 2013, 79: 540-45.
26.Li, Z.G., Feng, X.B., Li, G.H., Bi, X.Y., Sun, G.Y., Zhu, J.M., Qin, H.B. Mercury and other metal and metalloid soil contamination near a Pb/Zn smelter in east Hunan province, China. Applied Geochemistry, 2011, 26: 160-166.
27.Li, Z.G., Feng, X.B., Li, G.H., Bi, X.Y., Zhu, J.M., Qin, H.B., Dai, Z.H., Liu, J.L., Li, Q.H., Sun, G.Y. Distributions, sources and pollution status of 17 trace metal/metalloids in the street dust of a heavily industrialized city of central China. Environmental Pollution, 2013, 182: 408-416.
28.Li, Z.G., Feng, X.B., Bi, X.Y., Li, G.H., Lin, Y., Sun, G.Y. Probing the distribution and contamination levels of 10 trace metal/metalloids in soils near a Pb/Zn smelter in Middle China. Environmental Science and Pollution Research, 2014, 21: 4149-4162.
29.Li, Z.G., Feng, B.X., Bi, X.Y., Sun, G.Y., Zhu, J.M., Qin, H.B., Shang, L.H., Meng, B. Heavy Metals in the Ground Surface Dust and Agricultural Soil in Artisanal and Medium-scale Zinc Smelting Area in Northwest Guizhou Province, China. PROCEEDINGS OF THE 16TH INTERNATIONAL CONFERENCE ON HEAVY METALS IN THE ENVIRONMENT, E3S Web of Conferences, 2013.
30.张立,杨晨梦,孙广义*,毛龙,刘立芬,崔玉军. 黑龙江绥化大宗农作物硒含量特征及影响因素分析. 地球与环境, 2021,49(5), 510-519.
31.孙广义,闭向阳,李仲根,陈瑜鹏. 武汉市幼儿园降尘Pb污染特征及其生物有效性. 环境科学,2011, 32 (11): 3305-3311.
邓昌州,孙广义*,杨文,李冶平,张立东,丁继双,付安宗. 黑龙江甘南县大气降尘重金属元素沉降通量及来源分析. 地球与环境,2012, 40 (3): 342-348.
