一、基本信息

民族: 漢族

學位: 博士

職稱: 副教授

開設課程：土壤資源調查與評價

主要研究方向：土壤礦物-有機質相互作用機理及環境效應，土壤化學平衡與動力學模型

碩士研究生招生方向：土壤學、植物營養學、環境科學、資源利用與植物保護

二、聯系方式

E-mail: pwang@hainanu.edu.cn

三、教育經曆

2008.09 - 2012.06：365英国上市官网在线，環境科學專業，學士

2012.09 - 2015.06：昆明理工大學，環境科學專業，碩士

2016.09 - 2020.06：華南理工大學，環境科學與工程專業，博士

四、科研與學術工作經曆

2020.06 - 2022.06：廣東省科學院生态環境與土壤研究所，博士後

2022.06 - 至今：365英国上市官网在线熱帶作物學院，副教授

五、科研項目

1. 365英国上市官网在线科研啟動基金，2022 - 2027，10萬元，主持；

2. 國家自然科學基金青年項目，42107338，“稻田溶解性有機質動态變化及對其镉結合特性影響的分子機制”，2022.01 - 2024.12，30萬元，在研，主持；

3. 廣東省科學院專項，2021GDASYL-20210103044，“鐵礦物吸附分餾對溶解性有機質（DOM）分子組成及其重金屬反應特性的影響及預測模型”，2021.01 - 2022.12，54萬元，在研，主持。

六、代表性成果

(1) Xuxin Song^#, Pei Wang^#, Lukas Van Zwieten, Nanthi Bolan, Hailong Wang, Xiaomin Li, Kuan Cheng, Yang Yang, Milan Wang, Tongxu Liu*, Fangbai Li. Towards a better understanding of the role of Fe cycling in soil for carbon stabilization and degradation. Carbon Research. 2022, 1: 5.

(2) Wang P., Ding Y., Liang Y., Liu M., Lin X., Ye Q., Shi Z.* Linking molecular composition to proton and copper binding ability of fulvic acid: A theoretical modeling approach based on FT-ICR-MS analysis. Geochimica et Cosmochimica Acta. 2021, 312: 279-298.

(3) Wang P., Lu Y., Hu S., Tian L., Liang Y., Shi Z.* Kinetics of Ni reaction with organic matter-ferrihydrite composites: Experiments and modeling. Chemical Engineering Journal. 2020. 379: 122306.

(4) Wang P., Ding Y., Liu M., Liang Y., Shi Z.* Modeling kinetics of Ni dissociation from humic substances based on WHAM 7. Chemosphere. 2019. 221: 254-262.

(5) Hu S., Li H., Wang P., Liu C., Shi Z., Li F., Liu T.*. Interfacial photoreactions of Cr(VI) and 1 oxalate on lepidocrocite surface under oxic and acidic conditions: Reaction mechanism and potential implications for contaminant degradation in surface waters. Chemical Geology. 2021, 583: 120481.

(6) Yang Y.^#, Yuan X.^#, Chi W., Wang P., Hu S., Li F., Li X., Liu T.*, Sun Y., Qin H. Modelling evaluation of key cadmium transformation in acid paddy soil under alternating redox conditions. Chemical Geology. 2021, 581: 120409.

(7) Liu P., Wang P., Lu Y., Ding Y., Lu G., Dang Z., Shi Z*. Modeling kinetics of heavy metal release from field-contaminated soils: Roles of soil adsorbents and binding sites. Chemical Geology. 2019. 506: 187-196.

(8) Liang Y., Ding Y., Wang P., Lu G., Dang Z., Shi Z.* Molecular characteristics, proton dissociation properties, and metal binding properties of soil organic matter: A theoretical study. Science of the Total Environment. 2019. 656: 521-530.

(9) Feng X., Wang P., Shi Z.*, Kwon K. D., Zhao H., Yin H., Lin Z., Zhu M., Liang X., Liu F., Sparks D. L. A Quantitative Model for the Coupled Kinetics of Arsenic Adsorption/Desorption and Oxidation on Manganese Oxides. Environmental Science & Technology Letters. 2018. 5(3): 175-180.

(10) Peng L., Shi Z.*, Wang P., Li W., Lin Z., Dang Z., Sparks D. L. A novel multi-reaction model for kinetics of Zn release from soils: Roles of soil binding sites. Journal of Colloid and Interface Science. 2017. 514: 146-155.

(11) Shi Z.*, Wang P., Peng L., Lin Z., Dang Z. Kinetics of Heavy Metal Dissociation from Natural Organic Matter: Roles of the Carboxylic and Phenolic Sites. Environmental Science & Technology. 2016. 50(19): 10476-10484.