教学科研成果
获奖情况:
(1) 国家级青年人才项目
(2) MIT TR35亚太区奖
(3) 2024中国新锐科技人物杰出成就奖
(4) 美国吉尔布雷斯学者基金
发明专利:
(1)Zhang, H.-T., et al. Ultralow concentration sensing of bio-matter with perovskite nickelate devices and arrays, US.
(2)Zhang, H.-T., et al. Reconfigurable electronic devices and methods, US.
(3)张海天等,基于自敏化神经元材料特性的边缘检测方法及装置,中国。
(4)张海天等,自适应敏化人工神经元及其制备方法和应用,中国。
(5)张海天等,自适应敏化脉冲模型构造方法、装置、设备及存储介质,中国。
代表性论文:
Matter (2024), Advanced Science (2023), Nano Letters (2022)等,详情请查阅Google Scholar。
1. Zhang, H.-T., Park, T.J., M Nafiul Islam, A. N., J Tran, D. S., Manna, S., Wang, Q., Mondal, S., Yu, H., Banik, S., Cheng, S., Zhou, H., Gamage, S., Mahapatra, S., Zhu, Y., Abate, Y., Jiang, N., Sankaranarayanan, S. K. R. S., Sengupta, A., Teuscher, C., Ramanathan, S. Reconfigurable perovskite nickelate electronics for artificial intelligence. Science, 375(6580), 533-539 (2022).
2. Zhang, H.-T., Park, T. J., Zaluzhnyy, I. A., Wang, Q., Wadekar, S. N., Manna, S., Andrawis, R., Sprau, P. O., Sun, Y., Zhang, Z., Huang, C., Zhou, H., Zhang, Z., Narayanan, B., Srinivasan, G., Hua, N., Nazaretski, E., Huang, X., Yan, H., Ramanathan, S. Perovskite neural trees. Nature Communications, 11(1), 2245 (2020).
3. Zhang, H.-T., Zuo, F., Li, F., Chan, H., Wu, Q., Zhang, Z., Narayanan, B., Ramadoss, K., Chakraborty, I., Saha, G., Kamath, G., Roy, K., Zhou, H., Chubykin, A. A., Sankaranarayanan, S. K. R. S., Choi, J. H., Ramanathan, S. Perovskite nickelates as bio-electronic interfaces. Nature Communications, 10, 1651 (2019).
4. Zhang, H.-T., Zhang, L., Mukherjee, D., Zheng, Y.-X., Haislmaier, R. C., Alem, N., Engel-Herbert, R. Wafer-scale growth of VO2 thin films using a combinatorial approach. Nature Communications, 6, 8475 (2015).
5. Zhang, H.-T., Guo, L., Stone, G., Zhang, L., Zheng, Y.-X., Freeman, E., Keefer, D. W., Chaudhuri, S., Paik, H., Moyer, J. A., Barth, M., Schlom, D. G., Badding, J. v, Datta, S., Gopalan, V., Engel-Herbert, R. Imprinting of Local Metallic States into VO2 with Ultraviolet Light. Advanced Functional Materials, 26(36), 6612–6618 (2016).
6. Lou, L., Li, Y., Li, X., Li, H., Li, W., Hua, Y., Xia, W., Zhao, Z., Zhang, H.-T., Yue, M., Zhang, X. Directional Magnetization Reversal Enables Ultrahigh Energy Density in Gradient Nanostructures. Advanced Materials, 33(36), 2102800 (2021).
7. Li, X., Lou, L., Song, W., Huang, G., Hou, F., Zhang, Q., Zhang, H.-T., Xiao, J., Wen, B., Zhang, X. Novel Bimorphological Anisotropic Bulk Nanocomposite Materials with High Energy Products. Advanced Materials, 29(16), 1606430 (2017).
8. Li, X., Lou, L., Song, W., Zhang, Q., Huang, G., Hua, Y., Zhang, H.-T., Xiao, J., Wen, B., Zhang, X. Controllably Manipulating Three-Dimensional Hybrid Nanostructures for Bulk Nanocomposites with Large Energy Products. Nano Letters, 17(5), 2985–2993 (2017).