主要从事基于金刚石NV色心体系的单自旋精密测量实验研究,致力于发展高精尖的金刚石自旋量子传感技术和科学仪器,主持了国家重点研发计划等多个国家级项目,研制完成国际首台固态量子材料自旋信息测量仪、扫描氮-空位色心显微镜、宽场量子钻石显微镜等指标国际领先的自旋量子精密测量仪器,实现了高端科研仪器的“人无我有”,为量子精密测量领域提供了“原理创新型”科研仪器,被超过20家科研院所采用。共申请专利24项,参与制定量子领域国家标准一项;利用自主研制的科学仪器开展了跨学科应用探索,共发表包括Science、Nature子刊、PRL等在内的SCI文章47篇。研究成果获得2015年中国分析测试协会分析测试奖特等奖、2018年教育部自然科学一等奖等奖项。入选国家高层次人才特殊支持青年人才计划、仲英青年学者、安徽省杰出青年。
学术兼职:
2026.05– 今 科学仪器应用与制造安徽省重点实验室,主任;
2021.01– 今 中科院自主研制科学仪器应用示范中心量子精密测量中心,副主任;
2020.01– 2022.12 中科院战略性先导科技专项C“基于变革性技术的高端磁测量装备”副总工程师;
2022.10– 2024.9《Nanotechnology and Precision Engineering》青年编委,SCI收录,IF=3.7;
2023.10– 今 中国微米纳米技术学会—微纳米测量与仪器分会,理事,高级会员;
主持科研项目:
(1) 科技部, 科技创新2030重大项目, 2021ZD0303204, 课题四:基于金刚石色心的高分辨率磁信号量子精密测量, 2021-11 至 2026-10,在研, 主持
(2) 中国科学院, 中科院重大科研仪器设备研制项目, ZDZBGCH2021002, 低温量子钻石原子力显微镜的工程化研制, 2021-01 至 2023-12, 在研, 主持
(3) 中国科学院, 中科院先导C, XDC07000000, 高精度电磁测量核心技术装备;项目四:基于变革性技术的高端磁测量装备;课题二:微观磁成像仪器, 2020-01 至 2022-12,结题, 课题负责人
(5) 科技部, 重点研发计划, 2018YFF01012500, 固态量子材料自旋信息测量仪的研制及应用开发, 2018-10 至 2021-09, 结题, 主持
(6) 安徽省科学技术厅, 安徽省自然科学基金杰青项目, 1808085J09, 基于金刚石固态单自旋的纳米尺度磁学成像方法, 2018-07 至 2021-06, 结题, 主持
(7) 国家自然科学基金委员会, 面上项目, 11874338, 基于单自旋量子传感器的磁斯格明子实验研究, 2019-01-01 至 2022-12-31, 结题, 主持
获得奖励:
(1) 王鹏飞(1/1); 2016年中科院优秀博士学位论文, 中国科学院, 中科院优秀博士学位论文, 其他, 2016(王鹏飞) (科研奖励)
(2) 王鹏飞(4/5); 固态单自旋量子相干控制与精密测量实验研究, 教育部, 自然科学, 省部一等奖, 2019(杜江峰; 石发展; 荣星; 王鹏飞; 段昌奎) (科研奖励)
(3) 王鹏飞(3/8); 基于单自旋量子探针的单分子磁共振探测技术, 中国分析测试协会, 中国分析测试协会 科学技术奖特等奖, 省部一等奖, 2015(杜江峰; 石发展; 王鹏飞; 荣星; 孔熙; 居琛勇; 苏吉虎; 张琪) (科研奖励)
部分发表论文:
1 Cheng-Jie Wang, Yuxin Li, Zhe Ding, Pengfei Wang,Fazhan Shi, and Jiangfeng Du. Spin-Wave Frequency Multiplication by Magnetic Vortex Cores. Nano Letters accepted (2026).
2 Wang, Yixuan, Liu, Jinpeng, Kong, Xi, Li, Min, Ji, Wentao, Wang, Mengqi, Ye, Xiangyu, Lei, Peihan, Wang, Haodong, Wang, Ya, Wang, Pengfei, Zhang, Qi, Shi, Fazhan & Du, Jiangfeng. Cryogenic optically detected magnetic resonance (ODMR) platform based on all-room-temperature scanning systems. Review of Scientific Instruments 96, 053707, doi:10.1063/5.0230895 (2025).
3 Guo, Zhongzhi, Huang, You, Cai, Mingcheng, Li, Chunxing, Shen, Mengze, Wang, Mengqi, Yu, Pei, Wang, Ya, Shi, Fazhan, Wang, Pengfei & Du, Jiangfeng. Wide-field Fourier magnetic imaging with electron spins in diamond. npj Quantum Information 10, 24, doi:10.1038/s41534-024-00818-9 (2024).
