教育及工作经历
2024年1月至今,西南大学BOB·体育综合APP下载,教授;
2022年1月至2024年1月,威斯康星大学-麦迪逊分校,土木与环境工程学院,副研究员;
2020年3月至2022年1月,魏茨曼科学研究所,植物和环境科学系,博士后;
2019年10月至2020年3月,本古里安大学,海水淡化及水处理学系,访问学者;
2015年9月至2020年6月,华中农业大学,资源与环境学院,博士
2011年9月至2015年6月,华中农业大学,资源与环境学院,学士
主持科研项目
1. 国家自然科学基金面上项目“土壤根际细胞-水界面磷转化动力学”课题(项目批准号:41977079),61万,参与
2. 人才引进启动项目,100万,主持
代表性学术成果
2024年
1. Zhai, H.; Chen, Q.; Duan, Y.; Liu, B.; Wang, B Silica Polymerization Driving Opposite Effects of pH on Aqueous Carbonation Using Crystalline and Amorphous Calcium Silicates. Inorganic Chemistry, accepted.
2. Chen, Q.; Zhai, H.; Beebe, D. J.; Li, C.; Wang, B. Visualization-enhanced under-oil open microfluidic system for in situ characterization of multi-phase chemical reactions. Nature Communications, 2024, 15(1), 1155.
3. Zheng, X.; Ji, L.; Liu, M.; Zhai, H.; Li, K.; He, Q.; Yan, S. Bioinspired controllable CaCO3 synthesis from solid waste by an “all in one” amino acid-in strategy: Implication for CO2 mineralization. Chemical Engineering Journal, 2024, 480, 148037.
4. Chi, J.; Ou, Y.; Li, F.; Zhang, W.; Zhai, H.; Liu, T.; Chen, Q.; Zhou, X.; Fang, L. Cooperative roles of phosphate and dissolved organic matter in inhibiting ferrihydrite transformation and their distinct fates. Science of The Total Environment, 2024, 908, 168376.
5. Ge, X.; Fan, Y.; Zhai, H.; Chi, J.; Putnis, C. V.; Wang, L.; Zhang, W. Direct observations of nanoscale brushite dissolution by the concentration-dependent adsorption of phosphate or phytate. Water Research, 2024, 248, 120851.
2023年
1. Zhai, H.; Chen, Q.; Yilmaz, M.; Wang, B. Enhancing Aqueous Carbonation of Calcium Silicate through Acid and Base Pretreatments with Implications for Efficient Carbon Mineralization. Environmental Science & Technology, 2023, 57(37), 13808-13817.
2. Zhai, H.; Fan, Y.; Zhang, W.; Varsano, N.; Gal, A. Polymer-Rich Dense Phase Can Concentrate Metastable Silica Precursors and Regulate Their Mineralization. ACS biomaterials science & engineering, 2023, 9(2), 601-607.
2022年
1. Ragipani, R.; Sreenivasan, K.; Anex, R. P.; Zhai, H.; Wang, B. Direct air capture and sequestration of CO2 by accelerated indirect aqueous mineral carbonation under ambient conditions. ACS Sustainable Chemistry & Engineering, 2022, 10(24), 7852-7861.
2. Zhai, H.; Bendikov, T.; Gal, A. Phase separation of oppositely charged polymers regulates bioinspired silicification. Angewandte Chemie International Edition, 2022, 61(17), e202115930.
2021年
3. Zhai, H.; Zhang, W.; Wang, L.; Putnis, C. V. Dynamic force spectroscopy for quantifying single-molecule organo–mineral interactions. CrystEngComm, 2021, 23(1), 11-23.
2020年
1. Zhai, H.; Bernstein, R.; Nir, O.; Wang, L. Molecular insight into the interfacial chemical functionalities regulating heterogeneous calcium-arsenate nucleation. Journal of colloid and interface science, 2020, 575, 464-471.
2. Zhai, H.; Wang, L. Single-molecule determination of the phase-and facet-dependent adsorption of alginate on iron oxides. Environmental Science: Nano, 2020, 7(3), 954-962.
2019年
1. Zhai, H.; Wang, L.; Putnis, C. V. Molecular-scale investigations reveal noncovalent bonding underlying the adsorption of environmental DNA on mica. Environmental science & technology, 2019, 53(19), 11251-11259.
2. Zhai, H.; Wang, L.; Putnis, C. V. Inhibition of spiral growth and dissolution at the brushite (010) interface by chondroitin 4-sulfate. The Journal of Physical Chemistry B, 2019, 123(4), 845-851.
3. Zhai, H.; Wang, L.; Hӧvelmann, J.; Qin, L.; Zhang, W.; Putnis, C. V. Humic acids limit the precipitation of cadmium and arsenate at the brushite-fluid interface. Environmental science & technology, 2019, 53(1), 194-202.
2018年
1. Zhai, H.; Qin, L.; Zhang, W.; Putnis, C. V.; Wang, L. Dynamics and molecular mechanism of phosphate binding to a biomimetic hexapeptide. Environmental science & technology, 2018, 52(18), 10472-10479.
2. Zhai, H.; Wang, L.; Qin, L.; Zhang, W.; Putnis, C. V.; Putnis, A. Direct observation of simultaneous immobilization of cadmium and arsenate at the brushite–fluid interface. Environmental science & technology, 2018, 52(6), 3493-3502.