王穗東，現任蘇州大學功能納米與軟物質研究院教授、博士生導師。

已在IEEE Electron Device Letters、Applied Physics Letters、Advanced Functional Materials、Energy & Environmental Science等期刊上發表SCI論文160多篇；擔任IEEE Journal on Flexible Electronics編輯、IEEE Electron Devices Society納米技術委員會委員。

已主持國家自然科學基金項目5項，國家重點研發計劃重點專項項目1項、重點專項課題1項，江蘇省“青藍工程”優秀教學團隊等。

獲國家級教學成果獎二等獎、省級教學成果獎特等獎、省級自然科學獎二等獎、蘇州大學“高尚師德”獎等獎項，入選江蘇省333高層次人才培養工程。

 教育及工作經歷：

2000年浙江大學物理學學士。

2004年香港城市大學物理學與材料科學博士。

2004至2006年日本名古屋大學博士后。

2007至2008年，先后在日本國立理化研究所（RIKEN）和日本國立產業技術綜合研究所（AIST）任研究員。

2008年底回國加入蘇州大學功能納米與軟物質研究院（FUNSOM）和納米科學技術學院（CNST）任教授、博導，主要從事新型半導體器件研究。

 

課題組介紹：

課題組現有教授2位（王穗東、高旭），副教授2位（徐建龍、仲亞楠），博士后1位，博士研究生3名、碩士研究生16名以及本科生12名。已有多位研究生赴美國、英國、加拿大和日本等地開展學術交流或繼續深造。課題組從事多學科交叉（以物理、電子為主，并涉及材料、化學、生物）的應用基礎研究。招收物理學、電子類、材料類等相關專業的碩士生、博士生及博士后，歡迎感興趣的同學來咨詢和交流。

教學事跡：

王穗東老師自2008年9月回國加入蘇州大學功能納米與軟物質研究院和納米科學技術學院任教授，以培養戰略性新興產業創新人才為己任，從教十一年，作為本科生導師已指導本科畢業論文24人，作為研究生導師已培養碩士21人、博士5人。2013年至今，他擔任學院副院長分管本科教學，主持國家試點學院的教學改革任務和江蘇省品牌專業的專業建設任務，并組織推動學院的國際化、信息化教學發展。

王穗東老師堅持以理想信念教育為核心，以愛國主義教育為重點，以思想道德建設為基礎，以大學生全面發展為目標，全面落實立德樹人根本任務，培養德才兼備、積極踐行社會主義核心價值觀的納米科學與技術領域創新人才。他堅持“德才兼備、以德為先，通識為體、專業為用”的育人理念，充分發揮納米專業學科優勢，發掘專業課程中思想政治教育元素，例如在講述科學前沿知識時將眾多科學家愛國奉獻的精神融入到專業教學之中，在做科學研究時將國家需求和專業特色有機融合。以此不斷提升專業內涵，推動專業特色發展。

王穗東老師在平凡的教學和管理崗位上勤勤懇懇工作、兢兢業業耕耘，始終堅持以學生為中心、以教學為中心。擔任納米材料與技術專業的大類基礎課程《半導體器件物理》的任課老師，每學年的教學課程測評均為優秀，深受廣大師生的喜愛，曾獲“蘇州工業園區優秀教育工作者”稱號。通過王老師的引導和幫助，很多學生對納米專業的認可度和熱愛更加深厚，更加明確信念和目標，彰顯了正能量文化素質教育與思政教育的有機結合。

王穗東老師為推動國家試點學院的教學改革，適應學生個性化培養的需求，組建了一支專業教學團隊，該教學團隊榮獲蘇州市首批優秀教學團隊和江蘇省高校“青藍工程”優秀教學團隊。助力學院制定了一系列的教學規章制度，例如《蘇州大學納米科學技術學院本科教學規范細則》、《蘇州大學納米科學技術學院本科生課程方向分流實施辦法》、《蘇州大學納米科學技術學院本科生導師制實施辦法》等。以王穗東老師帶頭的教學團隊，結合納米專業的創新性、學科交叉性和前沿性特征，提出了“具有創新思維能力、具備學科交叉優勢、擁有國際化視野”的創新人才培養理念，并基于此構建了立足教科融合、學科融合、國際融合的“三融合”創新人才培養模式，探索出一條適應國家戰略性新興產業相關工科專業創新人才培養的有效路徑。該教學成果引起了國內外的廣泛關注，國際頂級學術期刊Nature的自然指數特刊于2016年11月17日以“中國高等教育的創新先鋒”（Innovative Pioneer of Higher Education in China）為題對本成果進行了專題報道；《光明日報》于2017年2月14日以“立體培養納米專業創新人才”為題對本成果進行了報道推介。該教學成果先后榮獲2017年江蘇省教學成果獎特等獎和2018年國家級教學成果獎二等獎。

王穗東老師狠抓本科教學規范，聚全院之力組織開展ABET國際工程教育專業認證，力爭本專業的教學水平更上新臺階。大力推動全英文教學改革的進程，創建學院具有特色的英語語言中心，引進國際化教學師資，建立本科生全程導師制，為學生們打造了一個國際化、高起點的學習平臺。相關教學理論成果《新工科教育的融合創新與路徑突破—蘇州大學納米科技創新人才培養的案例研究》發表于高等教育權威期刊《高等教育研究》。

