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Update 2024/3/5
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Summary
# Journals (from 2013)
-------------------------------------------------------
7 Adv. Mater. (IF=32.09)
1 Adv. Energy Mater. (IF=29.70)
10 Adv. Funct. Mater. (IF=19.92)
1 Matter (IF=19.97)
14 Nano Energy (IF=19.07)
5 ACS Nano (IF=18.03)
2 Nature Communications (IF=17.69)
2 Adv. Sci. (IF=17.52)
1 Small (IF=15.15)
1 Chemical Engineering Journal (IF=16.74)
--------------------------------------------------------
1 ACS Catalysis (IF=13.7)
1 NPG Asia Mater. (IF=10.76)
3 ACS Appl. Mater. Inter. (IF=10.38)
--------------------------------------------------------
1 Adv. Mater. Technol. (IF=8.86)
2 J. Mater. Chem. C (IF=8.07)
--------------------------------------------------------
2 Book Chapter 5 國內期刊
# From 2013 to present
* 總篇數 Total= 52 (國際期刊)
Ave. IF=19.48 (IF>10 , 49篇)
*Corresponding & 1st author
(after join NCHU (201608 - present)
# Journals
-------------------------------------------------------
2 Adv. Mater. (IF=32.09)
1 Adv. Energy Mater. (IF=29.70)
6 Adv. Funct. Mater. (IF=19.92)
1 Matter (IF=19.97)
12 Nano Energy (IF=19.07)
2 ACS Nano (IF=18.03)
2 Nature Communications (IF=17.69)
2 Adv. Sci. (IF=17.52)
--------------------------------------------------------
2 Book Chapter 4 國內期刊
* 自2016/08入職,
共發表28篇通訊、第一作者文章;
IF 皆>17,平均影響因子20.4 *
# 自入職後起算
After 201608 join NCHU to present
* 總篇數 Total= 42篇 (國際期刊)
Ave. IF=20.1 (全數發表IF>10 )
* 通訊、第一作者總篇數 Total= 27篇
Ave. IF=20.4 ( 27篇 IF皆>17 )
2024
59. Large-Area, Untethered, Metamorphic, and Omnidirectionally-Stretchable Multiplexing Self-Powered Triboelectric Skins, Beibei Shao,# Ming-Han Lu#, Tai-Chen Wu, Wei-Chen Peng, Tien-Yu Ko, Yung-Chi Hsiao, Jiann-Yeu Chen, Baoquan Sun*, Ruiyuan Liu*, Ying-Chih Lai*, Nature Communications, 2024, 15:1238. (Editors’ Highlights in "Device") (IF=17.69)
2024
Domestic News
1. 公視新聞網-興大研發觸覺面板結合義肢 截肢環者有望感受到觸覺(影音) 20240229
2. 台視新聞網-面板可變形、自發電 有望實現”機器人皮膚”(影音) 20240229
3. 華視新聞-機器人皮膚雛形 變形觸碰面板.按手臂可「打電話」(影音) 20240229
4. 新唐人亞太台-興大研發自發電觸覺面板 有望實現機器人皮膚 (影音) 20240229
5. 自由時報-實現機器人觸覺皮膚 興大研發自發電、變形觸碰面板 頭版報導
6. 中央廣播電台-實現機器人觸覺皮膚 興大研發自發電、變形觸碰面板20240229
7. 中時新聞網1 科技-興大研發自發電、可變形觸覺面板 機器人皮膚將成真 20240229
8. 中時新聞網2 工商-興大研發自發電、可隨意變形的觸碰面板 有望實現機器人皮膚20240229
9. 中時新聞網3 台中-機器人有皮膚 興大研發觸覺面板20240229
10. 工商時報-興大研發自發電、可隨意變形的觸碰面板 有望實現機器人皮膚
11. 中央社-興大研發自發電變形觸覺面板 可應用機器人皮膚 20240229
12. yahoo新聞1 -興大研發自發電可變形觸碰面板 有望實現機器人皮膚 20240229
13. yahoo新聞2 -機器人有皮膚 興大研發觸覺面板 20240229
14. 國立教育廣播電台-興大研發自發電可變形觸碰面板 有望實現機器人皮膚 20240229
15. 台灣好新聞-興大研發自發電、可隨意變形的觸碰面板 有望實驗機器人皮膚 20240229
16. 國語日報-興大創可變形觸覺面板 可望作機器人皮膚 20240229
17. 大成報-興大研發最新觸碰面板 有望實現機器人皮膚 20240229
18. 青年日報-興大研發自發電、可變形觸覺面板 可應用機器人皮膚 20240229
19. 聯合新聞網-興大研發自發電、可變形觸覺面板 可應用機器人皮膚 20240229
20. 人間福報-有望實現機器人皮膚 興大研發可隨意變形觸碰面板 20240229
21. 中華新聞雲-興大研發觸覺面板 登國際期刊 20240229
2023
2023
58. Breathable and Stretchable Multifunctional Triboelectric Liquid-Metal E-Skin for Recovering Electromagnetic Pollution, Extracting Biomechanical Energy, and as Whole-Body Epidermal Self-Powered Sensors, Ying-Chih Lai*, Sreekanth Ginnaram, Shu-Ping Lin, Fang-Chi Hsu, Tzu-Ching Lu, Ming-Han Lu, Advanced Functional Materials, 2023, 2312443. (IF=19.924)
This article was also selected in: Hot Topic: Wearable Sensors
