本课题组将基于以往的研究背景和基础,深耕柔性电子器件领域的基础研究和应用发展。利用学院微纳加工平台,融合微电子、微纳制造、材料科学、生物医学、力学和计算机科学等学科的先进技术,致力于开展多领域高度交叉的前沿研究,旨在实现对人体重要生理指标的连续、长期、精准、快速的监测。为实现上述目标,课题组将致力于创新柔性电子加工技术,结合增材制造技术和可编程生物材料,开发集成度高、维度广、功能多的可穿戴及可植入式微纳器件与系统,服务于精准医疗、智能传感等领域。主要研究方向包括:(1)微纳加工与集成技术;(2)新型超声器件及应用;(3)柔性诊疗微系统。
胡鸿杰教授长期专注于柔性可穿戴可植入器件的研究,特别是基于压电超声换能器的制备与应用,迄今为止发表论文20余篇,引用2900余次,以第一作者(含共同)在 Nature 、 Nature Biomedical Engineering 、 Nature Reviews Materials 、 Nature Communications 、 Science Advances 等期刊上发表论文8篇;其他合作论文包括 Nature 、 Nature Biotechnology 、 Nature Nanotechnology 、 Nature Electronics 等。申请美国专利4项。入选国家级高层次人才计划、北京大学博雅青年学者、2023年度美国生物医学领域青年科学家顶尖奖项Hisako Terasaki Young Innovator Award。
代表性论文
1. H. Hu#, H. Huang#, M. Li#, X. Gao#, L. Yin, R. Qi, R.S. Wu, X. Chen, Y. Ma, K. Shi, C. Li, T.M. Maus, B. Huang, C. Lu, M. Lin, S. Zhou, Z. Lou, Y. Gu, Y. Chen, Y. Lei, X. Wang, R. Wang, W. Yue, X. Yang, Y. Bian, J. Mu, G. Park, S. Xiang, S. Cai, P.W. Corey, J. Wang, S. Xu*, A wearable cardiac ultrasound imager, Nature , 613, (2023): 667-675.
2. H. Hu, H. Huang, A wearable ultrasound patch for continuous heart imaging, Nature , (2023, Research Briefings).
3. H. Hu#, Y. Ma#, X. Gao#, D. Song#, M. Li, H. Huang, X. Qian, R. Wu, K. Shi, H. Ding, M. Lin, X. Chen, W. Zhao, B. Qi, S. Zhou, R. Chen, Y. Gu, Y. Chen, Y. Lei, C.H. Wang, C.F. Wang, Y. Tong, H. Cui, A. Abdal, Y. Zhu, X. Tian, Z. Chen, C. Lu, X. Yang, J. Mu, Z. Lou, M. Eghtedari, Q. Zhou, A. Oberai, S. Xu*, Stretchable ultrasonic arrays for the three-dimensional mapping of the modulus of deep tissue, Nature Biomedical Engineering , (2023): 1-14.
4. H. Hu#, X. Zhu#, C.H. Wang#, L. Zhang#, X. Li, S. Lee, Z. Huang, R. Chen, Z. Chen, C.F. Wang, Y. Gu, Y. Chen, Y. Lei, T. Zhang, N. Kim, Y. Guo, Y. Teng, W. Zhou, Y. Li, A. Nomoto, S. Sternini, Q. Zhou, M. Pharr, F, Lanza di Scalea, S. Xu*, Stretchable ultrasonic transducer arrays for three-dimensional imaging on complex surfaces, Science Advances , 4.3 (2018): eaar3979.
5. M. Lin#, H. Hu#, S. Zhou#, S. Xu*, Soft wearable devices for deep-tissue sensing, Nature Reviews Materials , (2022): 1-20.
6. Y. Yang#, H. Hu#, Z. Chen#, Z. Wang*, L. Jiang, G. Lu, X. Li, R. Chen, J. Jin, H. Kang, H. Chen, S. Lin, S. Xiao, H. Zhao, R. Xiong, J. Shi, Q. Zhou, S. Xu*, Y. Chen*, Stretchable nanolayered thermoelectric energy harvester on complex and dynamic surfaces, Nano Letters , 20.6 (2020): 4445-4453.
7. C.H. Wang#, X. Li#, H. Hu#, L. Zhang, Z. Huang, M. Lin, Z. Zhang, Z. Yin, B. Huang, H. Gong, S. Bhaskaran, Y. Gu, M. Makihata, Y. Guo, Y. Lei, Y. Chen, C.F. Wang, Y. Li, T. Zhang, Z. Chen, A. Pisano, L. Zhang, Q. Zhou, S. Xu*, Monitoring of the central-blood-pressure waveform via a conformal ultrasonic device, Nature Biomedical Engineering , 2.9 (2018): 687.
8. X. Gao#, X. Chen#, H. Hu#, X. Wang, W. Yue, J. Mu, Z. Lou, R. Zhang, K. Shi, X. Chen, M. Lin, B. Qi, S. Zhou, C. Lu, Y. Gu, X. Yang, H. Ding, Y. Zhu, H. Huang, Y. Ma, M. Li, A. Mishra, J. Wang, S. Xu*, A photoacoustic patch for three-dimensional imaging of hemoglobin and core temperature, Nature Communications , 13.1 (2022): 1-13.
9. Z. Huang#, Y. Hao#, Y. Li#, H. Hu, C.H. Wang, A. Nomoto, T. Pan, Y. Gu, Y. Chen, T. Zhang, W. Li, Y. Lei, N. Kim, C.F. Wang, L. Zhang, J. Ward, A. Maralani, X. Li, M. Durstock, A. Pisano, Y. Lin, S. Xu*, Three-Dimensional Integrated Stretchable Electronics, Nature Electronics , 1.8 (2018): 473.