相比于“王院長”，納米學院的學生們更愿意親切地喚他一聲“王老師”。王老師相信與學生交心是育人的法寶，時常利用學生沒課的晚上和周末時間與學生們面對面談心交流。與新生們談學業的規劃、理想之追求；與老生們談事業的起點、國家之需求。無論多么微小的事情，王老師總是第一時間親自幫同學們聯系解決。都說“教育是植根于愛的事業”，正是王老師這份對學生無私的愛，感染著身邊的每一個人，并將影響更多的人。

研究領域：

面向人工智能硬件開發及應用的新型信息器件研究，包括有機/雜化神經形態器件、憶阻器、憶容器、記憶晶體管、成像元件等。

承擔科研項目：

資料更新中…… 

 

發明專利：

[1]徐建龍, 張軒屹, 王穗東, 劉艷花, 高旭. 一種透明柔性參比電極及其制備方法[P]. 江蘇省: CN118641600A, 2024-09-13.

[2]張中達, 王穗東, 仲亞楠, 高旭, 徐建龍. 一種柔性薄膜記憶晶體管及其制備方法[P]. 江蘇省: CN117597018A, 2024-02-23.

[3]高旭, 殷子懿, 王穗東, 朱晨輝, 徐建龍, 仲亞楠. 一種紫外輻射劑量監測器及其制備方法[P]. 江蘇省: CN114784190A, 2022-07-22.

[4]肖靜, 姜慧慧, 王穗東, 高旭. 一種倒置底發射式OLED的ITO電極修飾方法[P]. 山東省: CN113258024A, 2021-08-13.

[5]徐建龍, 張景越, 陳彤, 王穗東, 高旭. 一種基于鈣鈦礦-碳納米管體異質結的寬譜光電探測器[P]. 江蘇省: CN110718633A, 2020-01-21.

[6]高旭, 王穗東, 劉艷花, 徐建龍, 仲亞楠, 張中達. 一種薄膜晶體管存儲器及其多值存儲方法[P]. 江蘇: CN107978603A, 2018-05-01.

[7]王穗東, 高旭, 徐建龍, 董彬, 劉杰, 張精宇. 一種納米復合體晶體管存儲器及其制備方法[P]. 江蘇: CN107968151A, 2018-04-27.

[8]王穗東, 劉長海, 高旭, 孫旭輝, 李述湯. 金屬納米顆粒與碳材料復合物的自組裝可控制備方法[P]. 江蘇省: CN102554244B, 2014-04-09.

[9]王穗東, 劉長海, 高旭, 孫旭輝, 李述湯. 金屬納米顆粒與碳材料復合物的自組裝可控制備方法[P]. 江蘇: CN102554244A, 2012-07-11. 

主要期刊論文：

1. Z. Y. Yin#, J. Yang#, X. Gao*, Z. D. Zhang, J. T. Ye, Z. N. Lu, C. Qian, Y. N. Zhong, J. L. Xu, and S. D. Wang*, “Low-voltage electronic dosimeter for portable UV exposure monitoring”, IEEE Electron Device Letters, 2024, 45, 1285-1288.

2. Z. Y. Yin#, G. Xu#, J. Xiao*, Y. Y. Zhang, J. Y. Zhang, Y. N. Zhong, X. Gao, J. L. Xu*, and S. D. Wang*, “Antisolvent-free metal halide perovskite thin-film photodetectors”, IEEE Electron Device Letters, 2024, 45, 1209-1212.

3. H. Lei#, Z. Y. Yin#, P. Huang, X. Gao, C. Zhao, Z. Wen*, X. Sun*, and S. D. Wang*, “Intelligent tribotronic transistors toward tactile near-sensor computing”, Advanced Functional Materials, 2024, 2401913.

4. S. Ren#, X. Pan#, Y. Zhang, J. L. Xu*, Z. Liu, X. Zhang, X. Li*, X. Gao, Y. Zhong, S. Chen, and S. D. Wang*, “Conductive MXene/polymer composites for transparent flexible supercapacitors”, Small, 2024, 2401346.

5. Z. N. Lu, J. T. Ye, Z. D. Zhang, J. W. Cai, X. Y. Pan, J. L. Xu, X. Gao, Y. N. Zhong*, and S. D. Wang*, “Memristor-based input delay reservoir computing system for temporal signal prediction”, Microelectronic Engineering, 2024, 293, 112240.

6. Chen, Weinan; Zong, Hao; Xie, Yujie; Xu, Jianping; Cai, Jia-Wei; Wang, Sui-Dong*; Zhou, Gang*, “Polycyclic aromatic hydrocarbons containing antiaromatic chalcogenopyrano[3,2-b]-chalcogenopyrans”, Organic Chemistry Frontiers, 2024, 11, 390-400.

7. Yang, Qian; Huang, Hao-Wen; Xu, Gao; Yuan, Yu; Jiang, Meng-Ting; Zhong, Ya-Nan; Gao, Xu; Xu, Jian-Long*; Wang, Sui-Dong*, “Self-formed interfacial oxide layer minimizes reverse bias dark current in PbS colloidal quantum dot photodiodes”, Applied Physics Letters, 2023, 123(21): 213302.