This article was also selected in: Hot Topic: Flexible Electronics
57. MXene-composite-enabled Ultra-long-distance-detection and Highly-sensitive Self-powered Noncontact Triboelectric Sensors and Their Applications in Intelligent Vehicle Perception, Cong Zhao#, Zhaoyang Wang#, Yawei Wang#, Zian Qian, Zheng Tan, Qingyu Chen, Minyi Xu*, Ying-Chih Lai*, Advanced Functional Materials, 2023, 2306381. (IF=19.924)
This article was also selected in: Hot Topic: Wearable Sensors
News Highlight in Advanced Science News : Self-powered nanosensor to transform vehicle safety
International News
1. Advanced Science News : Self-powered nanosensor to transform vehicle safety
Domestic News
1. 工商時報 - 興大研發新型電動車自驅動感測器 登國際頂尖期刊獲國際媒體報導 20231103
2. 中時新聞網 - 興大研發新型電動車自驅動感測器 登國際頂尖期刊報導 20231103
3. Yahoo新聞 - 興大研發新型電動車自驅動感測器 登國際頂尖期刊 20231103
4. 自由時報 - 興大研發新型電動車自驅動感測器 登國際頂尖期刊 20231103
5. 國立教育廣播電臺 - 興大研發新型電動車感測器 登國際頂尖期刊 20231103
6. yam新聞 - 中興大學研發新型電動車自驅動感測器 登國際頂尖期刊獲肯定 20231103
7. 大學報 - 興大研發自驅動感測器 實現電動車低耗高效理想 20231115
56. Fluoro-Based Organic Small Molecules as Sliding Crosslinkers for Boosting Stretchability and Self-Healability of Polymers for Hybrid Human Motion Sensing and Energy Harvesting, Yi-An Chen#, Szu-Jou Chen#, Li-Yen Lee, Chun-Ming Yeh, Rou-Han Lai, Jhao-Yu Lai, Ying-Chih Lai*, Ho-Hsiu Chou* , Nano Energy, 2023, 117, 108882. (IF=19.069) (Selected as Cover story)
55. Recent Advancesin Triboelectric Nanogenerators : From Technological Progress to Commercial Applications, Dongwhi Choi, Younghoon Lee, Zong-Hong Lin, Sumin Cho, Miso Kim, Chi Kit Ao, Siowling Soh, Changwan Sohn, Chang Kyu Jeong, Jeongwan Lee, Minbaek Lee, Seungah Lee, Jungho Ryu, Parag Parashar, Yujang Cho, Jaewan Ahn, Il-Doo Kim, Feng Jiang, Pooi See Lee, Gaurav Khandelwal, Sang-Jae Kim, Hyun Soo Kim, Hyun-Cheol Song, Minje Kim, Junghyo Nah, Wook Kim, Habtamu Gebeyehu Menge, Yong Tae Park, Wei Xu, Jianhua Hao, Hyosik Park, Ju-Hyuck Lee, Dong-Min Lee, Sang-Woo Kim, Ji Young Park, Haixia Zhang, Yunlong Zi, Ru Guo, Jia Cheng, Ze Yang, Yannan Xie, Sangmin Lee, Jihoon Chung, Il-Kwon Oh, Ji-Seok Kim, Tinghai Cheng, Qi Gao, Gang Cheng, Guangqin Gu, Minseob Shim, Jeehoon Jung, Changwoo Yun, Chi Zhang, Guoxu Liu, Yufeng Chen, Suhan Kim, Xiangyu Chen, Jun Hu, Xiong Pu, Zi Hao Guo, Xudong Wang, Jun Chen, Xiao Xiao, Xing Xie, Mourin Jarin, Hulin Zhang, Ying-Chih Lai, Tianyiyi He, Hakjeong Kim, Inkyu Park, Junseong Ahn, Nghia Dinh Huynh, Ya Yang, Zhong Lin Wang*, Jeong Min Baik*, and Dukhyun Choi*, ACS Nano, 2023, 17, 12, 11087–11219. (IF=18.027)
54. Surface-Enhanced Fully Nanofiber-Based Self-Cleanable Ultraviolet Resistive Triboelectric Energy Harvester for Wearable Smart Garments, Manikandan Venkatesan, Jayashree Chandrasekar, Fang-Cheng Liang, Wei-Chun Lin, Wei-Cheng Chen, Chia-Jung Cho, Yi-Ting Chen, Wen-Ya Lee, Chaochin Su, Ye Zhou, Ying-Chih Lai*, Chi-Ching Kuo*, Nano Energy, 2023, 108556. (IF=19.069)
53. [Book Chapter] Ying-Chih Lai*, Ruiyuan Liu*, Minyi Xu*, Cong Zhao, Triboelectric Nanogenerators for Electronic and Robotic Skins, in Handbook of Triboelectric Nanogenerators (Editors:Zhong Lin Wang, Ya Yang, Junyi Zhai, Jie Wang), Cham Springer, 2023, Jan, 25. (DOI:https://doi.org/10.1007/978-3-031-05722-9_53-1).
