蘇業旺

09/2001~07/2005 大連理工大學工程力學系，本科 ^[1] 

柔性結構與器件力學 ^[1] 

1. 柔性結構的有限變形、屈曲與後屈曲力學理論 ^[1] 

2. 柔性傳感器與驅動器的設計、分析與製備 ^[1] 

3. 柔性器件的產品化與產業化 ^[1] 

6. 2024，講授的《固體力學導論》課程，榮獲國科大2023年學院級“研究生優秀課程“ ^[1] 

5. 2023，獲2023年度“中國科學院優秀導師“稱號 ^[1] 

4. 2021，入選國家級青年人才計劃 ^[1] 

3. 2020，作為負責人，負責的研究團隊入選中科院創新交叉團隊 ^[1] 

2. 2017，中國力學學會自然科學二等獎，全部獲獎人為：季葆華、蘇業旺、黃克智 ^[1] 

1. 2015，入選中科院BR計劃 ^[1] 

31. 2024，力學所在醫療器械流速傳感器研究方面取得新進展 ^[1] 

30. 2024，力學所在光動力可拉伸電子面膜研究方面取得新進展 ^[1] 

29. 2023，力學所在可拉伸電子面膜研究方面取得新進展（相關報道：[TheDream Group 則君課題組][高分 子科技]） ^[1] 

28. 2023，微結構固體力學課題組李爽博士論文入選“2023年度中國科學院優秀博士論文”，

蘇業旺研究員獲得 2023年度“中國科學院優秀導 ^[1]  師”稱號

27. 2023，過加載——提高可拉伸電子器件彈性延展性的新策略（相關報道：[高分子科學前沿]） ^[1] 

26. 2023，Nanomaterials：基於微納米材料與結構的柔性傳感器的研究與應用 | MDPI 特刊徵稿 ^[1] 

25. 2022，用於液滴機械能收集的摩擦壓電覆合納米發電機研究（相關報道：[電介質Dielectrics][化學與材料科學]） ^[1] 

24. 2022，可拉伸無機柔性電子在不同界面條件下一致性工作的尺寸設計原理（相關報道：[柔性電子創新中心][高分子科學前沿]） ^[1] 

23. 2022，高性能、可量產的確定性接觸電阻式編織結構大應變傳感器（相關報道：[MEMS][高分子科技]） ^[1] 

22. 2022，力學所舉行2022屆研究生畢業典禮暨學位授予儀式（課題組成員李爽同學作為畢業生代表發言） ^[1] 

21. 2022，祝賀課題組成員李爽同學榮獲2022年中國科學院朱李月華優秀博士生獎 ^[1] 

20. 2022，祝賀課題組成員李爽同學榮獲2022年郭永懷獎學金 ^[1] 

19. 2022，用於超聲促滲的可拉伸電子面膜研究（相關報道：[中科院之聲][高分子科技][納米人][高分子科學前沿][奇物論]） ^[1] 

18. 2022，用於脈搏監測的具有超高輸出的槓桿式摩擦納米發電機研究（相關報道：[中科院][新華網]） ^[1] 

17. 2021，柔性大應變傳感器基礎研究及在火星工程中的應用（相關報道：[高分子科學前沿][高分子科技][化學人生]） ^[1] 

16. 2021，力學所孵化項目懸浮揹包亮相2021年懷柔科技活動周活動 ^[1] 

15. 2021，力學所在熱釋電能量收集器性能評估標準研究中取得進展 ^[1] 

14. 2021，力學所柔性應變傳感器研究助力我國首次火星探測任務“天問一號”探測器成功着陸 ^[1] 

13. 2021，蘇業旺團隊入選2020年度中國科學院創新交叉團隊項目 ^[1] 

12. 2020，祝賀課題組成員劉國棟同學榮獲2020年國家獎學金 ^[1] 

11. 2020，力學所提出基於可拉伸柔性結構的電動汽車無線充電方案 ^[1] 

10. 2020，多尺度螺旋結構用於超彈性可拉伸導線及應變傳感器 ^[1] 

9. 2020，我所蘇業旺研究員受邀在央視科教頻道為公眾解讀“電子皮膚”的前世今生 ^[1] 

8. 2018，柔性曲率傳感器研究取得重要進展 ^[1] 

7. 2018，祝賀課題組成員張懋熠同學榮獲2018年國家獎學金 ^[1] 

6. 2017，“生物納米多級結構材料的力學行為及仿生研究”榮獲第三屆中國力學自然科學二等獎 ^[1] 

5. 2017，祝賀課題組成員李爽同學榮獲2017年國家獎學金 ^[1] 

4. 2017，力學所多名導師和研究生榮獲2017年院級獎項 ^[1] 

3. 2017，2017年郭永懷獎學金獲得者 ^[1] 

2. 2017，壓電器件輸出電壓測量的基本問題及一般性測量標準研究進展 ^[1] 

1. 2016，具有高延展性的柔性電子器件非屈曲結構設計與應用 ^[1] 

1. 碩/博士研究生：每年招收1-2名 ^[1] 

2. 博士後：柔性結構與器件的設計、分析與製備（力學、機械、材料、電子相關專業背景均可） ^[1] 

3. 長期合作崗位(助理研究員/副研究員/研究員；項目聘用人員)：柔性結構與器件的設計、分析與製備；團隊管理和科技成果轉化 ^[1] 

▶ 工作單位與工作地點：中國科學院力學研究所，非線性力學國家重點實驗室，北京市海淀區北四環西路15號 ^[1] 

10.2023~2025，北京市科委新興領域融合科技創新專項，某裝備研發與應用，主持 ^[1] 

9. 2022~2024，中組部WRQB人才計劃項目，柔性結構與器件力學，主持 ^[1] 

8. 2022~2025，國家自然科學基金面上項目，混合編織外部可拉伸互聯導線的結構設計、理論和製備，主持 ^[1] 

7. 2020~2023，中科院創新交叉團隊項目，用於海洋信息蒐集的魚類柔性可穿戴設備研究與應用，主持 ^[1] 

6. 2020~2022，北京市自然科學基金面上項目，柔性電子器件無機/有機複合可延展結構設計研究與應用，主持 ^[1] 

5. 2019~2022，北京市科委懷柔科學城成果落地重大專項，基於大應變傳感器的PE管網智能安全監測系統開發與應用，主持 ^[1] 

