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姓名：連萬里

職務：無

職稱：講師

電子郵箱：[email protected]

個人簡歷

連萬里，講師，博士，2024年12月畢業(yè)于中國農(nóng)業(yè)科學院農(nóng)業(yè)農(nóng)村部環(huán)境保護科研監(jiān)測所，2025年1月進入河南師范大學環(huán)境學院工作。近年來，參與國家自然科學基金面上項目、國家重點研發(fā)項目多項，在Environmental Science & Technology、Waste Management、Bioresoure Technology等學術期刊發(fā)表學術論文多篇。

教育/工作經(jīng)歷

2025.01-至今    河南師范大學環(huán)境學院 講師

2021.09-2024.12   中國農(nóng)業(yè)科學院天津環(huán)保所 博士

2018.09-2021.07   南京農(nóng)業(yè)大學資源與環(huán)境科學學院 碩士

2014.09-2018.07   華南農(nóng)業(yè)大學資源環(huán)境學院 學士

研究領域

擅長方向：土壤膠體界面化學、土壤重金屬化學形態(tài)模型、環(huán)境量子化學計算、礦物-有機質(zhì)互作、農(nóng)業(yè)環(huán)境與生物質(zhì)炭、土壤健康評價。

感興趣的方向：碳中和、大氣邊界層物理。

科研項目情況

[1] 國家自然科學基金面上項目：磷酸根對鎘、鉛在土壤微界面固定的影響機制及模型建立（42377035）2024.01-2028.12，參與

[2] 國家自然科學基金面上項目：多源胡敏酸驅(qū)動水鐵礦膠體-砷共遷移的分子構(gòu)象與電位調(diào)控機制（42377409）2024.01-2028.12，參與

[3] “十四五”國家重點研發(fā)項目：《華南強酸性耕地土壤改良與提質(zhì)增效技術模式與應用子課題》（2023YFD1901300）2023.01-2027.12，參與

[4] “十三五”國家重點研發(fā)項目：《生物炭基肥料技術研發(fā)與產(chǎn)業(yè)化示范子課題》（2017YFD0200802）2017.01-2021.12，參與

[5] 國家自然科學基金面上項目：生物質(zhì)炭表面有機無機“覆蓋層”化學組分特征及其生物活性意義研究（41877096）2019.01-2022.12，參與

代表性論文

[1] Lian, W., Yu, G., Ma, J., Xiong, J., Niu, C., Zhang, R., Xie, H., Weng, L.*, 2024. Quantitative insights into phosphate-enhanced lead immobilization on goethite. Environmental Science & Technology 58, 11748–11759. https://doi.org/10.1021/acs.est.4c03927.

[2] Lian, W., Shi, W., Tian, S., Gong, X., Yu, Q., Lu, H., Liu, Z., Zheng, J., Wang, Y., Bian, R.*, Li, L., Pan, G., 2023. Preparation and application of biochar from co-pyrolysis of different feedstocks for immobilization of heavy metals in contaminated soil. Waste Management 163, 12–21. https://doi.org/10.1016/j.wasman.2023.03.022.

[3] Lian, W., Yang, L., Joseph, S., Shi, W., Bian, R.*, Zheng, J., Li, L., Shan, S., Pan, G., 2020. Utilization of biochar produced from invasive plant species to efficiently adsorb Cd (II) and Pb (II). Bioresoure Technology 317, 124011. https://doi.org/10.1016/j.biortech.2020.124011.

[4] Ma, J.*, Zhou, P.*, Liu, Y., Lian, W., Feng, B., Li, L., Zhao, Y., Weng, L., Lei, G., Li, H., 2025. Humic acid with vertical adsorption conformation enhanced the transport of petroleum hydrocarbon-contaminated colloids. Environmental Science & Technology 59, 4092–4103.  https://doi.org/10.1021/acs.est.4c11233.

[5] Gong, X.¹, Lian, W.¹, Tian, S., Yu, Q., Guo, Z., Zhang, X., Yuan, Y., Fan, Y., Liu, Z., Zheng, J., Bian, R.*, Li, L., Pan, G., 2024. Utilizing ragweed and oyster shell derived biochar as an effective stabilizer for the restoring Cd and Pb- contaminated soil. Geoderma Regional 37, e00816. https://doi.org/10.1016/j.geodrs.2024.e00816.

[6] Lian, W., Li, H., Yang, J., Joseph, S., Bian, R.*, Liu, X., Zheng, J., Drosos, M., Zhang, X., Li, L., Shan, S., Pan, G., 2021. Influence of pyrolysis temperature on the cadmium and lead removal behavior of biochar derived from oyster shell waste. Bioresoure Technology Reports 15, 100709. https://doi.org/10.1016/j.biteb.2021.100709.

[7] Niu, C., Weng, L.*, Lian, W., Zhang, R., Ma, J., Chen, Y., 2023. Carbon sequestration in paddy soils: contribution and mechanisms of mineral-associated SOC formation. Chemosphere 333, 138927. https://doi.org/10.1016/j.chemosphere.2023.138927.

[8] Shi, W., Bian, R.*, Li, L., Lian, W., Liu, X., Zheng, J., Cheng, K., Zhang, X., Drosos, M., Joseph, S., Pan, G., 2022. Assessing the impacts of biochar-blended urea on nitrogen use efficiency and soil retention in wheat production. GCB Bioenergy, 14, 65–83. https://doi.org/10.1111/gcbb.12904.

[9] Shi, W., Lian, W., Tian, S., Gong, X., Yu, Q., Guo, Z., Zhang, X., Ma, B., Bian, R.*, Zheng, J., Cheng, K., Pan, G., 2023. A review of agronomic and environmental properties of inorganic compounds in biochars. Current Research in Environmental Sustainability 5, 100226. https://doi.org/10.1016/j.crsust.2023.100226.