52. A guided-liquid-based hybrid triboelectric nanogenerator for omnidirectional and high-performance ocean wave energy harvesting, Qingyue Xu, Chenjing Shang, Haoxiang Ma, Quan Hong, Changzheng Li, Su Ding, Liang Xue, Xin Sun, Yuanchao Pan, Tohru Sugahara, Yaxiaer Yalikun, Ying-Chih Lai*, Yang Yang*, Nano Energy, 2023, 109, 108240. (IF=19.069)
51. Biodegradable, conductive, moisture-proof, and dielectric enhanced cellulose-based triboelectric nanogenerator for self-powered human-machine interface sensing, Zixun Wang, Chen Chen, Lin Fang, Bao Cao, Xinbo Tu, Renyun Zhang, Kai Dong*, Ying-Chih Lai*, Peihong Wang*, Nano Energy, 2023, 107, 108151. (IF=19.069)
2022
2022
50. An Environmental-inert and Highly Self-healable Elastomer Obtained via Doubleterminal Aromatic Disulfide Design and Zwitterionic Crosslinked Network for Use as a Triboelectric Nanogenerator, Syun-Hong Chou, Hong-Wei Lu, Ta-Chung Liu, Yi-Ting Chen, Yen-Lin Fu, Yung-Hsin Shieh, Ying-Chih Lai*, San-Yuan Chen*, Advanced Science, 2023, 202202815 (IF=17.521)
49. Filling the gap between topological insulator nanomaterials and triboelectric nanogenerators, Mengjiao Li,# Hong-Wei Lu,# Shu-Wei Wang, Rei-Ping Li, Jiann-Yeu Chen, Wen-Shuo Chuang, Feng-Shou Yang, Yen-Fu Lin*, Chih-Yen Chen*, Ying-Chih Lai*, Nature Communications, 2022, 13: 938. (Editors’ Highlights) (IF=17.694)
News
1. 自由時報 - 興大開創拓撲絕緣體新應用領域 論文登國際頂尖期刊 20220318
2. 聯合報 - 興大開發拓撲絕緣體新應用 研究登上國際期刊 20220318
3. 經濟日報 - 拓撲材料 興大發現能源、感測新材料 登頂尖期刊 20220318
4. 奇摩新聞 - 興大開發拓撲絕緣體新應用 研究登上國際期刊 20220318
5. 中央社 - 興大開發拓撲絕緣體新應用 研究登上國際期刊 20220318
6. 中廣新聞網 - 拓撲絕緣體新應用 興大研究登頂尖期刊 20220317
7. Line 新聞 - 拓撲絕緣體新應用 興大研究登頂尖期刊 20220318
8. 國立教育廣播電臺 - 拓撲材料新應用 興大發現能源及感測新材料登頂尖期刊 20220318
9. 科學推展中心 - 新興材料與物聯網(IOT)的距離—拓樸絕緣體碲化鉍(BI2TE3)的應用 20220422
10. Newtalk 新聞 – 興大開發拓撲絕緣體新應用 研究登上國際期刊 20220318
11. 興新聞 - 拓撲材料新應用!興大發現能源、感測新材料 登頂尖期刊 20220318
48. A Tube-Shaped Solid–Liquid-Interfaced Triboelectric–Electromagnetic Hybrid Nanogenerator for Efficient Ocean Wave Energy Harvesting, Xin Sun‡, Chenjing Shang‡, Haoxiang Ma, Changzheng Li, Liang Xue*, Qingyue Xu, Zihong Wei, Wanli Li*, Yaxiaer Yalikun, Ying-Chih Lai,* Yang Yang*, Nano Energy, 2022, 100, 107540 (IF=19.069) (Selected as front cover)
47. Highly radiation-tolerant polymer field-effect transistors with polystyrene dielectric layer, Wenwu Li*, Fanming Huang, Caifang Gao, Yabin Sun, Xiaojun Guo, Yi-Ting Chen, Junha Chu, Ying-Chih Lai*, Nano Energy, 2022, 100, 107452 (IF=19.069)
46. Breaking the Relation between Activity and Stability of the Oxygen-Evolution Reaction by Highly Doping Ru in Wide-Band-Gap SrTiO3 as Electrocatalyst, Heng-Jui Liu*, Ching-Yu Chiang*, Yun-Sheng Wu, Li-Ren Lin, Yi-Chen Ye, Yi-Hong Huang, Jai-Lin Tsai, Ying-Chih Lai, Ratiporn Munprom, ACS Catalysis, 2022, 12, 10, 6132–6142 (IF=13.7)
45. Solid-State Intrinsically-Superstretchable Multifunctional Nanogenerator Fiber for Biomechanical and Ambient Electromagnetic Energy Harvesting and Self-Powered Sensing, Sreekanth Ginnaram,# Yi-Ting Chen,# Ying-Chih Lai*, Nano Energy, 2022, 95, 107035 (IF=19.069)
44. Mycena Chlorophos-Inspired Autoluminescent Triboelectric Fiber for Wearable Energy Harvesting, Self-Powered Sensing, and as Human–Device Interfaces, Lei Li,# Yi-Ting Chen,# Yung-Chi Hsiao, Ying-Chih Lai*, Nano Energy, 2022, 94, 106944. (IF=19.069)