4. 2019~2023，中科院基礎前沿科學研究計劃“從0到1”原始創新項目，基於力學結構設計的大變形柔性傳感器原創研究，主持 ^[1] 

3. 2018~2021，國家自然科學基金面上項目，基於無機/有機複合設計的多層可延展結構與柔性電子器件研究，主持 ^[1] 

2. 2016~2019，國家自然科學基金面上項目，柔性電子器件非屈曲結構的結構設計理論分析及應用研究，主持 ^[1] 

1. 2015~2018，中科院BR計劃項目，柔性電子器件力學，主持 ^[1] 

10. Li, J.; Wu, X.; Su, Y.^*, An Overstretch Strategy to Double the Designed Elastic Stretchability of Stretchable Electronics, Advanced Materials, 2023. 2300340. ^[1] 

9. Li, S.; Lan, Y.; Huang, Y.; Chen, Y.; Su, Y.*, A Universal Size Design Principle for Stretchable Inorganic Electronics to Work Consistently under Different Interface Conditions, Advanced Functional Materials, 2023, 33, 2210880. ^[1] 

8. Li, J.; Li, S.; Su, Y.*, Stretchable Strain Sensors Based on Deterministic-Contact-Resistance Braided Structures with High Performance and Capability of Continuous Production, Advanced Functional Materials, 2022, 2208216. ^[1] 

7. Li, S.; Xu, J.; Li, R.; Wang, Y.; Zhang, M.; Li, J.; Yin, S.; Liu, G.; Zhang, L.; Li, B.; Gu, Q.; Su, Y.*, Stretchable Electronic Facial Masks for Sonophoresis, ACS Nano, 2022, 16(4): 5961-74. ^[1] 

6. Li, S.; Liu, G.; Li, R.; Li, Q.; Zhao, Y.; Huang, M.; Zhang, M.; Yin, S.; Zhou, Y.; Tang, H.; Wang, L.; Fang, G.; Su, Y.*, Contact-Resistance-Free Stretchable Strain Sensors with High Repeatability and Linearity. ACS Nano, 2022, 16 (1), 541-553. ^[1] 

5. Su, Y.; Ping, X.; Yu, K.; Lee, J.; Fan, J.; Wang, B.; Li, M.; Li, R.; Harburg, D.; Huang, Y.; Yu, C.; Mao, S.; Shim, J.; Yang, Q.; Lee, P.; Armonas, A.; Choi, K.; Yang, Y.; Paik, U.; Chang, T.; Dawidczyk, T.; Huang, Y.; Wang, S.*; Rogers, J.*, In-Plane Deformation Mechanics for Highly Stretchable Electronics. Advanced Materials, 2017, 1604989. ^[1] 

4. Su, Y.*; Dagdeviren, C.*; Li, R., Measured Output Voltages of Piezoelectric Devices Depend on the Resistance of Voltmeter. Advanced Functional Materials, 2015, 25(33), 5320-5325. ^[1] 

3. He, S.; Su, Y.*; Ji, B.*; Gao, H., Some Basic Questions on Mechanosensing in Cell-Substrate Interaction. Journal of the Mechanics and Physics of Solids, 2014, 70, 116-135. ^[1] 

2. Su, Y.; Ji, B.^*; Hwang, K.; Huang, Y.^*, Micro-Buckling in the Nanocomposite Structure of Biological Materials. Journal of the Mechanics and Physics of Solids, 2012, 60(10), 1771-1790. ^[1] 

1. Su, Y.^#; Wu, J.^#; Fan, Z.; Hwang, K.^*; Song, J.; Huang, Y.^*; Rogers, J. A., Postbuckling Analysis and Its Application to Stretchable Electronics. Journal of the Mechanics and Physics of Solids, 2012, 60(3), 487-508. ^[1] 

共發表論文100餘篇，包括多篇JMPS, IJSS, Nature Communications, PNAS, Advanced Materials, Advanced Functional Materials, ACS Nano, Nano Energy, Advanced Healthcare Materials, Small, Advanced Materials Technologies等期刊論文，被SCI引用10000餘次。（*為通訊作者，#為共同第一作者） ^[1] 

104. Gong, G.; Zhang, M.; An, D.; Li, R.^*; Su, Y.^*, An Analytical Mechanics Model for the Rotary Sliding Triboelectric Nanogenerator. Micromachines, 2024, 15(3), 371. ^[1] 

103. Zhang, L.^#; Jiang, X.^#; Li, S.; Lan, Y.; Liu, H.; Yu, H.; Wang, A,; Zhang, M.; Li, J.; Liu, G.; Gong, G.; Huang, M.; Li, Q.; Zhao, Y.; Zhu, K.; Guo, L.; Duan, L.; Chen, Y.; Wang, B.; Li,R.^*; Yang, Y.^*; Su, Y.^*, Stretchable Electronic Facial Masks for Photodynamic Therapy. Nano Energy, 2024, 109407. ^[1] 

102. Xu, X.; Guo, L.; Liu, H.; Zhou, Z.; Li, S.; Gu, Q.; Ding, S.; Guo, H.; Yan, Y.; Lan, Y.; Li, Q.; Wei, W.; Zhang, J.; Liu, C.; Su, Y.^*, Stretchable Electronic Facial Masks for Skin Electroporation. Advanced Functional Materials, 2023, 2311144. ^[1] 

101. Zhou, L.; Li, Q.; Wang, L.; Wang, M.; Li, L.; Ding, B.; Bao, S.; Wang, S.; Xiao, X.; Cui, J.; Wang, G.; Liu, C.; Su, Y.^*, An Occlusion Detection System for Intravenous Infusion. IEEE Sensors Journal, 2023, 23, 25779-25788. ^[1] 

100. 黎洪義, 郭亮, 孫明燁, 李爽, 王洪建, 周東, 劉洋, 趙慶林, 劉平原, 趙陽, 蘇業旺^*, 基於大應變傳感器的PE燃氣管道安全監測系統. Research and Application of the Safety Monitoring System for PE Pipe Networks of Gas Based on Stretchable Strain Sensors. Gas and Heat, 2023, 43(11), B24-B28. ^[1] 

99. Wang, Y.; Zhou, Z.; Li, R.; Wang, J.; Sha, B.; Li, S.^*; Su, Y.^*, A Hierarchical Theory for the Tensile Stiffness of Non-Buckling Fractal-Inspired Interconnects. Nanomaterials, 2023.13,2542.98. Zhang, M.; Guo, L.; Hu, J.; Wang, X.; Yang, Y.; Su, Y.*, Suspended-Load Backpacks to Reduce the Cost of Carrying Loads with Energy Scavenging Potential—Part 2: Bio-Inspired Pre-Rotation Design, Nanoenergy Advances, 2023, 3(3), 271-281. ^[1] 

