Host

  1. Yu Mingzhi, Zhao Libo, Wang Yongliang, et al. Plasma-activated silicon–glass high-strength multistep bonding for low-temperature vacuum packaging[J]. Chemical Engineering Journal, 2023, 471: 144719. (WOS: 001047215400001; IF16.744).
  2. Yu Mingzhi, Chen Yao, Wang Yongliang, et al. Microfabricated Atomic Vapor Cells with Multi-Optical Channels Based on Innovative Inner-Sidewalls Molding Process[J]. Engineering, 2023 (Accept and In Press; IF: 12.8).
  3. Yu Mingzhi, Yao Chen, Yanbin Wang, et al. Plasma-activated high-strength non-isothermal anodic bonding for efficient fabrication of the micro atomic vapor cells[J]. Journal of Materials Research and Technology. (DOI: 10.1016/j.jmrt.2023.10.029; IF: 6.4).
  4. Yu Mingzhi, Zhao Libo, Wang Yongliang, et al. Development of a High-Performance Microaccelerometer With Position Independent Pure-Axial Stressed Piezoresistive Beams[J]. IEEE Transactions on Industrial Electronics, 2022, 70(8): 8546-8556. (WOS: 001002590500095; IF: 8.162).
  5. Yu Mingzhi, Zhao Libo, Chen Shanshan, et al. Monolithically integrated triaxial high-performance micro accelerometers with position-independent pure axial stressed piezoresistive beams[J]. Microsystems & Nanoengineering, 2023, 9(1): 9. (WOS: 000910210600001; IF: 8.006).
  6. Yu Mingzhi, Chen Jia, Xiangguang Han, et al. Ultra-high-sensitivity micro-accelerometer achieved by pure axial deformation of piezoresistive beams[J]. Measurement Science and Technology, 2023, 34(12): 125159. (WOS: 001071426100001; IF: 2.4).
  7. Yu Mingzhi, Zhao Libo, Jiang Weile, et al. A Two-Axis MEMS Piezoresistive in-Plane Accelerometer With Pure Axially Deformed Microbeams[C]//2018 IEEE SENSORS. IEEE, 2018: 1-4. (DOI: 10.1109/ICSENS.2018.8589746; EI: 20190606463749).
  8. Yu Mingzhi, Zhao Libo, Jia Chen, et al. A high-g triaxial piezoresistive accelerometer with sensing beams in pure axial deformation[C]//2019 IEEE 14th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). IEEE, 2019: 176-180. (DOI: 10.1109/NEMS.2019.8915619; EI: 20195207894675).
  9. Chen Yao, Yu Mingzhi, Ma Y, et al. Quadrupolar interaction induced frequency shift of nuclear spins on the surface of silicon[J]. Journal of Physics D: Applied Physics, 2022, 55(35): 355102. (WOS: 000810736500001; IF: 3.409).
  10. Jia Chen, Yu Mingzhi, Luo Guoxi, et al. Modeling and Characterization of a Novel In-Plane Dual-Axis MEMS Accelerometer Based on Self-Support Piezoresistive Beam[J]. Journal of Microelectromechanical Systems, 2022, 31(6): 867-876. (WOS: 000846290000001; IF: 2.7).
  11. Ma Yintao, Qiao Zhixiao, Yu Mingzhi, et al. Single-beam integrated hybrid optical pumping spin exchange relaxation free magnetometer for biomedical applications[J]. Applied Physics Letters, 2022, 121(11). (WOS: 000882203600007; IF: 4).
  12. Ma Yintao, Chen Yao, Zhao Libo, Mingzhi Yu, et al. Accurate determination of alkali atom density based on zero-field magnetic resonance in a single-beam spin-exchange relaxation-free atomic magnetometer[J]. Measurement Science and Technology, 2022, 33(10): 105003. (WOS: 000820850800001; IF: 3.409).
  13. Chen Yao, Zhao Libo, Zhang Ning, Yu mingzhi, et al. Single beam Cs-Ne SERF atomic magnetometer with the laser power differential method[J]. Optics Express, 2022, 30(10): 16541-16552. (WOS: 000796530400100; IF: 3.8).
  14. Chen Yao, Zhao Libo, Ma Yintao, Yu Mingzhi, et al. Spin exchange optically pumped nuclear spin self compensation system for moving magnetoencephalography measurement[J]. Biomedical Optics Express, 2022, 13(11): 5937-5951. (WOS: 000929743900026; IF: 3.4).
  15. Jia Chen, Zhao Libo, Li Min, Yu Mingzhi, et al. Microleverage Mechanism Assisted Novel Biaxial Piezoresistive Micro Accelerometer with Improved Sensitivity[J]. IEEE Sensors Journal, 2023. (WOS: 000981951800018; IF: 4.3).
  16. Ma Yintao, Chen Yao, Zhao Libo, Luo Guoxi, Yu mingzhi, et al. The micro-fabrication and performance analysis of non-magnetic heating chip for miniaturized SERF atomic magnetometer[J]. Journal of Magnetism and Magnetic Materials, 2022, 557: 169495. (WOS: 000807759900001; IF: 2.7).
  17. Jia Chen, Mao Qi, Luo Guoxi, Libo Zhao, Dejiang Lu; Ping Yang, Mingzhi Yu, et al. Novel high-performance piezoresistive shock accelerometer for ultra-high-g measurement utilizing self-support sensing beams[J]. Review of Scientific Instruments, 2020, 91(8). (WOS: 000562837700001; IF: 1.6).
  18. Li Min, Luo Yunyun, Jia Chen, Huang Mimi, Yu Mingzhi, et al. Au-assisted polymerization of conductive poly (N-phenylglycine) as high-performance positive electrodes for asymmetric supercapacitors[J]. Nanotechnology, 2021, 33(4): 045602. (WOS: 000714235300001; IF: 3.5).
  19. Chen Yao, Yu Mingzhi, Ma Yintao, et al. Micro-fabricated alkali vapor cells for atomic spin gyroscope study[C]//2021 IEEE 16th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS). IEEE, 2021: 282-285. (DOI: 10.1109/NEMS51815.2021.9451404; EI: 20213410818113).