43. Enhanced piezoelectric and photocatalytic performance of flexible energy harvester based on CsZn0.75Pb0.25I3/CNC–PVDF composite nanofibers, Manikandan Venkatesan, Wei-Cheng Chen, Chia-Jung Cho, Loganathan Veeramuthu, Lung-Ghih Chen, Kun-You Li, Meng-Lin Tsai, Ying-Chih Lai, Wen-Ya Lee, Wen-Chang Chen, Chi-Ching Kuo*, Chemical Engineering Journal, 2022, j.cej.2021.133620. (IF=16.744)
42. Touch-modulated van der Waals Heterostructure with Self-writing Power Switch for Synaptic Simulation, Caifang Gao, Qianfan Nie, Che-Yi Lin, Fanming Huang, Liangjun Wang, Wei Xia, Xiang Wang, Zhigao Hu, Mengjiao Li, Hong-Wei Lu, Ying-Chih Lai*, Yen-Fu Lin*, Junhao Chu, Wenwu Li*, Nano Energy, 2022, 91, 106659. (IF=19.069)
2021
2020
2021
41. Elastic Multifunctional Liquid-Metal Fibers for Harvesting Mechanical and Electromagnetic Energy and as Self-Powered Sensors, Ying-Chih Lai,* Hong-Wei Lu, Hsing-Mei Wu, Dongguang Zhang, Jiayi Yang, Jinwoo Ma, Mohammad Shamsi, Veena Vallem, and Michael D. Dickey* Advanced Energy Materials, 2021, 202100411. (IF=29.698)
(Selected as VIP paper and front cover) (選為VIP文章與封面故事)
![[ Figure 1_done_V2 ].jpg](https://static.wixstatic.com/media/3bcb6a_0e782950e71245aaa8210e824e74fb77~mv2.jpg/v1/crop/x_720,y_14,w_1161,h_860/fill/w_64,h_47,al_c,q_80,usm_0.66_1.00_0.01,blur_2,enc_auto/%5B%20Figure%201_done_V2%20%5D.jpg)
![[ Figure 5_R1 done].jpg](https://static.wixstatic.com/media/3bcb6a_96ac8d8da2dd40f6b83b825e1dd0e4f8~mv2.jpg/v1/crop/x_67,y_1499,w_1332,h_505/fill/w_68,h_26,al_c,q_80,usm_0.66_1.00_0.01,blur_2,enc_auto/%5B%20Figure%205_R1%20done%5D.jpg)
News
1. 華視 - 興大研發發電布料 國際期刊也關注 20210408 (影音)
2. 華視 (台語新聞)- 興大研發發電布料 國際期刊也關注 20210408 (影音)
3. 新唐人亞太新聞 - 電磁輻射發電 興大創新研發登頂尖期刊 20210408 (影音)
4. 中都新聞 - 中都新聞-興大研發發電布料 國際期刊也關注 20210420 (影音)
5. TBC 中部資訊台 - 降低輻射危害! 電磁波.人體動能轉為電能 20210426 (影音)
6. 公民新聞 - 興大研發收集電磁輻射與人體動能發電 登頂尖期刊 20210408 (影音)
7. 教育部電子報 - 可收集電磁輻射與人體機械能的纖維布料 興大創新研發登頂尖期刊 20210415
8. 國立教育廣播電臺 - 可收集電磁輻射與人體機械能的纖維布料 興大創新研發登頂尖期刊 20210408
9. 自由時報 - 興大師生將液態金屬轉變為「行動電源」 登國際頂尖能源期刊 20210408
10. 聯合新聞網 – 興大新材料蒐集人體動能發電 國際頂尖期刊關注 20210408
11. 中央社 - 興大新材料蒐集人體動能發電 國際頂尖期刊關注 20210408
12. 中廣新聞網 - 興大師生將液態金屬轉變成行動電源 登上國際頂尖能源期刊 20210408
13. 大成報 - 可收集電磁輻射與人體機械能的纖維布料 興大創新研發登頂尖期刊 20210408
14. 青年日報 - 興大研究發電紡線 登頂尖期刊 20210408
15. 上報 - 從科幻電影發想 興大研發將有害電磁輻射轉為充電寶 20210408
16. 觀傳媒 - 神奇!電磁輻射也能發電 興大創新研發登頂尖期刊 20210408
17. 新浪新聞 - 可收集電磁輻射與人體機械能的纖維布料 興大創新研發登頂尖期刊 20210408
18. Yahoo 新聞 - 興大研發發電布料 國際期刊也關注 20210408
19. HiNet 新聞 - 可收集電磁輻射與人體機械能的纖維布料 興大創新研發登頂尖期刊 20210408
20. msn 新聞 - 興大新材料蒐集人體動能發電 國際頂尖期刊關注 20210408
21. 台哥大新聞 - 神奇!電磁輻射也能發電 興大創新研發登頂尖期刊 20210408
40. Artificial mechanoreceptor based on van der Waals stacking structure, Ko-Chun Lee, Shun-Yong Huang, Meng-Yu Tsai, Shih-Hsien Yang, Che-Yi Lin, Mengjiao Li, Yuan-Ming Chang, Kenji Watanabe, Takashi Taniguchi, Ying-Chih Lai*, Shu-Ping Lin*, Po-Wen Chiu*, Yen-Fu Lin* Matter, 2021, 20-00612 (IF=19.967)
Domestic News
1. 聯合報 - 興大團隊利用二維材料賦予元件感知能力 登國際期刊 20210306
2. 自由時報 -利用二維材料賦予元件感知能力 興大團隊研究登國際期刊 20210306
3. 東森新聞 - 仿生材料開發新突破!中興大學用二維材料賦予元件感知能力 20210305
4. 中國時報 - 仿生材料也能有生物特徵 興大研究登國際期刊 20210305
5. 經濟日報 - 仿生材料新突破!興大團隊用二維材料賦予元件感知能力 20210305
6. 教育廣播電台 – 興大團隊利用二維材料賦予元件感知能力 登「物質 Matter」20210308
7.中央社 - 用二維材料賦予元件感知能力 興大清華新突破 20210305
8. 科技新報 - 用二維材料打造更像人的仿生機器,興大、清華聯手賦予元件感知能力 20210309
