[1] Liu, W., Zhang, Y., Gu, Z. D., Zheng, F., Sha, J. J., & Chen, Y. F., Structure Design of Silicon-Based Nanopore Chips for Noise Reduction. IEEE Sensors Journal, 2024. 24(3): p. 2405-2412. (共同一作)
[2] Zhang Y, Lian X, Si W, et al. The origin of the voltage dependence of conductance blockades from DNA translocation through solid-state nanopores [J]. Mat Chem Front, 2023,10.1039.
[3] Si, W.; Yuan, R.; Wu, G.; Kan,Y.; Sha, J.; Chen,Y.; Zhang, Y.*; Shen, Y. Navigated Delivery of Peptide to the Nanopore Using In-Plane Heterostructures of MoS2 and SnS2 for Protein Sequencing. J. Phys. Chem. Lett. 2022, 3863-3872.
[4] Zhan L; Zhang Y; Si W; Sha J; Chen Y, Detection and Separation of Single-Stranded DNA Fragments Using Solid-State Nanopores. The Journal of Physical Chemistry Letters 2021,12 (28), 6469-6477. (共同一作)
[5] Zhang Y, Zhao J B, Si W, Kan YJ, Xu Z, Sha JJ, and Chen Y F. Electroosmotic Facilitated Protein Capture and Transport through Solid-State Nanopores with Diameter Larger than Length. Small Methods,2020, 4, 1900893. (封面论文)
[6] Zhang Y, Zhao J, Kan Y, Ji R, Pan J, Huang W, Xu Z, Si W, and Sha J. Concentration effects on capture rate and translocation configuration of nanopore-based DNA detection. Electrophoresis, 2020, 41,1523-1528. (封面论文)
[7] Zhang Y, Gu Z D, Zhao J B, ShaoL Y, and Kan Y J. Sequence-Specific Detection of DNA Strands Using a Solid-State Nanopore Assisted by Microbeads. Micromachines, 2020, 11.
[8] Si W, Zhang Y, Wu G, Kan Y, Zhang Y, Sha J, and Chen Y. Discrimination of Protein Amino Acid or Its Protonated State at Single-Residue Resolution by Graphene Nanopores. Small, 2019, 15, e1900036.
[9] Si W, Zhang Y, Sha J J, and Chen Y F. Mechanisms of pressure-induced water infiltration process through graphene nanopores. Molecular Simulation, 2019, 45, 518-524.
[10] Zhang Y, Zhang X, Yang L, Zhang Q, Fitzgerald M L, Ueda A, Chen Y F, Mu R, Li D Y, and Bellan L M. Thermal transport in electrospun vinyl polymer nanofibers: effects of molecular weight and side groups. Soft Matter, 2018, 14, 9534-9541. (封面论文)
[11] Si W, Zhang Y, Sha J J, and Chen Y F. Controllable and reversible DNA translocation through a single-layer molybdenumdisulfide nanopore. Nanoscale, 2018, 10, 19450-19458.
[12] Zhang Y, Wu G, Si W, Ma J, Yuan Z, Xie X, Liu L, Sha J, Li D, and Chen Y. Ionic current modulation from DNA translocation through nanopores under high ionic strength and concentration gradients. Nanoscale, 2017, 9, 930-939.
[13] Zhang Y, Wu G, Ma J, Yuan Z, Si W, Liu L, Sha J, and Chen Y. Temperature effect on translocation speed and capture rate of nanopore-based DNA detection. Science China Technological Sciences,2015, 58,519-525.
[14] Zhang Y, Wu G S, Si W, Sha J J, Liu L, and ChenY F. Retarding and manipulating of DNA molecules translocation through nanopores. Chinese Science Bulletin, 2014, 59, 4908-4917.
[15] Zhang Y, Liu L, Sha J, Ni Z, Yi H, and Chen Y. Nanopore detection of DNA molecules in magnesium chloride solutions. Nanoscale Res Lett, 2013, 8, 245.