博士，温州医科大学康复医学院学术骨干，H指数11。曾任中国台湾慈济大学(原慈济科技大学)助理教授(Assistant Professor)、中国台湾台北医学大学医学院博士后、7年中国台湾康复医学临床背景，以及5年康复(机器人)与脑机接口医疗器械公司医学总监。

过去于中国台湾台北医学大学 生物化学暨细胞分子生物学科进行组织再生医学、蛋白质、基因、细胞、癌症与康复多元相关应用研究，博后期间，研发带负电荷及抑制发炎反应的小分子团水(又名电浆活化水)制备技术，并对其特性研究与机制探讨有深入的结果与应用，将小分子团水进一步应用于医学领域(如神经系统疾病、癌症、发炎及慢性代谢导致的相关疾病)与能源保存多方向应用领域，此相关的研究成果共计29篇SCI期刊发表，以第一/共同第一作者身份发表Nanoscale、Sensors & Actuators: B. Chemical及Chemical Engineering Journal等国际权威期刊，其IF分别为8.307、8.4及15.1，共计14篇。

专业研究方向：

纳米科技于疼痛康复疗法与智能康复系统于运动障碍精准调控的跨域应用探索

所获成果：

专利成果-

1. 一种基于脑电信号监测和训练肌肉张力的系统及其方法，中国，20200728

2. 一种睡眠分期方法、计算机可读存储介质及程序产品；中国；20210716

3. 一种多功能理疗仪、多功能理疗系统及控制方法；中国；20210413

4. 一种基于脑电信号监测和训练肌肉张力的系统；中国；20210302

学术人才评定

1. 西安市地区优秀人才 (D类人才)

2. 温州医科大学学术骨干 (D类人才)

代表性文章：

1. Shih-Hao Yu, Chih-Ping Yang (co-first author), Fu-Der Mai, Hui-Yen Tsai, Yu-Chuan Liu. Catalyzed electrochemical reactions utilizing active condensed water of plasmon-activated water. Nanoscale, 2023, 15, 3919–3930. (影响因子IF =8.307) (分区：Q1 / Chemistry, Multidisciplinary)

2.Chih-Ping Yang, Wei-Yu Kao, Shih-Hao Yu, Fu-Der Mai, Hui-Yen Tsai, Jing-Wei Chen, Yu-Chuan Liu. Environmental-friendly etchant of in situ plasmon-activated water for improvement of SERS sensing on pesticides. Sensors & Actuators: B. Chemical, 2023, 374, 132798. (影响因子IF = 8.4) (分区：Q1 / Chemistry, Analytical)

3. Chih-Ping Yang, Shih-Hao Yu, Yu-Chuan Liu. Green and sustainable applications of energetic plasmon-activated water. Journal of Industrial and Engineering Chemistry, 2022, 111, 18-34. (影响因子IF = 6.1) (分区：Q1 / Chemical Engineering)

4. Ting-Yi Renn, Chih-Ping Yang (co-first author), Un-In Wu, Li-You Chen, Fu-Der Mai, Maria A. Tikhonova, Tamara G. Amstislavskaya, Wen-Chieh Liao, Che-Tong Lin, Yu-Chuan Liu, Hung-Ming Chang. Water composed of reduced hydrogen bonds activated by localized surface plasmon resonance effectively enhances anti-viral and anti-oxidative activities of melatonin. Chemical Engineering Journal, 2022, 427, 131626. (影响因子IF = 15.1) (分区：Q1 / Chemical Engineering)

5. Chih-Ping Yang, Shih-Hao Yu, Fu-Der Mai, Tai-Chih Kuo, Yu-Chuan Liu. New solar energy-storage resource of plasmon-activated water solution with higher chemical potential. Sci. Rep., 2020, 10(1), 20868. (影响因子IF = 4.996) (分区：Q1 / Multidisciplinary)

6. Chih Ping Yang, Sheng Uei Fang, Hui Yen Tsai, Jing Wei Chen, Yu Chuan Liu. Newly prepared surface-enhanced Raman scattering-active substrates for sensing pesticides. Journal of Electroanalytical Chemistry, 2020, 861, 113965. (影响因子IF =4.5) (分区：Q1 / Chemical Engineering))

7. Chih-Ping Yang, Hui-Yen Tsai, Ching-Li Tseng, Pei-Jun Hao, and Yu-Chuan Liu. Strategy on Persisting in Distinct Activity of Plasmon-Activated Water. ACS Omega, 2019, 4, 25, 21197–21203. (影响因子IF = 4.1) (分区：Q2 / Chemical Engineering)

8. Chih-Ping Yang, Chien-Tai Hong, Fu-Der Mai, Hui-Yen Tsai, Yu-Chuan Liu. Increasing electrochemical reaction rates using treated water with reduced hydrogen bonds. Journal of Electroanalytical Chemistry., 2019, 839, 116-122. (影响因子IF =4.5) (分区：Q1 / Chemical Engineering)

9. Hsiao-Chien Chen,Chih-Ping Yang (co-first author), Chien-Tai Hong, Chun-Tsung Hsu, Chi-Chang Hu, and Yu-Chuan Liu. Potential of Plasmon-Activated Water as a Comprehensive Active Green Energy Resource. ACS Omega., 2019, 4, 5, 8007–8014. (影响因子IF = 4.1) (分区：Q2 / Chemical Engineering)

10. Chih-Ping Yang, Yi-Hao Wu, Hui-Yen Tsai, Jen-Chang Yang, Yu-Chuan Liu. Plasmon-Activated Water can Prolong Existing Sea-Ice Habitats to Potentially Save Polar Bears. Sci. Rep., 2019, 9(1), 10398. (影响因子IF = 4.996) (分区：Q1 / Multidisciplinary)

11. Chih-Ping Yang, Sheng-Uei Fang, Kuang-Hsuan Yang, Hsiao-Chien Chen, Hui-Yen Tsai, Fu-Der Mai, and Yu-Chuan Liu. Surface-Enhanced Raman Scattering-Active Substrate Prepared with New Plasmon-Activated Water. ACS Omega., 2018, 3, 5, 4743–4751. (影响因子IF = 4.1) (分区：Q2 / Chemical Engineering)

12. Chih-Ping Yang, Sheng-Uei Fang, Kuang-Hsuan Yang, Hui-Yen Tsai, Yu-Chuan Liu. Effectively reducing reagent concentrations for electrochemical reactions in aqueous solutions using plasmon-activated water. Journal of Electroanalytical Chemistry., 2018, 818, 44-50. (影响因子IF =4.5) (分区：Q1 / Chemical Engineering)

13. Chih-Ping Yang and Yu-Chuan Liu. Therapeutics for inflammatory-related diseases based on plasmon-activated water: A review. Int. J. Mol. Sci., 2018, 19(6), 1589. (影响因子IF=5.6) (分区：Q2 / Molecular Biology)

14. Chih-Ping Yang, Hsiao-Chien Chen, Ching-Chiung Wang, Po-Wei Tsai, Chia-Wen Ho, Yu-Chuan Liu. Effective energy transfer via plasmon-activated high-energy water promotes its fundamental activities of solubility, ionic conductivity, and extraction at room temperature. Sci. Rep., 2015, 5, 18152. (影响因子IF =4.996) (分区：Q1 / Multidisciplinary)