9. PChome 新聞 - 用二維材料賦予元件感知能力 興大清華新突破 20210305
10. Hinet 新聞 - 興大團隊利用二維材料賦予元件感知能力 登「物質Matter」20210305
11.Yahoo新聞 - 用二維材料賦予元件感知能力 興大清華新突破 20210306
12. 新浪新聞 -興大團隊利用二維材料賦予元件感知能力 登「物質Matter」 20210306
39. Energy Harvesting and Storage with Soft and Stretchable Materials, Veenasri Vallem, Yasaman Sargolzaeiaval, Mehmet Ozturk, Ying-Chih Lai, Michael D. Dickey* Advanced Materials, 2021, 2004832. (IF=32.086)
(Selected in Advanced Materials Special Issue:Soft Robotics)(選為特殊專輯軟性機器人) (Selected as front cover)(選為封面故事)
38. Fully self-healable, highly stretchable, and anti-freezing supramolecular gels for energy-harvesting triboelectric nanogenerator and self-powered wearable electronics, Amir Khan, Sreekanth Ginnaram, Chia-HuaWu, Hong-Wei Lu, Yi-Fang Pu, Judy I. Wu, Dipti Guptae, Ying-Chih Lai*, Hong-Cheu Lin*, Nano Energy, 2021, 106525 (IF=19.069)
37. Deformable, resilient, and mechanically-durable triboelectric nanogenerator based on recycled coffee waste for wearable power and self-powered smart sensors, Meng-jiao Li,# Wei-Yuan Chen,# Yi-Chiun Li, Hsing-Mei Wu, Yan-Cheng Wu, Hong-Wei Lu, Shueh-Lian Cheng, Lei Li, Kuan-Chang Chang, Heng-Jui Liu, Yen-Fu Lin,*Lu-Yin Lin,*Ying-Chih Lai* Nano Energy, 2021, 79, 105405.(IF=19.069)
2020
36. Ultrasoft Liquid Metal Elastomer Foams with Positive and Negative Piezopermittivity for Tactile Sensing, Jiayi Yang, David Tang, Jinping Ao, Tushar Ghosh, Taylor V. Neumann, Dongguang Zhang, Egor Piskarev, Tingting Yu, Vi Khanh Truong, Kai Xie, Ying‐Chih Lai, Yang Li,* Michael D. Dickey,* Advanced Functional Materials, 2020, 2002611. (IF=19.924)
35. 能收集環境與身體機械能的發電織物, 盧弘惟, 吳衍徵, 王書偉, 李 蕾, 賴盈至,* 化工會刊, 2020, 5, 67.
34.可自修復、自由形變、主動式電子皮膚與其在軟機器人上的應用, 吳衍徵, 盧弘惟, 賴盈至,* 化工會刊, 2020, 3, 67.
33. Self-powered, Self-healed and Shape-adaptive Ultraviolet Photodetectors, Meng-Shian Tsai#, Tien Lin Shen#, Hsing-Mei Wu#, Yu-Ming Liao, Yu-Kuang Liao, Wen-Ya Lee, Hao-Chung Kuo, Ying-Chih Lai, Yang-Fang Chen*, ACS Applied Materials & Interfaces, 2020,12, 9755. (IF=10.383)
2019
2019
32. Entirely, Intrinsically, and Autonomously Self‐Healable, Highly Transparent, and Superstretchable Triboelectric Nanogenerator for Personal Power Sources and Self‐Powered Electronic Skins, Ying-Chih Lai*, Hsing-Mei Wu, Heng-Chuan Lin, Chih-Li Chang, Ho-Hsiu Chou*, Yung-Chi Hsiao, Yen-Cheng Wu, Advanced Functional Materials, 2019, 1904626. (IF=19.924)
This article was also selected in: Hot Topic: Flexible Electronics (Selected as VIP paper and front cover)
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5.中時電子報 - 電子皮膚也能自我修復 興大研究成功
6.聯合報新聞網 - 「魔鬼終結者」的靈感! 興大研發自癒能力「電子皮膚」
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21.今日新聞 - 魔鬼終結者電子皮膚神還原! 切割500次還可自我修復
22.HiNet生活誌 – 興大研發受損自癒電子皮膚 登國際頂尖期刊
23. 創新技術博覽會24日登場!多項新科技吸睛
24. 未來科技館9/24展出 創新技術搶先曝光
31. Multifunctional Full-visible-spectrum Optoelectronics based on a van der Waals Heterostructure, Shih-Hsien Yanga, Ko-Chun Leea, Meng-Yu Tsaib, Yuan-Ming Chang, Che-Yi Lin, Feng-Shou Yanga, Kenji Watanabe, Takashi Taniguchi, Chen-Hsin Lien, Ching-Hwa Ho, Mengjiao Li*, Yen-Fu Lin*, Ying-Chih Lai* , Nano Energy, 2019, 66, 104107. (IF=19.069)