98. Zhang, M.; Guo, L.; Hu, J.; Wang, X.; Yang, Y.; Su, Y.^*, Suspended-Load Backpacks to Reduce the Cost of Carrying Loads with Energy Scavenging Potential—Part 2: Bio-Inspired Pre-Rotation Design, Nanoenergy Advances, 2023, 3(3), 271-281. ^[1] 

97. Zhang, M.; Guo, L.; Hu, J.; Wang, X.; Yang, Y.; Su, Y.*, Suspended-Load Backpacks to Reduce the Cost of Carrying Loads with Energy Scavenging Potential—Part 1: Pre-Compression Design, Nanoenergy Advances, 2023, 3(3), 259-270. ^[1] 

96. Li, J.; Wu, X.; Su, Y.^*, An Overstretch Strategy to Double the Designed Elastic Stretchability of Stretchable Electronics, Advanced Materials, 2023. 2300340. ^[1] 

95. 劉浩, 李爽, 劉國棟, 賈賀, 房冠輝, 馮瑞, 蘇業旺*, 面向航天回收裝備的大變形柔性傳感器研究與應用（二）—— 大應變傳感器. Research and Application of Sensors with Great Flexibility and Deformability for Aerospace Recycling Equipment (2) —— Stretchable Strain Sensor. Spacecraft Recovery & Remote Sensing, 2023, 44(1): 59-69. ^[1] 

94. 劉浩, 劉國棟, 李爽, 賈賀, 房冠輝, 馮瑞, 蘇業旺*, 面向航天回收裝備的大變形柔性傳感器研究與應用（一）—— 曲率傳感器. Research and Application of Sensors with Great Flexibility and Deformability for Aerospace Recycling Equipment (1) —— Curvature Sensor. Spacecraft Recovery & Remote Sensing, 2023, 44(1): 50-58. ^[1] 

93. Li, Q.; Li, S.; Zhou, L.; Cao, X.; Lan, Y.; Xu, X.; Huang, Y.; Chen, Y.; Zhao, Y.; Huang, C.; Wei, Y.; Yang, Y.; Su, Y.^*, Optimal Design Towards High Performance of Sandwich Flexible Piezoelectric Energy Harvesters, Journal of Applied Mechanics-Transactions of the ASME, 2023, 90(6): 061007. ^[1] 

92. Lan, Y.; Liu, G.; Yin, S.; Zhao, Y.; Liu, C.; Sun, L.; Li, S.^*; Su, Y.^*, One-Step Patterned Contact-Resistance-Free Stretchable Strain Sensors With High Linearity and Repeatability for Body-Motion Detection, Journal of Applied Mechanics-Transactions of the ASME, 2023, 90(7): 071004. ^[1] 

91. Li, M.; Zhou, D.^*; Su, Y.^*, Simulation of Fully Coupled Hydro-Mechanical Behavior Based on an Analogy Between Hydraulic Fracturing and Heat Conduction, Computers and Geotechnics, 2023, 156, 105259. ^[1] 

90. Li, S.; Lan, Y.; Huang, Y.; Chen, Y.; Su, Y.^*, A Universal Size Design Principle for Stretchable Inorganic Electronics to Work Consistently under Different Interface Conditions, Advanced Functional Materials, 2023, 33, 2210880. ^[1] 

89. Zhang, M.; Bao, C.; Hu, C.; Huang, Y.; Yang, Y.^*; Su, Y.^*, A Droplet-Based Triboelectric-Piezoelectric Hybridized Nanogenerator for Scavenging Mechanical Energy, Nano Energy, 2022, 104, 107992. ^[1] 

88. Li, S.; Li, R.; An, D.; Wang, Y.; Xu, X.; Xue, R.; Su, Y.^*, Bioinspired Staggered-Array Structure Design for Flexible Batteries, International Journal of Solids and Structures, 2022, 256, 111986. ^[1] 

87. Li, J.; Li, S.; Su, Y.^*, Stretchable Strain Sensors Based on Deterministic-Contact-Resistance Braided Structures with High Performance and Capability of Continuous Production, Advanced Functional Materials, 2022, 2208216. ^[1] 

86. Zhao, H.; Dagdeviren, C.; Liu, G.; Cao, P.; Wang, J.; Sha, B.;Wang, G.; Cui, J.; Su, Y.^*, A New Model Based on the In-Plane Deformation for the Conformal Piezoelectric Systems for Characterization of Soft Tissue Modulus, Extreme Mechanics Letters, 2022, 101801. ^[1] 

85. Li, S.; Xu, J.; Li, R.; Wang, Y.; Zhang, M.; Li, J.; Yin, S.; Liu, G.; Zhang, L.; Li, B.; Gu, Q.; Su, Y.^*, Stretchable Electronic Facial Masks for Sonophoresis, ACS Nano, 2022, 16(4): 5961-74. ^[1] 

84. Zhang, M.; Zhu, W.; Zhang, T.; Su, Y.^*; Yang, Y.^*; Lever-Inspired Triboelectric Nanogenerator with Ultra-High Output for Pulse Monitoring, Nano Energy, 2022, 97, 107159. ^[1] 

83. Zhao, H.; Su, Y.*, Buckling of Bulk Structures With Finite Prebuckling Deformation, Journal of Applied Mechanics-Transactions of the ASME, 2022, 89(5): 051006. ^[1] 

82. Li, S.; Liu, G.; Li, R.; Li, Q.; Zhao, Y.; Huang, M.; Zhang, M.; Yin, S.; Zhou, Y.; Tang, H.; Wang, L.; Fang, G.; Su, Y.*, Contact-Resistance-Free Stretchable Strain Sensors with High Repeatability and Linearity. ACS Nano, 2022, 16 (1), 541-553. ^[1] 

81.高子洋,師芳芳^*,張碧星,蘇業旺.卷積神經網絡的缺陷類型識別分析. Recognition and Analysis of Defect Typesby Convolutional Neural Network.Applied Acoustics, 2022, 1-13. ^[1] 