ArticlesWeb

[1] 赵立波, 于明智, 马银涛, 等. 一种纯轴向变形的MEMS三轴压阻式加速度计芯片及其制备方法: CN201910683519.7[P]. 2020-07-28. 
[2] 赵立波, 于明智, 马银涛, 等. 一种具有纯轴向变形敏感梁的MEMS压阻式三轴冲击加速度计芯片及其制备方法: CN201910684531.X[P]. 2021-01-19.
[3] 赵立波, 于明智, 蒋维乐, 等. 一种MEMS直拉直压式两轴加速度计芯片及其制备方法: CN201710916278.7[P]. 2019-10-11.
[4] 蒋维乐, 于明智, 赵立波, 等. 一种MEMS压阻式两轴加速度传感器芯片及其制备方法: CN201710919747.0[P]. 2019-10-11.
[5] 赵立波, 王延斌, 秦广照, 于明智,等. 一种双腔MEMS碱金属气室及其制备方法: CN202211604516.8[P]. 2023-04-28.
[6] 夏勇, 王涛, 赵立波, 于明智, 等.一种基于纯轴向应变梁的单轴加速度传感芯片及其工作方法: CN202211485553.1[P]. 2023-03-10.
[7] 陈瑶, 马银涛, 张宁, 于明智, 等. 一种单光束混合光抽运系统及其背景光强抑制方法: CN202110019232.1[P]. 2022-09-23.
[8] 赵立波, 贾琛, 罗国希, 于明智, 等. 一种压阻式双轴加速度传感器芯片及其制备方法: CN202110150381.1[P]. 2021-06-15.
[9] 赵立波, 马银涛, 罗国希, 于明智等. 一种原子磁强计的MEMS气室碱金属原子源选择方法: CN202010403189.4[P]. 2021-05-28.
[10] 赵立波, 马银涛, 于明智, 等. 一种具有纯轴向变形敏感梁的面外压阻式加速度计芯片及其制备方法: CN201910683513.X[P]. 2022-10-25.
[11] 赵立波, 贾琛, 罗国希, 于明智, 等. 一种面内双轴压阻加速度传感器芯片及其制备方法: CN201910644481.2[P]. 2022-04-25.
[12] 赵立波, 贾琛, 蒋维乐, 于明智, 等. 多梁式单质量块面内双轴加速度传感器芯片及其制备方法: CN201710938806.9[P]. 2019-10-11.
[13] 陈瑶, 蒋庄德, 赵立波, 马银涛, 于明智, 等. 自动补偿外干扰磁场的生物磁测量原子磁强计系统及方法: CN202210143097.6[P]. 2022-05-24.
[14] 陈瑶, 蒋庄德, 赵立波, 马银涛, 于明智, 等. 基于MEMS气室的Rb-131Xe原子自旋陀螺仪单光束检测系统和方法: CN202111625960.3[P]. 2023-01-03.
[15] 赵立波 ,韩香广, 李雪娇, 王李, 于明智, 等. 基于静电激励压阻检测的差动式硅微谐振式压力传感器: CN202010121087.3[P]. 2021-05-26.
[16] 陈瑶, 张宁, 赵立波, 马银涛, 郭强, 于明智, 等. 基于光强差分的单光束原子磁强计偏置及噪声抑制装置及方法: CN202011583088.6[P]. 2022-10-28.