[1] CANEPA P, ROTONDI S M C, CAVALLERI O. Atomic force microscopy as a nanolithography tool to investigate the DNA/gold interface[J]. Current Opinion in Electrochemistry, 2024: 44.
[2] ISHIDA T, IWABUKI H, LIANG X, NAKAJIMA K. Visualization of crack generation of vulcanized butadiene rubber under uniaxial elongation by atomic force microscopy nanomechanics[J]. Polymer, 2024: 127263.
[3] VINCENTI L, PELLEGRINO P, CASCIONE M, et al. Crafting at the nanoscale: A comprehensive review of mechanical atomic force microscopy-based lithography methods and their evolution[J]. Materials & Design, 2024: 113036.
[4] LI X, CHEN L, KONG S, et al. Direct investigations of interactions between nucleolins and aptamers on pancreatic cancer and normal cells by atomic force microscopy[J]. Ultramicroscopy, 2024, 263: 113986.
[6] YU H, LIU Y, DENG J, ZHANG S. A novel piezoelectric stack for rotary motion by d15 working mode: Principle, modeling, simulation, and experiments[J]. IEEE/ASME Transactions on Mechatronics, 2020, 25(2): 491-501.
[8] WANG P, XU Q. Design of a flexure-based constant-force XY precision positioning stage[J]. Mechanism and Machine Theory, 2017, 108: 1-13.
[9] DENG J, LIU Y, LI K, ZHANG S. Design, modeling, and experimental evaluation of a compact piezoelectric XY platform for large travel range[J]. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2019, 67(4): 863.
[10] ZHU X, XU X, WEN Z, et al. A novel flexure-based vertical nanopositioning stage with large travel range[J]. Review of Scientific Instruments, 2015, 86(10): 123703.
[12] HUANG W, LEI Y, AN D, et al. Design and analysis of a novel 2-DOF rotation-translation precision positioning stage[J]. Mathematics, 2023, 11(2): 280.
[13] JI H W, LV B, LI T Y, et al. Design of 2-DOF decoupled large stroke precision positioning platform[J]. Journal of Mechanical Science and Technology, 2022, 36(12): 5871.
[14] SCHITTER G, THURNER P J, HANSMA P K. Design and input-shaping control of a novel scanner for high-speed atomic force microscopy[J]. Mechatronics, 2008, 18(5/6): 282.
[16] LI Y, YIN B, LIU J, et al. Optimal design of micro/nano positioning stage with wide range and high speed based on flexure structures[C]∥Changsha, China: Proceedings of the Iop Conference Series: Materials Science and Engineering, 2017.
[17] LING M X. A flexure-based XY precision positioning stage with integrated displacement PVDF sensor[C]∥Shenyang, China: Proceedings of the Intelligent Robotics and Applications: 12th International Conference, ICIRA, 2019.