80.Qiu, Y.; Zhang, B.; Yang, J.^*; Gao, H.; Li, S.; Wang, L.; Wu, P.; Su, Y.; Zhao, Y.^*; Feng, J.^*; Jiang, L.; Wu, Y., Wafer-Scale Integration of Stretchable Semiconducting Polymer Microstructures Via Capillary Gradient. Nature Communications, 2021, 12 (1), 7038. ^[1] 

79. Li, Q.; Li, S.; Pisignano, D.; Persano, L.; Yang, Y.; Su, Y.^*, On the Evaluation of OutputVoltages for Quantifying the Performance of Pyroelectric Energy Harvesters. Nano Energy, 2021, 86, 106045. ^[1] 

78. Dang, F.; Yang, Z.; Yang, P.^*; Su, Y.; Liu, Y.^*, Exploring the Structure–Capacitance Relation of Graphene Film-Based Supercapacitor. Journal of Materials Science, 2021, 56 (3), 2506-2516. ^[1] 

77. 郭釔兵^*,張瀟,葉凡煒,平學成^*,蘇業旺.多股並聯蛇形導線無線充電線圈的力電特性分析及優化設計.Analysis and Optimization of Mechanical and Electrical Characteristics of Wireless Charging Coils with Multi-strand Serpentine Interconnect. Science Technology and Engineering,2020,20(25):10293-10300. ^[1] 

76. Gao, Y.^#; Guo, F.^#; Cao, P.; Liu, J.; Li, D.; Wu, J.; Wang, N.^*; Su, Y.^*; Zhao, Y.^*, Winding-Locked Carbon Nanotubes/Polymer Nanofibers Helical Yarn for Ultrastretchable Conductor and Strain Sensor. ACS Nano, 2020, 14 (3), 3442-3450. ^[1] 

75. Li, S.; Liu, G.; Wang, L.; Fang, G.; Su, Y.^*, Overlarge Gauge Factor Yields a Large Measuring Error for Resistive-Type Stretchable Strain Sensors. Advanced Electronic Materials, 2020, 6, 2000618. ^[1] 

74. Liu, G.; Sun, L.; Su, Y.^*, Scaling Effects in the Mechanical System of the Flexible Epidermal Electronics and the Human Skin. Journal of Applied Mechanics-Transactions of the ASME, 2020, 87(8), 1-17 ^[1] 

73. An, D.; Xu, D.; Ni, Z.; Su, Y.; Wang, B.; Li, R.^*, Finite Integral Transform Method for Analytical Solutions of Static Problems of Cylindrical Shell Panels. European Journal of Mechanics - A/Solids, 2020, 104033. ^[1] 

72. Li, M.; Chen, X.; Zhou, D.^*; Su, Y.^*, A Spectral Microplane Model for the Anisotropic Damage Behavior of Shales. Journal of Applied Mechanics-Transactions of the ASME, 2020, 87, 8: 081001. ^[1] 

71. 劉曰武, 高大鵬, 李奇, 萬義釗, 段文傑, 曾霞光, 李明耀, 蘇業旺, 範永波, 李世海, 魯曉兵, 周東, 陳偉民, 傅一欽, 姜春暉, 侯紹繼, 潘利生, 魏小林, 胡志明, 端祥剛, 高樹生, 沈瑞, 常進, 李曉雁, 柳佔立, 魏宇傑, 鄭哲敏. 頁岩氣開採中的若干力學前沿問題. Mechanical Frontiers in Shale-Gas Development, Advances in Mechanics, 2019, 49(1): 201901. ^[1] 

70. Gao, H.^#; Qiu, Y.^#; Feng, J.; Li, S.; Wang, H.; Zhao, Y.; Wei, X.; Jiang, X.^*; Su, Y.; Wu, Y.^*, Nano-Confined Crystallization of Organic Ultrathin Nanostructure Arrays with Programmable Geometries. Nature Communications, 2019, 103912. ^[1] 

69. Zhang, L.#; Jiang, X.#; Jiang, W.; Li, S.; Chi, Y.; Liu, H.; Zhang, M.; Li, J.; Fang, M.; Pan, B.; Chen, Y.; Shen, C.; Guo, X.; Li, R.*; Guo, L.*; Su, Y.*, Infrared Skin‐Like Active Stretchable Electronics Based on Organic–Inorganic Composite Structures for Promotion of Cutaneous Wound Healing. Advanced Materials Technologies, 2019, 1900150. ^[1] 

68. Jia, T.; Wang, Y.; Dou, Y.; Li, Y.; Jung de Andrade, M.; Wang, R.; Fang, S.; Li, J.; Yu, Z.; Qiao, R.; Liu, Z.; Cheng, Y.; Su, Y.; Minary-Jolandan, M.; Baughman, R.; Qian, D.; Liu, Z.*, Moisture Sensitive Smart Yarns and Textiles from Self‐Balanced Silk Fiber Muscles. Advanced Functional Materials, 2019, 1808241. ^[1] 

67. Yin S.; Su, Y.*, A Traction-Free Model for the Tensile Stiffness and Bending Stiffness of Laminated Ribbons of Flexible Electronics. Journal of Applied Mechanics-Transactions of the ASME, 2019, 86(5): 051011. ^[1] 

66. Su, Y.*; Zhao, H.; Liu, S.; Li, R.; Wang, Y.; Wang, Y.; Bian, J.; Huang, YA.*, Buckling of Beams With Finite Prebuckling Deformation. International Journal of Solids and Structures, 2019, 165, 148-159. ^[1] 

65. Liu, H.; Zhao, H.; Li, S.; Hu, J.; Zheng, X.; Li, R.*; Chen, Y.*; Su, Y.*, Adhesion-Free Thin-Film-Like Curvature Sensors Integrated on Flexible and Wearable Electronics for Monitoring Bending of Joints and Various Body Gestures. Advanced Materials Technologies, 2019, 4(2): 1800327. ^[1] 

64. Liu, H.; Xue, R.; Hu, J.; Ping, X.; Wu, H.; Huang, M.; Zhang, H.; Guo, X.; Li, R.*; Chen, Y.*; Su, Y.*, Systematic Study on the Mechanical and Electric Behaviors of the Nonbuckling Interconnect Design of Stretchable Electronics. Science China Physics, Mechanics & Astronomy, 2018, 61(11):114611. ^[1] 

63. Hu, J.; Li, R.*; Liu, Y.; Su, Y.*, An Overview of Healthcare Monitoring by Flexible Electronics. Science China Physics, Mechanics & Astronomy, 2018, 61, 094601. ^[1] 