8. Zhu, Kaichen; Vescio, Giovanni; Gonzalez-Torres, Sergio; Lopez-Vidrier, Julia; Frieiro, Juan Luis; Pazos, Sebastian; Jing, Xu; Gao, Xu; Wang, Sui-Dong; Ascorbe-Muruzabal, Joaquin; Ruiz-Fuentes, Juan A.; Cirera, Albert; Garrido, Blas; Lanza, Mario*.Inkjet-printed h-BN memristors for hardware security.Nanoscale, 2023, 15(23): 9985-9992.

9. Huang, Hai-Tian; Luo, Jie; Wu, Jia-Ling; Han, Xue-Er; Zhang, Zhong-Da; Cai, Jia-Wei; Gao, Xu; Xu, Jian-Long; Zhong, Ya-Nan; Dong, Bin; Morozova, Sofia M.; Wang, Sui-Dong*, “Solution-processed organic memristor matrix with behavior of clustered synaptic plasticity”, IEEE Electron Device Letters, 2023, 44(10): 1724-1727.

10. Yin, Zhao-Yang; Chen, Yang; Zhang, Yang-Yang; Yuan, Yu; Yang, Qian; Zhong, Ya-Nan; Gao, Xu; Xiao, Jing; Wang, Zhao-Kui; Xu, Jian-Long*; Wang, Sui-Dong*, “Probing into Reverse Bias Dark Current in Perovskite Photodiodes: Critical Role of Surface Defects”, Advanced Functional Materials, 2023, 33, 2302199.

11. Jiang, Meng-Ting; Yang, Qian; Xu, Jian-Long*; Yuan, Yu; Zhang, Jing-Yue; Zhong, Ya-Nan; Gao, Xu; Wang, Sui-Dong*, “Monolithically Integrated PbS Colloidal Quantum Dot Photodetector Crossbar Array for Short-Wavelength Infrared Imaging”, Advanced Optical Materials, 2023, 11(14): 2202990.

12. Zhu, Chen-Hui; Gao, Xu*; Huang, Hai-Tian; Li, Li-Xing; Xu, Jian-Long; Zhong, Ya-Nan; Tang, Wei; Guo, Xiao-Jun; Wang, Sui-Dong*, “Organic Photonic Synaptic Devices with UV-Stimulated Inhibition and Adaptive Short-Term Plasticity”, Advanced Materials Technologies, 2023, 8, 2300187.

13. Luo, Jie; Tian, Guo; Zhang, Ding-Guo; Zhang, Xing-Chen; Lu, Zhen-Ni; Zhang, Zhong-Da; Cai, Jia-Wei; Zhong, Ya-Nan; Xu, Jian-Long; Gao, Xu*; Wang, Sui-Dong*, “A voltage-mode ferroelectric synapse for neuromorphic computing”, ACS Applied Materials & Interfaces, 2023, 15(41): 48452-48461. 

14. Zong, Hao; Wang, Min; Chen, Weinan; Zhang, Zhong-Da; Cai, Jia-Wei; Shen, Cong; Li, Li-Xing; Kang, Shui-Long; Fang, Yuan; Zhou, Gang*; Wang, Sui-Dong*, “Reducing Contact Resistance in Organic Field-Effect Transistors: A Comprehensive Comparison between 2D and Microrod Single Crystals”, ACS Applied Materials & Interfaces, 2023, 15(5): 19300-19306.

15. Chen, Jian-Ru; Lu, Zhen-Ni; Zhu, Chen-Hui; Cai, Jia-Wei; Zhang, Zhong-Da; Zhong, Ya-Nan; Xu, Jian-Long; Gao, Xu*; Wang, Sui-Dong*, “Humidity-dependent synaptic characteristics in gelatin-based organic transistors”, Microelectronic Engineering, 2023, 277: 112028.

16. Zhang, Zhong-Da; Zhong, Ya-Nan*; Shen, Cong; Huang, Hai-Tian; Lu, Zhen-Ni; Xu, Jian-Long; Gao, Xu; Wang, Sui-Dong*, “A hybrid memristor with oxide-polymer heterojunction”, Applied Physics Letters, 2022, 121(19): 191905.

17. Zhang, Xuan-Yi; Xu, Jian-Long*; Ren, Shan; Yang, Qian; Liu, Mei-Jia; Chang, Xing-Hua; Sun, Yi-Lin; Gao, Xu; Zhong, Ya-Nan; Liu, Yan-Hua*; Wang, Sui-Dong*, “Flexible and transparent composite electrode with 3D freestanding architecture for dopamine monitoring”, Advanced Electronic Materials, 2022, 8, 2200610.

18. Li, Li-Xing; Cai, Jia-Wei; Zhong, Ya-Nan; Gao, Xu; Xu, Jian-Long; Wang, Sui-Dong*, “Organic Thin-Film Memcapacitive Device With Analog and Nonvolatile Memory Effect”, IEEE Electron Device Letters, 2022, 43(9): 1539-1542.

19. Yuan, Yu; Xu, Jian-Long*; Zhang, Jing-Yue; Gao, Xu; Zhong, Ya-Nan; Wang, Sui-Dong*, “Interface Engineering for High Photoresponse in PbS Quantum-Dot Short-Wavelength Infrared Photodiodes”, IEEE Electron Device Letters, 2022, 43(8): 1275-1278.

20. Z. D. Zhang, X. Gao*, J. Luo, Y. N. Zhong, J. L. Xu, and S. D. Wang*, “UV-enabled multibit organic transistor memory with high controllability and stability”, IEEE Electron Device Letters, 2022, 43, 124-127.