30. Self-Healing Nanophotonics: Robust and Soft Random Lasers, Yun-Tzu Hsu‡, Chia-Tse Tai‡, Hsing-Mei Wu‡, Cheng-Fu Hou, Yu-Ming Liao, Wei-Cheng Liao, Golam Haider, Yung-Chi Hsiao, Chi-Wei Lee, Shu-Wei Chang, Ying-Huan Chen, Min-Hsuan Wu, Rou-Jun Chou, Krishna Prasad Bera, Yen-Yu Lin, Yi-Zih Chen, Monika Kataria, Shih-Yao Lin, Christy Roshini PaulInbaraj, Wei-Ju Lin, Wen-Ya Lee, Tai-Yuan Lin, Ying-Chih Lai*, Yang-Fang Chen* , ACS Nano, 2019, 13, 8977-8985. (IF=18.027)
29. Triboelectric Nanogenerators Enabled Sensing and Actuation for Robotics, Shaoyu Liu, Yangyang Li, Wei Guo, Xin Huang, Liang Xu, Ying-Chih Lai, Chi Zhang, Hao Wu, Nano Energy, 2019, 65, 104005. (IF=19.069)
28. Photo-carrier extraction by triboelectricity for carrier transport layer-free photodetectors, Vincent K. S. Hsiao, Siu-Fung Leung, Yung-Chi Hsiao, Po-Kai Kung, Ying-Chih Lai, Zong-Hong Lin, Khaled N. Salama, Husam N. Alshareef, Zhong Lin Wang, Jr-Hau He, Nano Energy, 2019, 65, 103958. (IF=19.069)
27. "Low-Voltage Operational, Low-Power Consuming and High Sensitive Tactile Switch based on 2D Layered InSe Tribotronics" Mengjiao Li,# Feng-Shou Yang,# Yung-Chi Hsiao,# Che-Yi Lin, Hsing-Mei Wu, Shih-Hsien Yang, Hao-Ruei Li, Chen-Hsin Lien, Ching-Hwa Ho, Heng-Jui Liu, Wenwu Li,* Yen-Fu Lin,* and Ying-Chih Lai*, Advanced Functional Materials, 2019, 1809119. (IF=19.924) (Selected as front cover)
26. "Waterproof Fabric-based Multifunctional Triboelectric Nanogenerator for Universally Harvesting Energy from Rain Drops, Winds, and Human-Motions and as Self-Powered Sensors" Ying-Chih Lai*, Yung-Chi Hsiao, Hsing-Mei Wu, and Zhong Lin Wang*, Advanced Science, 2019, 1801883. (IF=17.521) (2019 Highly cited paper)
International News
1.Advanced Science News:Energy-Harvesting Raincoats
2.Physics World: Waterproof fabric harvests energy from raindrops(20190319)
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1.華視新聞 – "風吹雨打"變電力 奈米布料安全環保 20190115(電視)
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5.中廣 – 主廚特餐/張慶玲 - 奈米防水發電布料 (20190122 廣播)
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7.中國時報 – 雨衣發電 興大研發登國際期刊
8.自由時報 – 興大「奈米防水發電布」 風吹、雨打、舉手投足都能發電
9.中央社 – 興大研發奈米防水發電布料 人體運動也可發電
10.聯合新聞網 - 興大開發奈米發電布料 打開「智慧衣」發展大門
11.中央廣播電台 - 靜電不浪費 興大研發奈米防水發電布料
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13.工商時報 - 興大材料系團隊 奈米防水發電布料亮相
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19.台灣好新聞 - 中興大學開發奈米發電布料 登國際期刊
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25. [Book Chapter] Ying-Chih Lai*, "Nanowires for Triboelectronic Nanogenerators" in Nanowire Electronics (Editors: Shen, Guozhen, Chueh, Yu-Lun, Springer Singapore), 2019, Chapter 10. (Online: 24. Nov. 2018, DOI: 10.1007/978-981-13-2367-6_10)
2018
2018
24. Actively perceiving and responsive soft robots enabled by self-powered, highly extensible, and highly sensitive triboelectric proximity- and pressure-sensing skins. Ying-Chih Lai, Jianan Deng, Ruiyuan Liu, Yung-Chi Hsiao, Steven L. Zhang, Wenbo Peng, Hsing-Mei Wu, Xingfu Wang, Zhong Lin Wang, Advanced Materials, 2018, 30,1801114 (IF=32.086)
★This work is cited and highlighted in Nature Perspective "The rise of intelligent matter", Nature, 2021, 594, 345. [Ref 47], presenting the first soft robots driven by self-generated electricity via the triboelectric effect, which can sense and embrace close objects.
★This work is also highlighted in MIT Review Tech.