62. Zhang, X.*; Lin, J.; Lu, X.; Liu, L.; Liu, C.; Li, M.; Su, Y., A Hypoplastic Model for Gas Hydrate-Bearing Sandy Sediments. International Journal For Numerical And Analytical Methods In Geomechanics, 2018, 42, 931-942. ^[1] 

61. Pan, R.; Yang, Y.; Wang, Y.; Li, S.; Liu, Z.; Su, Y.; Quan, B.; Li, Y.; Gu, C.*; Li, J.*, Nanocracking and Metallization Doubly Defined Large-Scale 3D Plasmonic Sub-10 nm-Gap Arrays as Extremely Sensitive SERS Substrates. Nanoscale, 2018, 10, 3171-3180. ^[1] 

60. Li, R.*; Wang, P.; Wang, B.; Zhao, C.; Su, Y.*, New Analytic Free Vibration Solutions of Rectangular Thick Plates With a Free Corner by the Symplectic Superposition Method. Journal of Vibration and Acoustics of the ASME, 2018, 140, 031016-1. ^[1] 

59. Chang, T.; Tanabe, Y.; Wojcik, C.; Barksdale, A.; Doshay, S.; Dong, Z.; Liu, H.; Zhang, M.; Chen, Y.; Su, Y.; Lee, T.; Ho, J.; Fan, J.*, A General Strategy for Stretchable Microwave Antenna Systems using Serpentine Mesh Layouts. Advanced Functional Materials, 2017, 27(46), 1703059. ^[1] 

58. Zhang, M.; Liu, H.; Cao, P.; Chen, B.; Hu, J.; Chen, Y.; Pan, B.; Fan, J.; Li, R.*; Zhang, L.*; Su, Y.*, Strain-Limiting Substrates Based on Nonbuckling, Prestrain-Free Mechanics for Robust Stretchable Electronics. Journal of Applied Mechanics-Transactions of the ASME, 2017, 84(12), 121010. ^[1] 

57. Huang, Y.; Ding, Y.; Bian, J.; Su, Y.; Zhou, J.; Duan, Y.*; Yin, Z.*, Hyper-Stretchable Self-Powered Sensors Based on Electrohydrodynamically Printed, Self-Similar Piezoelectric Nano/Microfibers. Nano Energy, 2017, 40, 432-439. ^[1] 

56. Zhao, L.; Hong, C.; Lin, L.; Wu, H.; Su, Y.; Zhang, X.; Liu, A.*, Controllable Nanoscale Engineering of Aligned MoS2 Ultrathin Nanosheets by Nitrogen Doping of 3D Grapheme Hydrogel for Inproved Electrocatalytic Hydrogen Evolution. Carbon, 2017, 116, 223-231. ^[1] 

55. Su, Y.*; Li, S.; Huan, Y.; Li, R.; Zhang, Z.; Joe ,P.; Dagdeviren, C.*, The Universal and Easy-To-Use Standard of Voltage Measurement for Quantifying the Performance of Piezoelectric Devices. Extreme Mechanics Letters, 2017, 15, 10-16. ^[1] 

54. Fan, Z.; Wu, J.*; Ma, Q.; Liu, Y.; Su, Y.; Hwang, K.*, Postbuckling Analysis of Curved Beams. Journal of Applied Mechanics-Transactions of the ASME, 2017, 84(3), 031007. ^[1] 

53. Li, S.; Liu, X.; Li, R.*; Su, Y.*, Shear Deformation Dominates in the Soft Adhesive Layers of the Laminated Structure of Flexible Electronics. International Journal of Solids and Structures, 2017, 110, 305-314. ^[1] 

52. Su, Y.; Ping, X.; Yu, K.; Lee, J.; Fan, J.; Wang, B.; Li, M.; Li, R.; Harburg, D.; Huang, Y.; Yu, C.; Mao, S.; Shim, J.; Yang, Q.; Lee, P.; Armonas, A.; Choi, K.; Yang, Y.; Paik, U.; Chang, T.; Dawidczyk, T.; Huang, Y.; Wang, S.*; Rogers, J.*, In-Plane Deformation Mechanics for Highly Stretchable Electronics. Advanced Materials, 2017, 1604989. ^[1] 

51. 李明耀, 賀甲元, 蘇業旺, 頁岩油氣水力壓裂的關鍵力學問題和數值計算方法. Mechanical Problems and Numerical Methods on Hydraulic Fracture in Shale. Science & Technology Review, 2016, 34(23), 32-42. ^[1] 

50. Chau, V.; Bazant, Z.*; Su, Y., Growth Model for Large Branched Three-Dimensional Hydraulic Crack System in Gas or Oil Shale. Philosophical transactions. Series A, Mathematical, physical, and engineering sciences, 2016, 374(2078). ^[1] 

49. Li, S.; Su, Y.*; Li, R.*, Splitting of the Neutral Mechanical Plane Depends on the Length of the Multi-Layer Structure of Flexible Electronics. Proceedings Of The Royal Society A-Mathematical Physical And Engineering Sciences, 2016, 472(2190), 20160087. ^[1] 

48. Su, Y.*; Liu, Z.; Xu, L., An Universal and Easy-to-Use Model for the Pressure of Arbitrary-Shape 3D Multifunctional Integumentary Cardiac Membranes. Advanced Healthcare Materials, 2016, 5, 8, 889-892. ^[1] 

47. Bai, Z.; Su, Y.*; Ji, B.*, Buckling Behaviors of Staggered Nanostructure of Biological Materials. Journal of Applied Mechanics-Transactions of the ASME, 2016, 83, 3, 031011. ^[1] 

46. Qiu, Y.; Zhang, Y.; Su, Y.; Cao, P.; Zhao, Y.*, Ultrasonic Nonlinearity Evaluation of the Cracked Interface. Mathematical Problems in Engineering, 2016, 5023127. ^[1] 

45. Li, R.*; Ye, H.; Zhang, W.; Ma, G.; Su, Y.*, An Analytic Model for Accurate Spring Constant Calibration of Rectangular Atomic Force Microscope Cantilevers. Scientific Reports, 2015, 5, 15828. ^[1] 

44. Kirane, K.; Su, Y.; Bazant, Z. P.*, Strain-Rate-Dependent Microplane Model for High-Rate Comminution of Concrete under Impact Based on Kinetic Energy Release Theory. Proceedings of the Royal Society a-Mathematical Physical and Engineering Sciences, 2015, 471(2182), 20150535. ^[1] 

