论文

  1. C. Y. Han*, S. Zhao, S. L. Fang, W. Liu*, W. M. Tang, P. T. Lai, C. Li, Y. X. Ma, J. Q. Song, X. Li, X. L. Wang, W. J. Ren, R. L. Wang, X. D. Huang, G. H. Zhang, and L. Geng, "A Flexible Artificial Spiking Photoreceptor Enabled by a Single VO(2) Mott Memristor for the Spike-Based Electronic Retina," ACS Appl Mater Interfaces, Oct 9 2024.
  2. T. Lv, J. Liu, F. Li, S. Ma, X. Wei, X. Li, C. Han*, and X. Wang*, "Label-Free and Ultrasensitive Detection of Cartilage Acidic Protein 1 in Osteoarthritis Using a Single-Walled Carbon Nanotube Field-Effect Transistor Biosensor," ACS Appl Mater Interfaces, vol. 16, no. 28, pp. 36804-36810, Jul 17 2024.
  3. S. Zhao, C. Y. Han*, F. Tian, Y. Yuan, J. Chai, H. Xu, S. Fan, X. Li, W. Liu, C. Li, W. M. Tang, P. T. Lai, X. Huang, G. Zhang, L. Geng, and X. Wang*, "A 1T1M programmable artificial spiking neuron via the integration of FeFET and NbOx Mott memristor," IEEE Electron Device Letters, 2024.
  4. 吕腾博, 刘嘉乐, 刘丽, 李昕, 韩传余, 王小力, "IGZO薄膜晶体管生物传感器无标记检测强直性脊柱炎," 西安交通大学学报, vol. 58, no. 2, pp. 157-163, 2024.
  5. 方胜利, 任文君, 赵淑景, 王瑞麟, 刘卫华, . , 张国和, 王小力, . , 韩传余, "向神经形态感知的人工脉冲神经元的研究进展," 微电子学, vol. 54, no. 1, pp. 1-16, 2024.
  6. Y. Yuan, R. Gao, Q. Wu, S. Fang, X. Bu, Y. Cui, C. Han*, L. Hu, X. Li, X. Wang, L. Geng, and W. Liu*, "Artificial Leaky Integrate-and-Fire Sensory Neuron for In-Sensor Computing Neuromorphic Perception at the Edge," ACS Sensor, vol.8, no.7, pp. 2646–2655, 2023.
  7. S. Fan*, Z. Lu, W. Ma, S. Fang, K. Chen, B. Ma, C. Han*, G. Zhang, and L. Geng, "A Low-Power Sensing System Architecture with Mott Memristor and Time-to-Digital Converter for Large-Scale Sensor-Array Application," IEEE Transactions on Circuits and Systems II: Express Briefs, pp. 1-1, 2023.
  8. C. Y. Han*, S. L. Fang, Y. L. Cui, W. Liu, S. Q. Fan, X. D. Huang, X. Li, X. L. Wang, G. H. Zhang, W. M. Tang, P. T. Lai, J. Liu, X. Wan, Z. Yu, and L. Geng, "Configurable NbOx Memristors as Artificial Synapses or Neurons Achieved by Regulating the Forming Compliance Current for the Spiking Neural Network," Advanced Electronic Materials, vol. 9, p. 2300018, 2023.
  9. 赵淑景, 任文君, 方胜利, 刘卫华, 李昕, 王小力, 杨世强, 韩传余, "电极材料对NbOx Mott忆阻器稳定性的影响," 西安交通大学学报, vol. 57, no. 12, pp. 129-135, 2023.
  10. S. L. Fang, C. Y. Han*, Z. R. Han, B. Ma, Y. L. Cui, W. Liu, S. Q. Fan, X. Li, X. L. Wang, G. H. Zhang, X. D. Huang, and L. Geng, "An Artificial Spiking Afferent Neuron System Achieved by 1M1S for Neuromorphic Computing," IEEE Transactions on Electron Devices, vol. 69, no. 5, pp. 2346-2352, 2022.
  11. S. L. Fang, C. Y. Han*, W. Liu, Z. R. Han, B. Ma, Y. L. Cui, S. Q. Fan, X. Li, X. L. Wang, G. H. Zhang, J. Q. Yin, X. D. Huang, and L. Geng, "A bioinspired flexible artificial mechanoreceptor based on VO2 insulator-metal transition memristor," Journal of Alloys and Compounds, vol. 911, p. 165096, 2022.
