王灏珉

职称:副教授

主要研究方向:1、多层级结构碳材料的可控生长制备及其柔性传感器的组装制备;2、烯碳可打印生物基绿色电子浆料或墨水的调配和制备及其柔性电子打印技术;3、柔性电子器件在检测人体运动物理信号和生理电信号等可穿戴健康监测和疾病预防领域的应用

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基本信息:王灏珉,男,1995年01月生,山西左权人,理学博士,副教授。

研究方向:

(1)多层级结构碳材料的可控生长制备及其柔性传感器的组装制备。

(2)烯碳可打印生物基绿色电子浆料或墨水的调配和制备及其柔性电子打印技术。

(3)柔性电子器件在检测人体运动物理信号和生理电信号等可穿戴健康监测和疾病预防领域的应用。

个人简历:2023年博士毕业于清华大学,主要围绕纳米碳材料和生物质材料可控合成方法和结构-性能的依赖关系开展研究,并进一步探索其作为可穿戴柔性电子器件在人体健康管理和人机交互等领域的应用。

荣誉获奖:

1. 清华大学研究生综合优秀一等奖学金(2020)

2. 清华大学冰城英才奖学金(2021)

3. 清华大学化学系米开罗那奖学金(2022)

4. 清华大学毕业生启航奖铜奖(2023)

科研项目及科研成果:

主持课题:太原理工大学“清北专项人才引进”科研启动经费,主持。

申请专利:

1. 张莹莹; 王灏珉 负载有碳纳米管的碳化织物及其气流传感器的制备方法,中国,CN109322147B.(中国专利授权号)

2. 何茂帅; 王灏珉; 张如良; 刘蕾;单壁碳纳米管在水溶剂中均匀分散的方法,中国,CN106517152B. (中国专利授权号)

发表论文:

1. H. M. Wang, S. Li, Y. L. Wang, H. M. Wang, X. Y. Shen, M. C. Zhang, H. J. Lu, M. S. He*, Y. Y. Zhang*. Bioinspired Fluffy Fabric with in situ Grown Carbon Nanotubes for Ultrasensitive Wearable Airflow Sensor. Advanced Materials 2020, 32, 1908214. (IF=29.4) ESI高被引论文

2. H. M. Wang, M. Q. Jian, S. Li, X. P. Liang, H. J. Lu, K. L. Xia, M. J. Zhu, Y. Wu, Y. Y. Zhang*. Inter-Shell Sliding in Individual Few-Walled Carbon Nanotubes for Flexible Electronics. Advanced Materials 2023, 35, 2306144. (IF=29.4)

3. H. M. Wang. M. S. He*, Y. Y. Zhang*. Carbon Nanotube Films: Preparation and Application in Flexible Electronics., et al. Acta Physico-Chimica Sinica 2019, 35, 1207. (IF=10.9)

4. H. M. Wang, H. M. Wang, S. C. Zhang, Y. Zhang, K. L. Xia, Z. Yin, M. C. Wang, X. P. Liang, H. J. Lu, S. Li, J. Zhang, Y. Y. Zhang*. Carbothermal Shock Enabled Facile and Fast Growth of Carbon Nanotubes in a Second. Nano Research 2022, 15, 2576. (IF=9.9)

5. H. M. Wang, S. Li, H. J. Lu, M. J. Zhu, H. R. Liang, X. E. Wu, Y. Y. Zhang*. Carbon-Based Flexible Devices for Comprehensive Health Monitoring. Small Methods 2023, 7, 202201340. (IF=12.4) ESI高被引论文

6. S. Li, H. M. Wang, W. Ma, L. Qiu, K. L. Xia, Y. Zhang, H. J. Lu, M.J. Zhu, X. P. Liang, X. E. Wu, H. R. Liang, Y. Y. Zhang*. Monitoring Blood Pressure and Cardiac Function without Positioning via a Deep Learning–Assisted Strain Sensor Array. Science Advances 2023, 9, eadh0615. (IF=13.6)

7. H. M. Wang, H. M. Wang, Y. L. Wang, X. Y. Su, C. Y. Wang, M. C. Zhang, M. Q. Jian, K. L. Xia, X. P. Liang, H. J. Lu, S. Li, Y. Y. Zhang*. Laser-Writing of Janus Graphene/Kevlar Textile for Intelligent Protective Clothing. ACS Nano 2020, 14, 3, 3219-3226. (IF=17.1)

8. S. Wang, S. Li, H. M. Wang, H. J. Lu, M. J. Zhu, X. E. Wu, H. R. Liang, X. P. Liang, Y. Y. Zhang*. Highly Adhesive Epidermal Sensors with Superior Water-Interference-Resistance for Aquatic Applications. Advanced Functional Materials 2023, 33(41), 2302687. (IF=19.0)

9. S. Li, Y. Zhang, X. P. Liang, H. M. Wang, H. J. Lu, M. J. Zhu, H. M. Wang, X. P. Qiu, Y. F. Song, Y. Y. Zhang*. Humidity-Sensitive Chemoelectric Flexible Sensors Based on Metal-Air Redox Reaction for Health Management. Nature Communication 2022, 13, 5416. (IF=16.6)

10. K. L. Xia, W. Q. Wu, M. J. Zhu, X. Y. Shen, Z. Yin, H. M. Wang, S. Li, M. C. Zhang, H. M. Wang, H. J. Lu, A. L. Pan*, C. F. Pan*, Y. Y. Zhang*. CVD Growth of Perovskite/Graphene Films for High-Performance Flexible Image Sensor. Science Bulletin 2020, 65, 5, 343-349. (IF=18.9)

11. X. P. Liang, A. R. Fan, Z. Li, N, Wei, W. Fan, H. R. Liang, H. M. Wang, P. Bi, S. Li, X. E. Wu, H. J. Lu, Q. Hao, X. Zhang, Y. Y. Zhang*, Highly Regulatable Heat Conductance of Graphene–Sericin Hybrid for Responsive Textiles. Advanced Functional Materials 2022, 32, 2111121. (IF=19.0)