43. Su, Y.*; Dagdeviren, C.*; Li, R., Measured Output Voltages of Piezoelectric Devices Depend on the Resistance of Voltmeter. Advanced Functional Materials, 2015, 25(33), 5320-5325. ^[1] 

42. Su, Y.*; Li, S; Li, R.; Dagdeviren, C.*, Splitting of Neutral Mechanical Plane of Conformal, Multilayer Piezoelectric Mechanical Energy Harvester. Applied Physics Letters, 2015, 107(4). ^[1] 

41. Dagdevirena, C.; Shi, Y.; Joe, P.; Ghaffari, R.; Balooch, G; Usgaonkar, K.; Gur, O.; Tran, P. L.; Crosby, J. R.; Meyer, M.; Su, Y.; Webb, C. R.; Tedesco, A. S.; Slepian, M. J., Huang, Y.; Rogers, J. A.*，Conformal Piezoelectric Systems for Clinical and Experimental Characterization of Soft Tissue Biomechanics. Nature Materials, 2015, 14, 728-736. ^[1] 

40. Su, Y.; Bazant, Z. P.*; Zhao, Y.; Salviato, M.; Kirane, K., Viscous Energy Dissipation of Kinetic Energy of Particles Comminuted by High-Rate Shearing in Projectile Penetration, with Potential Ramification to Gas Shale. International Journal of Fracture, 2015, 193(1):77–85. ^[1] 

39. Huang, Y.#*; Dong, W.#; Huang, T.; Wang, Y.; Xiao, L.; Su, Y.; Yin, Z.*, Self-Similar Design for Stretchable Wireless LC Strain Sensors. Sensors and Actuators A: Physical, 2015, 224, 36–42. ^[1] 

38. Bazant, Z. P.*; Su, Y.*, Impact Comminution of Solids Due to Progressive Crack Growth Driven by Kinetic Energy of High-Rate Shear. Journal of Applied Mechanics-Transactions of the ASME, 2015, 82, 031007. ^[1] 

37. Su, Y.#; Wang, S.#; Huang, Y.#; Luan, H.; Dong, W.; Fan, J. A.; Yang, Q.; Rogers, J. A.; Huang, Y.*, Elasticity of Fractal Inspired Interconnects. Small, 2015, 11(3), 367-373. ^[1] 

36. Hattori, Y.; Falgout, L.; Lee, W.; Jung, S.-Y.; Poon, E.; Lee, J.; Na, I..; Geisler, A.; Sadhwani, D.; Zhang, Y.; Su, Y.; Wang, X.; Liu, Z.; Xia, J.; Cheng, H.; Webb, R.; Bonifas A.; Won, P.; Jeong J.-W.; Jang, K.-I.; Song, Y.; Nardone, B.; Nodzenski, M.; Fan, J. A.; Huang, Y.; West, D. P.; Paller, A. S.; Alam, M.; Yeo, W.-H.*; Rogers, J. A.*, Multifunctional Skin-Like Electronics for Quantitative,Clinical Monitoring of Cutaneous Wound Healing. Advanced Healthcare Materials, 2014, 3(10), 1597-1607. ^[1] 

35. He, S.; Su, Y.*; Ji, B.*; Gao, H., Some Basic Questions on Mechanosensing in Cell-Substrate Interaction. Journal of the Mechanics and Physics of Solids, 2014, 70, 116-135. ^[1] 

34. Yu, C.; Li, Y.; Zhang, X.; Huang, X.; Malyarchuk, V.; Wang, S.; Shi, Y.; Gao, L.; Su, Y.; Zhang, Y.; Xu, H.; Huang, Y; Rogers, J. A.*, Adaptive Optoelectronic Camouflage Systems With Designs Inspired by Cephalopod Skins. Proceedings of the National Academy of Sciences of the United States of America, 2014, 111(36), 12998-13003. ^[1] 

33. Dagdeviren, C.#; Su, Y.#; Joe, P.; Yona, R.; Liu, Y.; Kim, Y.-S.; Huang, Y.; Damadoran1, A. R.; Xia, J.; Martin, L. W.; Huang, Y.*; Rogers, J. A.*, Conformable, Amplified Lead Zirconate Titanate Sensors with Enhanced Piezoelectric Response for Cutaneous Pressure Monitoring. Nature Communications, 2014, 5: 4496. ^[1] 

32. Hwang, S.-W.#; Park, G.#; Edwards, C.; Corbin, E. A.; Kang, S.-K.; Cheng, H.; Song, J.-K.; Kim, J.-H.; Yu, S.; Ng, J.; Lee, J.; Yee, C.; Bhaduri. B.; Su, Y.; Omennetto, F. G.; Huang, Y.; Bashir, R.; Goddard, L.; Popescu, G.; Lee, K.-M.*, Rogers, J. A.*, Dissolution Chemistry and Biocompatibility of Single-Crystalline Silicon Nanomembranes and Associated Materials for Transient Electronics. ACS Nano, 2014, 8(6), 5843-5851. ^[1] 

31. Su, Y.; Liu, Z.; Wang, S.; Ghaffari, R.; Kim, D.-H.; Hwang, K.-C.; Rogers, J. A. and Huang, Y.^*, Mechanics of Stretchable Electronics on Balloon Catheter under Extreme Deformation. International Journal of Solids and Structures, 2014, 51(7-8), 1555-1561. ^[1] 

----Many news agencies highlight our work on conformal mechanical energy harvesters for the heart, lung and diaphragm, published in Proceedings of the National Academy of Sciences USA: Popular Mechanics, CBS News, LA Times, BBC News, Chemical and Engineering News, New Scientist, Chemistry World and many others, January 21, 2014. ^[1] 

29. Yin, L.; Cheng, H.; Mao, S.; Haasch, R.; Liu, Y.; Xie, X.; Hwang, S.-W.; Jain, H.; Kang, S.; Su, Y.; Li, R.; Huang, Y. and Rogers, J. A.*, Dissolvable Metals forTransient Electronics. Advanced Functional Materials, 2014, 24(5), 645-658. ^[1] 

----Many news agencies highlight our work on 3D electronic membranes for the heart, published in Nature Communications: NPR, ABC News, CNN, Smithsonian, National Geographic, MIT's Technology Review, New Scientist, Medical Daily, The Scientist and many others, February 28, 2014. ^[1] 