21. Z. D. Zhang, Y. N. Zhong, J. L. Xu, X. Gao, and S. D. Wang*, “Soft memtransistor with ion transfer interface”, Flexible and Printed Electronics, 2022, 7, 014015.

22. Zhang, Ding-Guo; Gao, Xu*; Tang, Wei; Zhong, Ya-Nan; Xu, Jian-Long; Wang, Sui-Dong*, “Ferroelectric polymer thin-film memristors with asymmetric top electrodes”, Applied Physics Express, 2022, 15(7): 071006.

23. Shen, Cong; Gao, Xu*; Chen, Cheng; Ren, Shan; Xu, Jian-Long; Xia, Yi-Dong*; Wang, Sui-Dong*, “ZnO nanowire optoelectronic synapse for neuromorphic computing”, Nanotechnology, 2022, 33(6): 065205.

24. Kumar, Pratik; Zhu, Kaichen; Gao, Xu; Wang, Sui-Dong; Lanza, Mario*; Thakur, Chetan Singh*.Hybrid architecture based on two-dimensional memristor crossbar array and CMOS integrated circuit for edge computing.npj 2D Materials and Applications, 2022, 6(1): 8.

25. Wu, Jia-Ling; Zhang, Zhong-Da; Huang, Hai-Tian; Gao, Xu; Xu, Jian-Long; Wang, Sui-Dong*, “Polymer thin film memtransistors based on ion-carrier exchange heterojunction”, IEEE Electron Device Letters, 2021, 42(10): 1528-1531.

26. Zhang, Yang-Yang; Xu, Jian-Long*; Zhang, Jing-Yue; Yuan, Yu; Gao, Xu; Wang, Sui-Dong*, “Small-Area Perovskite Photodiodes With High Detectivity and Stability”, IEEE Electron Device Letters, 2021, 42(8): 1200-1203.

27. M. T. Tan#, T. Wang#, X. Gao*, Y. N. Zhong, J. Y. Zhang, J. L. Xu, C. Li, and S. D. Wang*, “Egg-white based polymer memristors with competing electronic-ionic effect and timescale dependent current modulation”, IEEE Electron Device Letters, 2021, 42, 228-231.

28. Ren, Shan; Xu, Jian-Long*; Cheng, Liang; Gao, Xu; Wang, Sui-Dong*, “Amine-Assisted Delaminated 2D Ti3C2Tx MXenes for High Specific Capacitance in Neutral Aqueous Electrolytes”, ACS Applied Materials & Interfaces, 2021, 13(30): 35878-35888.

29. H. H. Jiang, J. Xiao*, H. T. Huang, D. Wu, R. X. Song, R. Xu, X. Gao, J. L. Xu, S. Duhm, L. F. Chi, and S. D. Wang*, “Enhanced carrier injection hotspot effect by direct and simple ITO surface engineering”, Applied Physics Letters, 2021, 118, 223301.

30. Zhang, Meng; Wu, Jinxuan; Lin, Haotao; Zhang, Xianjun; Xu, Jian-Long; Yan, Yan*; Wang, Sui-Dong; Wong, Man; Kwok, Hoi-Sing.Ultraviolet to Near-Infrared Broadband Phototransistors Based on Hybrid InGaZnO/C8-BTBT Heterojunction Structure.IEEE Electron Device Letters, 2021, 42(7): 998-1001.

31. Tan, Ming-Tao; Wang, Tian; Gao, Xu*; Zhong, Ya-Nan; Zhang, Jing-Yue; Xu, Jian-Long; Li, Cheng; Wang, Sui-Dong*.Egg-White-Based Polymer Memristors With Competing Electronic-Ionic Effect and Timescale-Dependent Current Modulation.IEEE Electron Device Letters, 2021, 42(2): 228-231.

32. 姜慧慧; 肖靜*; 殷照洋; 張連; 楊紅芳; 高旭; 王穗東.倒置有機發光二極管中電子注入的研究及發展.科學通報, 2021, 66(17): 2105-2116.

33. Zhong, Ya-Nan; Gao, Xu; Xu, Jian-Long; Sirringhaus, Henning*; Wang, Sui-Dong*, “Selective UV-gating organic memtransistors with modulable levels of synaptic plasticity”, Advanced Electronic Materials, 2020, 6, 1900955.

34. Chen, Tong; Gao, Xu*; Zhang, Jing-Yue; Xu, Jian-Long; Wang, Sui-Dong*, “Ultrasensitive ZnO Nanowire Photodetectors with a Polymer Electret Interlayer for Minimizing Dark Current”, Advanced Optical Materials, 2020, 8, 1901289.

35. Wu, Mingze; Shang, Shangyang; Wei, Qi; Liu, Chang; Li, Aidong; Gao, Xu*; Wang, Suidong; Yin, Jiang; Xia, Yidong*; Liu, Zhiguo.High Visible-Light-Stimulated Plasticity in Optoelectronic Synaptic Transistors for Irradiation History-Dependent Learning.Advanced Electronic Materials, 2020, 6(4): 1901255.