23. Concurrent Harvesting Ambient Energy by Hybrid Nanogenerators for Wearable Self-Powered Systems and Active Remote Sensing. Haiwu Zheng, Yunlong Zi, Xu He, Hengyu Guo, Ying-Chih Lai, Jie Wang, Steven L. Zhang, Changsheng Wu, Gang Cheng, Zhong Lin Wang, ACS Applied Materials & Interfaces, 2018, 10,14708–14715. (IF=10.383)
22. Vitrimer Elastomer-Based Jigsaw Puzzle-Like Healable Triboelectric Nanogenerator for Self-Powered Wearable Electronics. Jianan Deng, Xiao Kuang, Ruiyuan Liu, Wenbo Ding, Aurelia C. Wang, Ying-Chih Lai, Kai Dong, Zhen Wen, Yaxian Wang, Lili Wang, H. Jerry Qi, Tong Zhang , Zhong Lin Wang, Advanced Materials, 2018, 30, 1705918.(IF=32.086)
21. Shape Memory Polymers for Body Motion Energy Harvesting and Self‐Powered Mechanosensing, Ruiyuan Liu, Xiao Kuang, Jianan Deng, Yi-Cheng Wang, Aurelia C. Wang, Wenbo Ding, Ying-Chih Lai, Jun Chen, Peihong Wang, Zhiqun Lin, H. Jerry Qi, Baoquan Sun, Zhong Lin Wang, Advanced Materials, 2018, 30, 1705195. (IF=32.086)
2017
2017
19. Dissolvable and Recyclable Random Lasers. Xiaoyu Shi, Yu-Ming Liao, Hsia-Yu Lin, Po-Wei Tsao, Meng-Jer Wu, Shih-Yao Lin, Hsiu-Hao Hu, Zhaona Wang, Tai-Yuan Lin, Ying-Chih Lai, and Yang-Fang Chen, ACS Nano, 2017, 11, 7600–7607. (IF=18.027)
Highlighted by New Scientist "Tiny laser inside your body could detect cancer, then dissolve"
18. Auxetic Foam-Based Contact-Mode Triboelectric Nanogenerator with Highly Sensitive Self-Powered Strain Sensing Capabilities to Monitor Human Body Movement. Steven L. Zhang, Ying-Chih Lai, Xu He, Ruiyuan Liu, Yunlong Zi, and Zhong Lin Wang, Advanced Functional Materials, 2017, 27, 1606695. (IF=19.924)
17. 以紡線為主的摩擦電奈米發電機與自驅動感應紡線-邁向自給自足的可撓式軟性電子應用, Thread-Based Triboelectric Nanogenerator and Self-Power Sensors – Toward Self-Sufficient Flexible Electronics. 賴盈至, 2017, 奈米通訊, 24 - 8.
16. Single-Thread-Based Wearable and Highly Stretchable Triboelectric Nanogenerators and Their Applications in Cloth-Based Self-Powered Human-Interactive and Biomedical Sensing. Ying-Chih Lai, Jianan Deng, Steven L. Zhang, Simiao Niu, Hengyu Guo, Zhong Lin Wang, Advanced Functional Materials, 2017, 27, 1604462. (IF=19.924)
2016
2015
2014
2013
2013
2016
15. Electric Eel-Skin-Inspired Mechanically Durable and Super-Stretchable Nanogenerator for Deformable Power Source and Fully Autonomous Conformable Electronic-Skin Applications. Ying-Chih Lai, Jianan Deng, Simiao Niu, Wenbo Peng, Changsheng Wu, Ruiyuan Liu, Zhen Wen, Zhong Lin Wang, Advanced Materials, 2016, 28, 10024-10032. (IF=32.086)
14. Extraordinarily Sensitive and Low-Voltage Operational Cloth-Based Electronic Skin for Wearable Sensing and Multifunctional Integration Uses: A Tactile Induced Insulating-to-Conducting Transition. Ying-Chih Lai, Bo-Wei Ye, Chun-Fu Lu, Chien-Tung Chen, Meng-Huan Jao, Wei-Fang Su, Wen-Yi Hung, Tai-Yuan Lin, and Yang-Fang Chen, Advanced Functional Materials, 2016(02), 26, 1286-1295. (IF=19.924)
13. All-in-One Shape-Adaptive Self-Charging Power Package for Wearable Electronics. Hengyu Guo,# Min-Hsin Yeh,# Ying-Chih Lai,# Yunlong Zi, Changsheng Wu, Zhen Wen, Chenguo Hu and Zhong Lin Wang, ACS Nano, 2016(11), 22, 10580-10588. (IF=18.027) (#equal contribution co-author )
12. Highly Stretchable Label-like Random Laser on Universal Substrates. Yu-Ming Liao,# Ying-Chih Lai,# Packiyaraj Perumal, Wei-Cheng Liao, Chi-Yuan Chang, Chi-Shiun Liao, Shih-Yao Lin, Yang-Fang Chen, Advanced Materials Technologies, 2016, 1, 1600068. (IF=8.856) (#equal contribution co-author)
Before join NCHU
2015
11. Broad band plasmonic nanomaterials for high performance solar cells. Yun-Ming Sung,# Ying-Chih Lai,# Ming-Fong Tsai, Hsing-Hua Hsieh, Min-Han Yang, Philander Penn Wei, Chen-Sheng Yeh, Fang-Chi Hsu and Yang-Fang Chen, Journal of Materials Chemistry C, 2015(12), 4, 513-520. (IF=8.067) (#equal contribution co-author)