  12. C. Y. Han*, Z. R. Han, S. L. Fang, S. Q. Fan, J. Q. Yin, W. H. Liu, X. Li, S. Q. Yang, G. H. Zhang, X. L. Wang, and L. Geng, "Characterization and Modelling of Flexible VO2 Mott Memristor for the Artificial Spiking Warm Receptor," Advanced Materials Interfaces, vol. 7, no. 19, p. 2200394, 2022.
  13. S. L. Fang, C. Y. Han*, W. H. Liu, X. Li, X. L. Wang, X. D. Huang, et al., "Multilevel resistive random access memory achieved by MoO3/Hf/MoO3stack and its application in tunable high-pass filter," Nanotechnology, vol. 32, 2021. doi: 10.1088/1361-6528/ac0ac4.
  14. C. Y. Han#,*, Y. Li#, Z. X. Zhang, W. H. Liu, X. Li, X. Guo, J. Wan, G. H. Zhang, X. L. Wang, and Q. Lin*, "An artifical synapse based on graphene field effect transistor with silver gel/polarized-aptamer gate," Organic Electronics,2021, 92(5):106118.
  15. C. Y. Han, W. M. Tang*, and P.-T. Lai*, "High-mobility pentacene organic thin-film transistors achieved by reducing remote phonon scattering and surface-roughness scattering," Applied Surface Science,2021, 544:148656.
  16. C. Y. Han, P.-T. Lai*, and W. M. Tang*, "High-performance pentacene organic thin-film transistor based on room-temperature-processed Hf0.13 La0.87O as gate dielectric," IEEE  Electron Device Letters,2021, 42(3):339-342.
  17. S. L. Fang, W. H. Liu, X. Li, X. L. Wang, L. Geng, M. S. Wu, X. D. Huang, and C. Y. Han*, "Biodegradable transient resistive random-access memory based on MoO3/MgO/MoO3 stack," Applied Physics Letters,2019, 115(24):244102.
  18. C. Y. Han*, Z. X. Zhang, W. H. Liu, X. Li, L. Geng, L. Wang, and X. L. Wang*, "Effects of CaO Interlayer on the Performance of Biodegradable Transient MgO-Based Resistive Random Access Memory," IEEE Transactions on Electron Devices,2020, 67(2):481-486.
  19. C. Y. Han, Y. X. Ma, W. M. Tang, X. L. Wang, and P. T. Lai*, "A study on organic thin-film transistors using Hf-La oxides with different La contents as gate dielectrics," IEEE Transactions on Electron Devices,2018, 65(3):1107-1112.
  20. C. Y. Han, W. M. Tang, and P. T. Lai*, "High-mobility pentacene organic thin-film transistor with LaxNb(1-x)Oy gate dielectric fabricated on vacuum tape," IEEE Transactions on Electron Devices,2017, 64(4):1716-1722.
  21. C. Y. Han, Y. X. Ma, W. M. Tang, X. L. Wang, and P. T. Lai*, "A study on pentacene organic thin-film transistor with different gate materials on various substrates," IEEE Electron Device Letters,2017, 38(6):744-747.
  22. C. Y. Han, W. M. Tang, C. H. Leung, C.-M. Che, and P. T. Lai*, "A study on La incorporation in transition-metal (Y, Zr, and Nb) oxides as gate dielectric of pentacene organic thin-Film transistor," IEEE Transactions on Electron Devices,2015, 62(7):2313-2319.
  23. C. Y. Han, J. Q. Song, W. M. Tang, C. H. Leung, and P. T. Lai*, "High-performance organic thin-film transistor by using LaNbO as gate dielectric," Applied Physics Letters,2015, 107(3).
  24. J. Song, C. Y. Han, and P. T. Lai*, "Comparative study of Nb2O5, NbLaO, and La2O3 as gate dielectric of InGaZnO thin-film transistor," IEEE Transactions on Electron Devices,2016, 63(5):1928-1933.
  25. C. Y. Han, W. M. Tang, C. H. Leung, C. M. Che, and P. T. Lai*, "High-mobility pentacene thin-film transistor by using LaxTa(1-x)Oy as gate dielectric," Organic Electronics,2014, 15(10):2499-2504.
  26. C. Y. Han, W. M. Tang, C. H. Leung, C. M. Che, and P. T. Lai*, "High-Performance Pentacene Thin-Film Transistor With High-kappa HfLaON as Gate Dielectric," IEEE Electron Device Letters,2013, 34(11):1397-1399.