36. Zhang, Jing-Yue; Xu, Jian-Long*; Chen, Tong; Gao, Xu; Wang, Sui-Dong*, “Toward Broadband Imaging: Surface-Engineered PbS Quantum Dot/Perovskite Composite Integrated Ultrasensitive Photodetectors”, ACS Applied Materials & Interfaces, 2019, 11(47): 44430-44437.

37. Zhang, Lin Xi; Gao, Xu*; Lv, Jing Jing; Zhong, Ya Nan; Xu, Chao; Xu, Jian Long; Wang, Sui Dong*, “Filter-free selective light monitoring by organic field-effect transistor memories with a tunable blend charge-trapping layer”, ACS Applied Materials & Interfaces, 2019, 11(43): 40366-40371. 

38. Lv, Jing Jing; Gao, Xu*; Zhang, Lin Xi; Feng, Yang; Xu, Jian Long; Xiao, Jing; Dong, Bin; Wang, Sui Dong*, “Visible-blind UV monitoring with a photochromic charge trapping layer in organic field-effect transistors”, Applied Physics Letters, 2019, 115(11): 113302.

39. Y. Feng#, X. Gao#, Y. N. Zhong, J. L. Wu, J. L. Xu, and S. D. Wang*, “Solution-processed polymer thin-film memristors with an electrochromic feature and frequency-dependent synaptic plasticity”, Advanced Intelligent Systems, 2019, 1, 1900022.

40. Xu, Jian Long*; Liu, Yan Hua*; Gao, Xu; Shen, Su; Wang, Sui Dong*, “Toward wearable electronics: A lightweight all-solid-state supercapacitor with outstanding transparency, foldability and breathability” Energy Storage Materials, 2019, 22: 402-409.

41. Cai, Jia Wei; Li, Li Xing; Xu, Chao; Feng, Yang; Zhong, Ya Nan; Xu, Jian Long; Gao, Xu; Wang, Sui Dong*, “Organic thin film memcapacitors”, Applied Physics Letters, 2019, 114(4): 043302.

42. Wang, Yiru; Yang, Youbin; Ding, Ping; Wei, Qi; Gao, Xu; Wang, Suidong; Liu, Chang; Li, Aidong; Yin, Jiang*; Xia, Yidong; Liu, Zhiguo.High-Performance Organic Field-Effect Transistor with Matching Energy-Band Alignment between Organic Semiconductor and the Charge-Trapping Dielectric.Advanced Electronic Materials, 2019, 5(5): 1800865.

43. 楊陽; 王穗東.ABET認證與一流本科專業專業建設——以蘇州大學納米材料與技術專業為例.科教導刊(下旬), 2019, (05): 6-7.

44. 楊陽; 王穗東.基于ABET專業認證中以學生為中心的納米專業拔尖學生培養計劃.江蘇科技信息, 2019, 36(09): 65-67.

45. Zhong Ya Nan; Wang Tian; Gao Xu; Xu Jian Long; Wang Sui Dong*, “Synapse-like organic thin film memristors”, Advanced Functional Materialss, 2018, 28(22): 1800854.

46. Lu Zhi Hao; Hu Jia Xin; Zhong Ya Nan; Zhou Xu; Xu Chao; Gao Xu; Xu Jian Long; Duhm Steffen; Wang Sui Dong*, “Carrier injection in organic electronics: Injection hotspot effect beyond barrier reduction effect”, Applied Physics Letters, 2018, 113(4): 043302.

47. Z. Y. Peng, J. L. Xu*, J. Y. Zhang, X. Gao, and S. D. Wang*, “Solution-processed high-performance hybrid photodetectors enhanced by perovskite/MoS2 bulk heterojunction”, Advanced Materials Interfaces, 2018, 5, 1800505.

48. Y. Lu, J. L. Xu*, S. Ren, Y. N. Zhong, X. Gao, and S. D. Wang*, “Ionic-liquid-assisted one-pot synthesis of Cu2O nanoparticles/multi-walled carbon nanotube nanocomposite for high-performance asymmetric supercapacitors”, RSC Advances, 2018, 8, 20182-20189.

49. Yu, Yi; Sun, Huiyong; Hou, Tingjun; Wang, Suidong*; Li, Youyong*, “Fullerene derivatives act as inhibitors of leukocyte common antigen based on molecular dynamics simulations”, RSC Advances, 2018, 8(25): 13997-14008.

50. 秦煒煒*, 王穗東*, “新工科教育的融合創新與路徑突破—蘇州大學納米科技創新人才培養的案例研究”,《高等教育研究》, 2018, 39 (02): 79-84.

51. Y. H. Liu, J. L. Xu*, X. Gao, Y. L. Sun, J. J. Lv, S. Shen, L. S. Chen*, and S. D. Wang*, “Freestanding transparent metallic network based ultrathin, foldable and designable supercapacitors”, Energy & Environmental Science, 2017, 10, 2534-2543.

52. Zhang, Zhong-Da; Gao, Xu*; Zhong, Ya-Nan; Liu, Jie; Zhang, Lin-Xi; Wang, Shun; Xu, Jian-Long; Wang, Sui-Dong*, “Selective Solar-Blind UV Monitoring Based on Organic Field-Effect Transistor Nonvolatile Memories”, Advanced Electronic Materials, 2017, 3(8): 1700052. (Inside Cover)

53. Liu, Jie; Gao, Xu*; Xu, Jian-Long; Ruotolo, Antonio; Wang, Sui-Dong*, “Flexible Low-Power Organic Complementary Inverter Based on Low-k Polymer Dielectric”, IEEE Electron Device Letters, 2017, 38(10): 1461-1464.

