研究方向:
1.纤维状功能器件,能源存储与转化器件;
2.半导体器件、芯片设计与逻辑电路;
3.光驱动,电化学驱动或者人工肌肉;
4. 有机半导体,自修复材料,可拉伸材料或智能驱动材料;
5.柔性电子电路与传感器;
应聘条件:
1. 有很强的实验能力,工作认真踏实和良好的团队合作精神;
2. 有较强的英文写作表达能力;
3. 在国际学术期刊上发表过多篇高档次SCI论文。
魏磊教授简介:魏磊,新加坡南洋理工大学电气与电子工程系副教授。2005 年本科毕业于武汉理工大学,2011 年博士毕业于丹麦科技大学,2010-2014 年在美国麻省理工学院进行博士后研究,2014 年加入新加坡南洋理工大学电气与电子工程系,2018年起任新加坡南洋理工大学光纤技术研究中心主任。主要从事基于纤维的光电子器件,复合材料纤维,生物光纤交互和纤维内能量的产生和收集等方面的研究。在 Nature、Nature Biotechnology、Nature Photonics、Nature Communications、Advanced Materials、Advanced Energy Materials、Advanced Functional Materials、Nano Letters、ACS Nano、Nano Energy、Matter等学术期刊上发表论文 100多篇。
实验室主页:www.leiweigroup.com
申请方式:
1.请发送CV至张其冲博士邮箱:zhangqc@ntu.edu.sg。
2.请发送详细的个人简历:包括学习工作经历、主要研究工作、代表性论文等。
课题组近三年发表的文章:
1. M. Chen, Z. Wang, Q. Zhang, Z. Wang, W. Liu, M. Chen, and L. Wei*, Self-powered multifunctional sensing based on super-elastic fibers by soluble-core thermal drawing, Nature Communications 12, 1416 (2021).
2. Z. Wang, T. Wu, Z. Wang, T. Zhang*, M. Chen, J. Zhang, L. Liu, M. Qi, Q. Zhang, J. Yang, W. Liu, H. Chen, Y. Luo, and L. Wei*, Designer patterned functional fibers via direct imprinting in thermal drawing, Nature Communications 11, 3842 (2020).
3. J. Zhang, Z. Wang, Z. Wang, T. Zhang, and L. Wei*, In-fibre particle manipulation and device assembly via laser induced thermocapillary convection, Nature Communications 10, 5206 (2019).
4. J. Zhang, T. Zhang*, H. Zhang, Z. Wang, C. Li, Z. Wang, K. Li, X. Huang, M. Chen, Z. Chen, Z. Tian, H. Chen, L. Zhao, and L. Wei*, Single-crystal SnSe thermoelectric fibers via laser-induced directional crystallization: from one-dimensional fibers to multi-dimensional fabrics, Advanced Materials 32, 2002702 (2020).
5. J. Yang, Q. Zhang*, Z. Wang, Z. Wang, L. Kang, M. Qi, M. Chen, W. Liu, W. Gong*, W. Lu, P. Shum*, and L. Wei*, Rational construction of self-standing sulphur-doped Fe2O3 anodes with promoted energy storage capability for wearable aqueous rechargeable NiCo-Fe batteries, Advanced Energy Materials 10, 2001064 (2020).
6. Q. Zhang, C. Li, Q. Li, Z. Pan, J. Sun, Z. Zhou, B. He, P. Man, L. Xie, L. Kang, X. Wang, J. Yang, T. Zhang, P. Shum, Q. Li, Y. Yao*, and L. Wei*, Flexible and high-voltage coaxial-fiber aqueous rechargeable zinc-ion battery, Nano Letters 19, 4035-4042 (2019).
7. P. Man, Q. Zhang*, Z. Zhou, M. Chen, J. Yang, Z. Wang, Z. Wang, B. He, Q. Li, W. Gong*, W. Lu, Y. Yao*, and L. Wei*, Engineering MoS2 nanosheets on spindle-like α-Fe2O3 as high-performance core-shell pseudocapacitive anodes for fiber-shaped aqueous lithium-ion capacitors, Advanced Functional Materials 30, 2003967 (2020).
8. Q. Zhang, B. He, L. Tang, Z. Zhou, L. Kang, J. Sun, T. Zhang, Q. Li, C. Li, J. Zhao, Z. Zhang, L. Wei*, and Y. Yao*, Fully solar-powered uninterrupted overall water-splitting systems, Advanced Functional Materials 29, 1808889 (2019).
9. Q. Zhang, Z. Zhou, Z. Pan, J. Sun, B. He, Q. Li, T. Zhang, J. Zhao, L. Tang, Z. Zhang, L. Wei*, and Y. Yao*, All metal-organic framework derived battery materials on carbon nanotube fibers for wearable energy storage device, Advanced Science 5, 1801462 (2018).
10. Q. Zhang, L. Li, H. Li, L. Tang, B. He, C. Li, Z. Pan, Z. Zhou, Q. Lia, J. Sun, X. Fan*, T. Zhang*, Y. Yao*, and L. Wei*, Ultra-endurance coaxial-fiber stretchable sensing systems fully powered by sunlight, Nano Energy 60, 267-274 (2019).
11. M. Chen, Z. Wang, X. Ge, Z. Wang, K. Fujisawa, J. Xia, Q. Zeng, K. Li, T. Zhang, Q. Zhang, M. Chen, N. Zhang, T. Wu, S. Ma, G. Gu, Z. Shen, L. Liu, Z. Liu, M. Terrones, and L. Wei*, Controlled fragmentation of single-atom-thick polycrystalline graphene, Matter 2, 666-679 (2020).
12. Q. Zhang, P. Man, B. He, C. Li, Q. Li, Z. Pan, Z. Wang, J. Yang, Z. Wang, Z. Zhou, X. Lu*, Z. Niu*, Y. Yao*, and L. Wei*, Binder-free NaTi2(PO4)3 anodes for high-performance coaxial-fiber aqueous rechargeable sodium-ion batteries, Nano Energy 67, 104212 (2020).
13. K. He, Y. Hou, C. Yi, N. Li, F. Sui, B. Yang, G. Gu, W. Li, Z. Wang, Y. Li, G. Tao*, L. Wei*, C. Yang*, and M. Chen*, High-performance zero-standby-power consumption under-bending pressure sensors for artificial reflex arc, Nano Energy 73, 104743 (2020).
14. B. He, K. Yin, W. Gong, Y. Xiong, Q. Zhang*, J. Yang, Z. Wang, Z. Wang, M. Chen, P. Man, P. Coquet, Y. Yao*, L. Sun*, and L. Wei*, NaTi2(PO4)3 hollow nanoparticles encapsulated in carbon nanofibers as novel anodes for flexible aqueous rechargeable sodium-ion batteries, Nano Energy 82, 105764 (2021). |