4 Cheng, Zhi, Ye, Xiangyu, Wu, Jiandong, Yu, Pei, Wang, Cheng-Jie, Wang, Mengqi, Duan, Changkui, Wang, Ya, Shi, Fazhan, Tian, Changlin, Chen, Hongwei, Wang, Pengfei & Du, Jiangfen. Radio-Frequency Electric Field Sensing Based on a Single Solid-State Spin. Physical Review Applied 19, 014057, doi:10.1103/PhysRevApplied.19.014057 (2023).
5 Cai, Mingcheng, Guo, Zhongzhi, Li, Chunxing, Li, Simin, Shi, Fazhan, Wang, Mengqi, Li, Hui, Wang, Pengfei & Du, Jiangfeng. Toward High-Throughput Single-Spin Optically Detected Magnetic Resonance Spectroscopy with Spatially Programmable Laser Illumination. Advanced Quantum Technologies n/a, 2200175, doi:https://doi.org/10.1002/qute.202200175 (2023).
6 Wang, Cheng-Jie, Wang, Pengfei, Zhou, Yan, Wang, Wenhong, Shi, Fazhan & Du, Jiangfeng. Formation of magnetic biskyrmions mediated by an intrinsic emergent monopole-antimonopole pair. npj Quantum Materials 7, 78, doi:10.1038/s41535-022-00486-y (2022).
7 Cheng, Zhi, Wang, Cheng-Jie, Ding, Bei, Wang, Pengfei, Wang, Mengqi, Li, Rui, Wang, Ya, Wang, Wenhong, Shi, Fazhan & Du, Jiangfeng. Observation of magnetic domain patterns with tilted uniaxial anisotropy using a single-spin magnetometer. Phys Rev B 105, 064433, doi:10.1103/PhysRevB.105.064433 (2022).
8 Cai, Mingcheng, Guo, Zhongzhi, Shi, Fazhan, Li, Chunxing, Wang, Mengqi, Ji, Wei, Wang, Pengfei & Du, Jiangfeng. Parallel optically detected magnetic resonance spectrometer for dozens of single nitrogen-vacancy centers using laser-spot lattice. Review of Scientific Instruments 92, 045107, doi:10.1063/5.0039110 (2021).
9 Wang, Cheng-Jie, Li, Rui, Ding, Bei, Wang, Pengfei, Wang, Wenhong, Wang, Mengqi, Guo, Maosen, Duan, Chang-Kui, Shi, Fazhan & Du, Jiangfeng. Single-spin scanning magnetic microscopy with radial basis function reconstruction algorithm. Appl Phys Lett 116, 184001, doi:10.1063/5.0006024 (2020).
10 Huang, You, Guo, Maosen, Shen, Mengze, Yu, Pei, Wang, Mengqi, Wang, Ya, Duan, Chang-Kui, Shi, Fazhan, Wang, Pengfei & Du, Jiangfeng. Superresolution localization of nitrogen-vacancy centers in diamond with quantum-controlled photoswitching. Phys Rev A 102, 040601(R), doi:10.1103/PhysRevA.102.040601 (2020).
11 Wang, Pengfei, Chen, Sanyou, Guo, Maosen, Peng, Shijie, Wang, Mengqi, Chen, Ming, Ma, Wenchao, Zhang, Rui, Su, Jihu, Rong, Xing, Shi, Fazhan, Xu, Tao & Du, Jiangfeng. Nanoscale magnetic imaging of ferritins in a single cell. Science Advances 5, eaau8038, doi:10.1126/sciadv.aau8038 (2019).
12 Li, Rui, Wang, Cheng-Jie, Cheng, Zhi, Wang, Pengfei, Wang, Ya, Duan, Changkui, Liu, Hangyu, Shi, Fazhan & Du, Jiangfeng. Wideband microwave magnetometry using a nitrogen-vacancy center in diamond. Phys Rev A 99, 062328, doi:10.1103/PhysRevA.99.062328 (2019).
13 Rong, Xing, Wang, Mengqi, Geng, Jianpei, Qin, Xi, Guo, Maosen, Jiao, Man, Xie, Yijin, Wang, Pengfei, Huang, Pu, Shi, Fazhan, Cai, Yi-Fu, Zou, Chongwen & Du, Jiangfeng. Searching for an exotic spin-dependent interaction with a single electron-spin quantum sensor. Nature Communications 9, 739, doi:10.1038/s41467-018-03152-9 (2018).
14 Wang, Pengfei, Yuan, Zhenheng, Huang, Pu, Rong, Xing, MengqiWang, Xu, Xiangkun, Duan, Changkui, Ju, Chenyong, Shi, Fazhan & Du, Jiangfeng. High-resolution vector microwave magnetometry based on solid-state spins in diamond. Nature Communications 6, 6631 (2015).
15 Shi, Fazhan, Zhang, Qi, Wang, Pengfei, Sun, Hongbin, Wang, Jiarong, Rong, Xing, Chen, Ming, Ju, Chenyong, Reinhard, Friedemann, Chen, Hongwei, Wrachtrup, Jörg, Wang, Junfeng & Du, Jiangfeng. Single-protein spin resonance spectroscopy under ambient conditions. Science 347, 1135-1138, doi:10.1126/science.aaa2253 (2015).