54. Xu, Jian-Long*; Liu, Yan-Hua*; Gao, Xu; Sun, Yilin; Shen, Su; Cai, Xinlei; Chen, Linen; Wang, Sui-Dong*, “Embedded Ag Grid Electrodes as Current Collector for Ultraflexible Transparent Solid-State Supercapacitor”, ACS Applied Materials & Interfaces, 2017, 9(33): 27649-27656.

55. Liu, Changhai; Chen, Ning*; Li, Jun; Gao, Xu; Sham, Tsun Kong*; Wang, Sui Dong*, “Fingerprint Feature of Atomic Intermixing in Supported AuPd Nanocatalysts Probed by X-ray Absorption Fine Structure”, Journal of Physical Chemistry C, 2017, 121(51): 28385-28394.

56. Yu, Yi; Sun, Huiyong; Gilmore, Keith; Hou, Tingjun; Wang, Suidong*; Li, Youyong*, “Aggregated Single-Walled Carbon Nanotubes Absorb and Deform Dopamine-Related Proteins Based on Molecular Dynamics Simulations”, ACS Applied Materials & Interfaces, 2017, 9(38): 32452-32462.

57. Li, Jun; Liu, Chang-Hai; Banis, Mohammad Norouzi; Vaccarello, Daniel; Ding, Zhi-Feng; Wang, Sui-Dong*; Sham, Tsun-Kong*, “Revealing the Synergy of Mono/Bimetallic PdPt/TiO2 Heterostructure for Enhanced Photoresponse Performance”, Journal of Physical Chemistry C, 2017, 121(44): 24861-24870.

58. Cai, Xin-Lei; Liu, Chang-Hai*; Liu, Jie; Lu, Ying; Zhong, Ya-Nan; Nie, Kai-Qi; Xu, Jian-Long; Gao, Xu; Sun, Xu-Hui; Wang, Sui-Dong*, “Synergistic Effects in CNTs-PdAu/Pt Trimetallic Nanoparticles with High Electrocatalytic Activity and Stability”, Nano-Micro Letters, 2017, 9(4): 48.

59. Liu, Yan-Hua; Xu, Jian-Long*; Shen, Su*; Cai, Xin-Lei; Chen, Lin-Sen; Wang, Sui-Dong*, “High-performance, ultra-flexible and transparent embedded metallic mesh electrodes by selective electrodeposition for all-solid-state supercapacitor applications”, Journal of Materials Chemistry A, 2017, 5(19): 9032-9041.

60. Wang, Chen-Huan; Gao, Xu*; Zhong, Ya-Nan; Liu, Jie; Xu, Jian-Long; Wang, Sui-Dong*, “Controlled surface doping for operating stability enhancement in organic field-effect transistors”, Organic Electronics, 2017, 42: 367-371.

61. Xu Gao; Lin, Meng-Fang; Mao, Bao-Hua; Shimizu, Maki; Mitoma, Nobuhiko; Kizu, Takio; Wei Ou-Yang; Nabatame, Toshihide; Zhi Liu; Tsukagoshi, Kazuhito*; Wang, Sui-Dong*, “Correlation between active layer thickness and ambient gas stability in IGZO thin-film transistors”, Journal of Physics D: Applied Physics , 2017, 50(2): 025102.

62. Xu, Jian-Long*; Dai, Rui-Xuan; Xin, Yan; Sun, Yi-Lin; Li, Xian; Yu, Yang-Xin; Xiang, Lan; Xie, Dan*; Wang, Sui-Dong; Ren, Tian-Ling*.Efficient and Reversible Electron Doping of Semiconductor-Enriched Single-Walled Carbon Nanotubes by Using Decamethylcobaltocene.Scientific Reports, 2017, 7. 

63. 高旭; 劉艷花; 劉杰; 王穗東.基于聚合物/氧化物/聚合物雜化柵介質層的低電壓有機互補反相器研究.中國科技論文, 2017, 12(16): 1871-1875.

64. Wang, Shun; Gao, Xu*; Zhong, Ya-Nan; Zhang, Zhong-Da; Xu, Jian-Long; Wang, Sui-Dong*, “Physical implication of transition voltage in organic nano-floating-gate nonvolatile memories”, Applied Physics Letters, 2016, 109(2): 023301.

65. Liu, Jie; Wang, Chen-Huan; Liu, Chang-Hai; Li, Qin-Liang; Gao, Xu; Wang, Sui-Dong*, “Bias-Stress-Stable Low-Voltage Organic Field-Effect Transistors with Ultrathin Polymer Dielectric on C Nanoparticles”, Advanced Electronic Materials, 2016, 2(4): 1500349.

66. Zhong, Ya-Nan; Gao, Xu*; Wang, Chen-Huan; Xu, Jian-Long; Wang, Sui-Dong*, “Heterojunction effect on contact resistance minimization in staggered pentacene thin-film transistors”, Applied Physics Express, 2016, 9(11): 111601.

67. Mao, Bao-Hua; Crumlin, Ethan; Tyo, Eric C.; Pellin, Michael J.; Vajda, Stefan; Li, Yimin*; Wang, Sui-Dong*; Liu, Zhi*, “In situ study of the electronic structure of atomic layer deposited oxide ultrathin films upon oxygen adsorption using ambient pressure XPS”, Catalysis Science & Technology, 2016, 6(18): 6778-6783.