　　"Patterns Make Circuits Stretchy" Editors at Nature highlight our work on fractal motifs for stretchable electronics, originally published in Nature Communications” Nature, February, 2014. ^[1] 

26. Jeong, J.-W.#; Yeo, W.-H.#; Akhtar, A.; Norton, J.; Kwack, Y.-J.; Li, S., Jung, S.-Y.; Su, Y.; Lee, W.; Xia, J.; Cheng, H.; Huang, Y.; Choi, W.-S.; Bretl, T. W. and Rogers, J. A.*, Materials and Optimized Designs for Human-Machine Interfaces Via Epidermal Electronics. Advanced Materials, 2013, 25(47), 6839-6846. ^[1] 

25. Zhang, Y.#; Fu, H.#; Su, Y.; Xu, S.; Cheng, H.; Fan, J.A.; Hwang, K.-C.; Rogers, J.A.*; Huang, Y.*, Mechanics of Ultra-Stretchable Self-Similar Serpentine Interconnects. Acta Materialia, 2013, 61, (20), 7816–7827. ^[1] 

24. Li, M.#; Xia, J.#; Li, R.; Kang, Z.*; Su, Y.*, Design of Two-Dimensional Horseshoe Layout for Stretchable Electronic Systems. Journal of Materials Science, 2013, 48, (24), 8443-8448. ^[1] 

23. Su, Y.^#; Li, R.^#; Cheng, H.; Ying, M.; Bonifas, A. P.; Hwang, K.-C.; Rogers, J. A.^* and Huang, Y.^*, Mechanics of Finger-Tip Electronics. Journal of Applied Physics, 2013, 114, 164511. ^[1] 

22. Dagdeviren, C.^#; Hwang, S.-W.^#; Su, Y.; Kim, S.; Cheng, H.; Gur, O.; Haney, R.; Omenetto, F. G.; Huang, Y.; Rogers, J. A.^*, Transient, Biocompatible Electronics and Energy Harvesters Based on ZnO. Small, 2013, 9(20), 3398-3404. ^[1] 

21. Chen, C.; Tao, W.; Su, Y.; Wu, J.; and Song, J.^*, Lateral Buckling of Interconnects in a Non-coplanar Mesh Design for Stretchable Electronics. Journal of Applied Mechanics-Transactions of the ASME, 2013, 80, 4: 041031. ^[1] 

20. Li, R.^#; Cheng, H.^#; Su, Y.^#; Hwang, S.-W.; Yin, L.; Tao, H.; Brenckle, M. A.; Kim, D. H.; Omenetto, F. G.; Rogers, J. A.^*; Huang, Y. G.^*, An Analytical Model of Reactive Diffusion for Transient Electronics. Advanced Functional Materials, 2013, 23 (24), 3106-3114. ^[1] 

19. Yu, C.; Duan, Z.; Yuan, P.; Li, Y.; Su, Y.; Zhang, X.; Pan, Y.; Dai, L.; Nuzzo, R.; Huang, Y.; Jiang, H.^*; Rogers, J. A.^*, Electronically Programmable, Reversible Shape Change in Two- and Three-Dimensional Hydrogel Structures. Advanced Materials, 2013, 25, (11), 1541-1546. ^[1] 

18. Persano, L.^#; Dagdeviren, C.^#; Su, Y.^#; Zhang, Y.; Girardo, S.; Pisignano, D.; Huang, Y.; Rogers, J. A., High Performance Piezoelectric Devices Based on Aligned Arrays of Nanofibers of Poly(Vinylidenefluoride-Co-Trifluoroethylene). Nature Communications, 2013, 4: 1633. ^[1] 

17. Pan, B.; Li, R.^*; Su, Y.; Wang, B.; Zhong, Y., Analytical Bending Solutions of Clamped Rectangular Thin Plates Resting on Elastic Foundations by the Symplectic Superposition Method. Applied Mathematics Letters, 2013, 26(3), 355-361. ^[1] 

----Many news agencies highlight our work on stretchable, rechargable lithium ion batteries, published in Nature Communications: Popular Science, CBS News, NBC News, BBC News, PC Magazine and many others, February 28, 2013. ^[1] 

15. Li, R.^*; Li, M.; Su, Y.^*; Song, J.; Ni, X., An Analytical Mechanics Model for the Island-Bridge Structure of Stretchable Electronics. Soft Matter, 2013, 9, 8476-8482. ^[1] 

14. Kim, D.-H.^#; Ghaffari, R.^#; Lu, N.^#; Wang, S.^#; Lee, S.; Keum, H.; D'Angelo, R.; Klinker, L.; Su, Y.; Lu, C.; Kim, Y.; Ameen, A.; Li, Y.; Zhang, Y.; de Graff, B.; Hsu, Y.; Liu, Z.; Ruskin, J.; Xu, L.; Lu, C.; Omenetto, F.; Huang, Y.; Mansour, M.; Slepian, M.; Rogers, J. A.^*, Electronic Sensor and Actuator Webs for Large-Area Complex Geometry Cardiac Mapping and Therapy. Proceedings of the National Academy of Sciences of the United States of America, 2012, 109(49), 19910-19915. ^[1] 

13. Su, Y.; Liu, Z.; Kim, S.; Wu, J.; Huang, Y.^*; Rogers, J. A.^*, Mechanics of Stretchable Electronics with High Fill Factors. International Journal of Solids and Structures, 2012, 49(23-24), 3416-3421. ^[1] 

12. Su, Y.^*; He, S.; Hwang, K.; Ji, B. H.^*, Why Have Not the Hairs on the Feet of Gecko Been Smaller? Applied Physics Letters, 2012, 101, (17). ^[1] 

11. Su, Y.; Ji, B.^*; Hwang, K.; Huang, Y.^*, Micro-Buckling in the Nanocomposite Structure of Biological Materials. Journal of the Mechanics and Physics of Solids, 2012, 60(10), 1771-1790. ^[1] 

  ----Work on 'transient' electronics appears in ＞1000 print, web, radio and television news stories, worldwide, following its publication in Science on Sep. 28th, 2012. ^[1] 

  ----Many news agencies highlight our work on fingertip electronics: Wall Street Journal, Nanowerk, Science Daily, New Scientist, Innovation News Daily, Science NOW and many others August 2012. ^[1] 

8. Wang, S.; Li, M.; Wu, J.; Kim, D.-H.; Lu, N.; Su, Y.; Kang, Z.; Huang, Y.^*; Rogers, J. A.^*, Mechanics of Epidermal Electronics. Journal of Applied Mechanics-Transactions of the ASME, 2012, 79, 031022. ^[1] 