10. Highly Stretchable and Sensitive Photodetectors Based on Hybrid Graphene and Graphene Quantum Dots. Chia-Wei Chiang, Golam Haider, Wei-Chun Tan, Yi-Rou Liou, Ying-Chih Lai, Rini Ravindranath, Huan-Tsung Chang, and Yang-Fang Chen, ACS Applied & Materials & Interfaces, 2015, 8 , 466-471. (IF=10.383)
9. Mechanically Durable and Highly Stretchable Transistors Employing Carbon Nanotube Semiconductor and Electrodes. Alex Chortos, Ghada I. Koleilat, Raphael Pfattner, Desheng Kong, Pei Lin, Roda Nur, Ting Lei, Huiliang Wang, Nan Liu, Ying-Chih Lai, Myung-Gil Kim, Jong Won Chung, Sangyoon Lee and Zhenan Bao, Advanced Materials, 2015, 28, 4441-4448. (IF=32.086)
8. N-type Conjugated Polymer-Enabled Selective Dispersion of Semiconducting Carbon Nanotubes for Flexible CMOS-like Circuits. Huiliang Wang, Yaoxuan Li, Gonzalo Jiménez-Osés, Peng Liu, Ya Fang, Jie Zhang, Ying-Chih Lai, Steve Park, Liwei Chen, Kendall N. Houk and Zhenan Bao, Advanced Functional Materials, 2015(02), 25, 1837–1844. (IF=19.924)
7. Diketopyrrolopyrrole (DPP)-Based Donor–Acceptor Polymers for Selective Dispersion of Large-Diameter Semiconducting Carbon Nanotubes. Ting Lei, Ying-Chih Lai, Guosong Hong, Huiliang Wang, Pascal Hayoz, R. Thomas Weitz, Changxin Chen, Hongjie Dai and Zhenan Bao, Small, 2015(02), 11, 2946-2954. (IF=15.153)
2014
6. Stretchable Organic Memory: Toward Learnable and Digitized Stretchable Electronic Applications. Ying-Chih Lai, Yi-Chuan Huang, Tai-Yuan Lin, Yi-Xian Wang, Chun-Yu Chang, Yaoxuan Li, Tzu-Yao Lin, Bo-Wei Ye, Ya-Ping Hsieh, Wei-Fang Su, Ying-Jay Yang and Yang-Fang Chen*, Nature Publishing Group (NPG) Asia Materials, 2014(02), 6, DOI:10.1038/am.2013.85. (IF=10.761)
News reported in “Asia Materials” website “Research summaries for 2014”
Top 10 download on March/2014.
自然雜誌亞洲材料網站2014研究總要;2014三月下載前10名
5. High-Yield Sorting of Small-Diameter Carbon Nanotubes for Solar Cells and Transistors. Huiliang Wang, Ghada I. Koleilat, Peng Liu, Gonzalo Jiménez-Osés, Ying-Chih Lai, Michael Vosgueritchian, Ya Fang, Steve Park, Kendall N. Houk, and Zhenan Bao, ACS Nano, 2014(01), 8, 2609–2617. (IF=18.027)
Highlighted by Nanotech web and Stanford GCEP news
4. 可複寫的軟性黏貼式記憶體, Rewritable, Moldable and Flexible Post-it-like Memory on Arbitrary Substrates. 賴盈至, 王奕翔, 葉柏偉, 謝雅萍, 陳永芳, 2014,奈米通訊, 21-2.
3. Rewritable, Moldable and Flexible Sticker-Type Memory on Arbitrary Substrates. Ying-Chih Lai, Yi-Xiang Wang, Yi-Chuan Huang, Tai-Yuan Lin, Ya-Ping Hsieh, Ying-Jay Yang and Yang-Fang Chen, Advanced Functional Materials, 2013(10), 24, 1430–1438. (IF=19.924)
News reported in “NEW Scientist” Magazine 英國新科學人雜誌;
Research Spotlight in “NEW Scientist” website 英國新科學人網站;
Research Spotlight in “Nanowerk” website 國際 Nanowerk 網站;
News reported on 台灣 “奈米科學網” ;
News reported on“台大理學院電子報” ;
News reported on 台灣 “2D Material 二維材料網”
2. Transferable and Flexible Label-Like Macromolecular Memory on Arbitrary Substrates with High Performance and a Facile Methodology. Ying-Chih Lai, Fang-Chi Hsu, Jian-Yu Chen, Jr-Hau He, Ting-Chang Chang, Ya-Ping Hsieh, Tai-Yuan Lin, Ying-Jay Yang, Yang-Fang Chen, Advanced Materials, 2013, 25, 2733–2739. (IF=32.086)
1. Low Operation Voltage Macromolecular Composite Memory Assisted by Graphene Nanoflakes. Ying-Chih Lai, Di-Yan Wang, I-Sheng Huang, Yu-Ting Chen, Yung-Hsuan Hsu, Tai-Yuan Lin, Hsin-Fei Meng, Ting-Chang Chang, Ying-Jay Yang, Chia-Chun Chen, Fang-Chi Hsuh and Yang-Fang Chen, Journal of Materials Chemistry C, 2013, 1, 552-559. (IF=8.067).
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