68. Liu, Changhai; Cai, Xinlei; Wang, Jianshe; Liu, Jie; Riese, Adam; Chen, Zhidong; Sun, Xueliang*; Wang, Sui-Dong*, “One-step synthesis of AuPd alloy nanoparticles on graphene as a stable catalyst for ethanol electro-oxidation”, International Journal of Hydrogen Energy, 2016, 41(31): 13476-13484.

69. Sun, Qi-Jun; Peng, Jun; Chen, Wen-Hua; She, Xiao-Jian; Liu, Jie; Gao, Xu; Ma, Wan-Li*; Wang, Sui-Dong*, “Low-power organic field-effect transistors and complementary inverter based on low-temperature processed Al2O3 dielectric”, Organic Electronics, 2016, 34: 118-123.

70. Lou, Xia; Wang, Xin-Xin; Liu, Chang-Hai; Liu, Jie; Cui, Ze-Qun; Lu, Zhi-Hao; Gao, Xu; Wang, Sui-Dong*, “Small-sized Al nanoparticles as electron injection hotspots in inverted organic light-emitting diodes”, Organic Electronics, 2016, 28: 88-93.

71.Zhou, Yu-Yan; Liu, Chang-Hai*; Liu, Jie; Cai, Xin-Lei; Lu, Ying; Zhang, Hui; Sun, Xu-Hui; Wang, Sui-Dong*, “Self-Decoration of PtNi Alloy Nanoparticles on Multiwalled Carbon Nanotubes for Highly Efficient Methanol Electro-Oxidation”, Nano-Micro Letters, 2016, 8(4): 371-380.

72. Liu, Changhai; Wang, Fang; Liang, Qian*; Liu, Jie; Chen, Zhidong; Wang, Sui-Dong*, “A novel one-step synthesis method for cuprous nanoparticles on multi-walled carbon nanotubes with high catalytic activity”, Ceramics Internationa, 2016, 42(15): 17916-17919.

73. Li, Jun; Liu, Chang-Hai; Li, Xia; Wang, Zhi-Qiang; Shao, Yu-Cheng; Wang, Sui-Dong; Sun, Xue-Liang; Pong, Way-Faung; Guo, Jing-Hua; Sham, Tsun-Kong*.Unraveling the Origin of Visible Light Capture by Core-Shell TiO2 Nanotubes.Chemistry of Materials, 2016, 28(12): 4467-4475.

74. Li, Jun; Liu, Changhai; Ye, Yifan; Zhu, Junfa; Wang, Suidong; Guo, Jinghua; Sham, Tsun-Kong*.Tracking the Local Effect of Fluorine Self-Doping in Anodic TiO2 Nanotubes.Journal of Physical Chemistry C, 2016, 120(8): 4623-4628.

75. Wang, Jianshe*; Liu, Changhai; Banis, Mohammad Norouzi; Cheng, Niancai; Riese, Adam; Wang, Suidong; Sun, Xueliang.Superior anti-poisoning performance of graphenes versus carbon nanotubes as Pt catalysts supports for formate oxidation.International Journal of Hydrogen Energy, 2016, 41(2): 936-943.

76.Zhang, Jing-Yu#; Liu, Li-Mei#; Su, Ya-Jun; Gao, Xu; Liu, Chang-Hai; Liu, Jie; Dong, Bin*; Wang, Sui-Dong*, “Synergistic effect in organic field-effect transistor nonvolatile memory utilizing bimetal nanoparticles as nano-floating-gate”, Organic Electronics, 2015, 25: 324-328.

77. Cui, Ze-Qun; Wang, Shun; Chen, Jian-Mei; Gao, Xu; Dong, Bin; Chi, Li-Feng*; Wang, Sui-Dong*, “Direct probing of electron and hole trapping into nano-floating-gate in organic field-effect transistor nonvolatile memories”, Applied Physics Letters, 2015, 106: 123303.

78. Wei Shuanghua; Zhang Yuyue; Liu Jie; Li Xiaohui; Wu Yangjiang; Wei Hong; Weng Yuyan; Gao Xu; Li Yuning; Wang Sui Dong; Hu Zhijun*, “Large Modulation of Charge Transport Anisotropy by Controlling the Alignment of pi-pi Stacks in Diketopyrrolopyrrole-Based Polymers”, Advanced Materials Interfaces, 2015, 2(13): 1500153.

79. C. H. Liu, J. Liu, Y. Y. Zhou, X. L. Cai, Y. Lu, X. Gao, and S. D. Wang*, “Small and uniform Pd monometallic/bimetallic nanoparticles decorated on multi-walled carbon nanotubes for efficient reduction of 4-nitrophenol”, Carbon, 2015, 94, 295-300.

80. J. B. Chang, C. H. Liu, J. Liu, Y. Y. Zhou, X. Gao, and S. D. Wang*, “Green-chemistry compatible approach to TiO2-supported PdAu bimetallic nanoparticles for solvent-free 1-phenylethanol oxidation under mild conditions”, Nano-Micro Letters, 2015, 7: 307-315.