7. Kim, S.; Su, Y.; Mihi, A.; Lee, S.; Liu, Z.; Bhandakkar, T. K.; Wu, J.; Geddes, J. B.; Johnson, H. T.; Zhang, Y. W.; Park, J. K.; Braun, P. V.; Huang, Y. G.; Rogers, J. A.^*, Imbricate Scales as a Design Construct for Microsystem Technologies. Small, 2012, 8(6), 901-906. ^[1] 

6. Su, Y.^#; Wu, J.^#; Fan, Z.; Hwang, K.^*; Song, J.; Huang, Y.^*; Rogers, J. A., Postbuckling Analysis and Its Application to Stretchable Electronics. Journal of the Mechanics and Physics of Solids, 2012, 60(3), 487-508. ^[1] 

5. Su, Y.; He, S.; Ji, B.^*; Huang, Y.^*; Hwang, K., More Evidence of the Crucial Roles of Surface Superhydrophobicity in Free and Safe Maneuver of Water Strider. Applied Physics Letters, 2011, 99(26), 263704. ^[1] 

4. Su, Y.; Ji, B.^*; Huang, Y.^*; Hwang, K., Nature's Design of Hierarchical Superhydrophobic Surfaces of a Water Strider for Low Adhesion and Low-Energy Dissipation. Langmuir, 2010, 26 (24), 18926-18937. ^[1] 

3. Su, Y.; Ji, B.^*; Zhang, K.; Gao, H.; Huang, Y.^*; Hwang, K., Nano to Micro Structural Hierarchy Is Crucial for Stable Superhydrophobic and Water-Repellent Surfaces. Langmuir, 2010, 26 (7), 4984-4989. ^[1] 

2. Su, Y.; Ji, B.^*; Huang, Y.^*; Hwang, K., Concave Biological Surfaces for Strong Wet Adhesion. Acta Mechanica Solida Sinica, 2009, 22(6), 593-604. ^[1] 

1. Su, Y.; Ji, B.^*; Huang, Y.^*; Hwang, K., Effects of Contact Shape on Biological Wet Adhesion. Journal of Materials Science, 2007, 42, (21), 8885-8893. ^[1] 

3. Huang, YA.; Su, Y.; Jiang, S., Flexible Electronics: Theory and Method of Structural Design, Springer Nature, Gateway East, Singapore, 2023. ^[1] 

2. Duan, Y.; Ding, Y., Wang, Y., Su, Y.^*, Huang, YA.^*, “Flexible/Stretchable Piezoelectric Nanofiber Devices,” in Flexible and Wearable Electronics : Design and Fabrication Techniques (ed. Haider K Raad), United Scholars Publications, Anaheim, USA, 2016. ^[1] 

1. Su, Y.; Wu, J.; Fan, Z.; Hwang, K.-C.; Huang, Y.^*; Roger J.A., “Mechanics of Twistable Electronics,” in Stretchable Electronics (ed. Takao Someya), Wiley-Vch, Weinheim, Germany, pp 31-39, 2013. ^[1] 

21. 蘇業旺；李爽. 一種可拉伸超聲輔助面膜及其製備方法：中國，CN201710280094.6 申請日：2017.04.26；授權日：2024.03.29. ^[1] 

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14. 蘇業旺；周聯巧；李爽. 一種具有高靈敏度的多層結構應變傳感器：中國，CN202111194918.0 申請日：2021.10.14；授權日：2022.11.15. ^[1] 

13. 蘇業旺；李居曜. 一種編制可拉伸導線及其製備方法：中國，CN202111085406.0 申請日：2021.09.16；授權日：2022.09.30. ^[1] 

12. 蘇業旺；李爽. 一種電阻式應變傳感器及應變測量方法：中國，CN201910223791.7 申請日：2019.03.22；授權日：2021.01.29. ^[1] 

11. 蘇業旺；李爽. 一種雙面電阻式應變傳感器及應變測量方法：中國，CN201910222833.5 申請日：2019.03.22；授權日：2021.01.01. ^[1] 

10. 蘇業旺；李爽；劉國棟. 一種電阻式應變片：中國，CN201910264171.8 申請日：2019.04.03；授權日：2020.06.30. ^[1] 

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4. 蘇業旺；李爽. 一種可延展的噴墨打印柔性電路板及其製備方法：中國，CN201611020969.0 申請日：2016.11.15；授權日：2019.02.05. ^[1] 

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15. 蘇業旺； 徐新凱；閆麗；左勇魁；鄧柳健；張春柯；張朋；孫耀民；宋振宇. 一種超聲刀夾緊力測試裝置及其測試系統：中國，CN202320188269.1 申請日： 2023.02.13；授權日：2023.11.07. ^[1] 

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10. 蘇業旺；趙宏宇. 一種可拉伸的射頻除皺面膜：中國，CN201820133067.6 申請日：2018.01.26；授權日：2019.02.05. ^[1] 

9. 蘇業旺；李爽. 一種電阻式應變傳感器：中國，CN201820842431.6 申請日：2018.06.01；授權日：2018.12.11. ^[1] 

8. 蘇業旺；張麗娟. 一種紅外線創可貼：中國，CN201720444718.9 申請日：2017.04.26；授權日：2018.11.30. ^[1] 

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6. 蘇業旺；李爽. 一種可拉伸超聲輔助面膜：中國，CN201720450661.3 申請日：2017.04.26；授權日：2018.08.28. ^[1] 

5. 蘇業旺；張麗娟. 一種可拉伸LED面膜：中國，CN201720444667.X 申請日：2017.04.26；授權日：2018.06.19. ^[1] 

4. 蘇業旺；張麗娟. 一種可拉伸柔性紅外治療儀：中國，CN201720444595.9 申請日：2017.04.26；授權日：2018.06.19. ^[1] 

3. 蘇業旺. 一種面膜：中國，CN201720450671.7 申請日：2017.04.26；授權日：2018.05.11. ^[1] 

2. 蘇業旺；尹世珍. 一種柔性可拉伸的氣壓傳感器陣列：中國，CN201720450771.X 申請日：2017.04.26；授權日：2017.12.29. ^[1] 

1. 蘇業旺；張晗；尹世珍；李爽. 一種可拉伸超聲換能器陣列：中國，CN201720450764.X 申請日：2017.04.26；授權日：2017.12.01. ^[1]