  27. C. Y. Han, C. H. Leung, P. T. Lai, W. M. Tang, C. M. Che, and Ieee, Effects of fluorine plasma and ammonia annealing on pentacene thin-film transistor with HITiO as gate dielectric, 2013.
  28. C. Y. Han, C. H. Leung, P. T. Lai, W. M. Tang, and C. M. Che, Effects of fluorine plasma and ammonia annealing on pentacene thin-film transistor with HfTiO as gate dielectric, 2013.
  29. L. Chen, C. Gong, G. Zhang, C. Han, X. Li, W. Liu, et al.Graphene synaptic transistor based on Ion-Gel dielectric, 2019.
  30. L. G. Beka, X. Li, X. Wang, C. Han, and W. Liu, "Reduced graphene oxide/CoS2 porous nanoparticle hybrid electrode material for supercapacitor application," Rsc Advancesvol. 9, pp. 26637-26645, Aug 27 2019.
  31. J. Song, C. Han, and P. T. Lai, "Comparative Study of Nb2O5, NbLaO, and La2O3 as Gate Dielectric of InGaZnO Thin-Film Transistor," IEEE Transactions on Electron Devices, vol. 63, pp. 1928-1933, May 2016.
  32.  L. X. Qian, X. Z. Liu, C. Y. Han, and P. T. Lai, "Improved Performance of Amorphous InGaZnO Thin-Film Transistor With Ta2O5 Gate Dielectric by Using La Incorporation," IEEE Transactions on Device and Materials Reliability, vol. 14, pp. 1056-1060, Dec 2014.
  33. Y.-X. Ma, C.-Y. Han, and P. T. Lai, Carrier-Mobility Improvement for Pentacene OTFT with LaZrO Dielectric by using Pd Gate, 2016.
  34. Y. X. Ma, C. Y. Han, W. M. Tang, and P. T. Lai, "Effects of Gate Electron Concentration on the Performance of Pentacene Organic Thin-Film Transistors," Ieee Electron Device Letters, vol. 39, pp. 963-966, Jul 2018.
  35. Y. X. Ma, C. Y. Han, W. M. Tang, and P. T. Lai, "High-performance pentacene OTFT by incorporating Ti in LaON gate dielectric," Applied Physics Letters, vol. 111, Jul 2017.
  36.   Y. Ma, W. M. Tang, C. Han, and P. T. Lai, "High-Performance Pentacene Organic Thin-Film Transistor by Using Nd2O3 Gate Dielectric Doped with Nb," Physica Status Solidi a-Applications and Materials Science, vol. 215, Mar 2018.
  37. B. Li, C. Y. Han, P. T. Lai, and W. M. Tang, "Effects of source/drain-electrode material, thickness and fabrication method on the electrical performance of pentacene thin-film transistor," Thin Solid Films, vol. 667, pp. 28-33, Dec 2018.
专利
(1) 韩传余  面向神经形态脉冲神经网络的电子传入神经元及实现方法, 2022-4-5, 中国, ZL202010633543.2
(2) 韩传余; 方胜利; 韩峥嵘; 张骐智; 刘卫华; 李昕; 一种编码脉冲输出的阻变型传感构架, 2022-10-25, 中国, ZL202110714948.3
(3) 韩传余; 韩峥嵘; 方胜利; 张骐智; 王小力 ; 一种柔性仿神经元电路及基于其的脉冲神经网络, 2022-4-22, 中国, ZL202010163292.6
(4) 韩传余; 方胜利 ; 一种随机神经脉冲发生器, 2020-7-28, 中国, ZL201811574891.6
(5) 韩传余; 崔毅林; 王小力; 刘卫华; 李昕 ; 基于忆阻器神经网络的高精度快速ADC及模数转换方法, 2022-12-09, 中国, ZL202011363292.7
(6) 韩传余; 张骐智; 韩峥嵘; 方胜利; 王小力 ; 一种基于电极堆栈的界面型多态阻变存储器及其制备方法, 2022-06-07, 中国, ZL202010641523.X
(7) 韩传余; 韩峥嵘; 方胜利; 张骐智; 刘卫华; 王小力 ; 一种基于莫特绝缘体忆阻器的电容型传感架构, 2021-10-22, 中国, CN113532489A 
(8)韩传余; 任文君; 王瑞麟; 杨世强;一种感受野模块、脉冲耦合电子视网膜及其实现方法, 2023-06-26, CN116776947A