81.Liu, Chang-Hai*; Liu, Rui-Hua; Sun, Qi-Jun; Chang, Jian-Bing; Gao, Xu; Liu, Yang; Lee, Shuit-Tong; Kang, Zhen-Hui; Wang, Sui-Dong*, “Controlled synthesis and synergistic effect of graphene-supported PdAu bimetallic nanoparticles with tunable catalytic properties”, Nanoscale, 2015, 7(14): 6356-6362.

82. Wang, Juan; Lou, Xia; Liu, Yaqing; Zhao, Guizhe; Islam, Amjad; Wang, Suidong*; Ge, Ziyi*, “Controllable molecular configuration for significant improvement of blue OLEDs based on novel twisted anthracene derivatives”, Dyes and Pigments, 2015, 118:137-144.

83. Yang, Peipei; Xu, Yong; Chen, Lei; Wang, Xuchun; Mao, Baohua; Xie, Z*******; Wang, Sui-Dong; Bao, Feng; Zhang, Qiao.Encapsulated Silver Nanoparticles Can Be Directly Converted to Silver Nanoshell in the Gas Phase.Nano Letters, 2015, 15(12): 8397-8401. 

84. Zhuo, Qi-Qi; Wang, Qi; Zhang, Yi-Ping; Zhang, Duo; Li, Qin-Liang; Gao, Chun-Hong; Sun, Yan-Qiu; Ding, Lei; Sun, Qi-Jun; Wang, Sui-Dong; Zhong, Jun; Sun, Xu-Hui; Lee, Shuit-Tong.Transfer-free synthesis of doped and patterned graphene films.ACS Nano, 2015, 9(1): 594-601. 

85. B. H. Mao, R. Chang, L. Shi, Q. Q. Zhuo, S. Rani, X. S. Liu, E. C. Tyo, S. Vajda, S. D. Wang*, and Z. Liu*, “A near ambient pressure XPS study of subnanometer silver clusters on Al2O3 and TiO2 ultrathin film supports”, Physical Chemistry Chemical Physics, 2014, 16: 26645-26652.

86. Li, Qinliang; Liu, Changhai; Nie, Yuting; Chen, Wenhua; Gao, Xu; Sun, Xuhui*; Wang, Sui-Dong*, “Phototransistor based on single In2Se3 nanosheets”, Nanoscale, 2014, 6:14538-14542.

87. Liu, Jie; Liu, Chang-Hai; She, Xiao-Jian; Sun, Qi-Jun; Gao, Xu; Wang, Sui-Dong*, “Organic field-effect transistor nonvolatile memories utilizing sputtered C nanoparticles as nano-floating-gate”, Applied Physics Letters, 2014, 105(16): 163302.

88. Yang, Jin-Peng; Sun, Qi-Jun; Yonezawa, Keiichirou; Hinderhofer, Alexander; Gerlach, Alexander; Broch, Katharina; Bussolotti, Fabio; Gao, Xu; Li, Yanqing; Tang, Jianxin; Schreiber, Frank; Ueno, Nobuo; Wang, Sui-Dong*; Kera, Satoshi*, “Interface optimization using diindenoperylene for C-60 thin film transistors with high electron mobility and stability”, Organic Electronics, 2014, 15(11): 2749-2755.

89. Gao, Xu; Liu, Chang-Hai; She, Xiao-Jian; Li, Qin-Liang; Liu, Jie; Wang, Sui-Dong*, “Photon-energy-dependent light effects in organic nano-floating-gate nonvolatile memories”, Organic Electronics, 2014, 15(10): 2486-2491.

90. Liang, Houjie; Wang, Xinxin; Zhang, Xingye; Liu, Zhiyang; Ge, Ziyi*; Ouyang, Xinhua; Wang, Suidong*, “Saturated deep-blue emitter based on spiro[benzoanthracene-fluorene]-linked phenanthrene derivative for non-doped organic light-emitting diodes”, New Journal of Chemistry, 2014, 38(10): 4696-4701.

91. Liang, Houjie; Wang, Xinxin; Zhang, Xingye; Ge, Ziyi*; Ouyang, Xinhua; Wang, Suidong*, “Efficient tuning of electroluminescence from sky-blue to deep-blue by changing the constitution of spirobenzofluorene derivatives”, Dyes and Pigments, 2014, 108: 57-63.

92. Cui, Qingyu; Gu, Cheng; Liu, Jie; Feng, Linrun; Wang, Sui-Dong*; Guo, Xiaojun*, “Threshold Voltage Extraction in the Saturation Regime Insensitive to the Contact Properties for Organic Thin-Film Transistors”, IEEE Journal of Display Technology, 2014, 10(7): 615-618.

93. Chen, Wen-Hua; Liu, Chang-Hai; Li, Qin-Liang; Sun, Qi-Jun; Liu, Jie; Gao, Xu; Sun, Xuhui; Wang, Sui-Dong*, “Intrinsic Ge nanowire nonvolatile memory based on simple core-shell structure”, Nanotechnology, 2014, 25(7): 075201.

94. Peng, Jun; Wang, Xinxin; Liu, Jie; Huang, Xiaodong; Xiao, Jing; Wang, Sui-Dong*; Wang, Hai-Qiao*; Ma, Wanli*, “A facile solution-processed alumina as efficient electron-injection layer for inverted organic light-emitting diodes”, Journal of Materials Chemistry C, 2014, 2(5): 864-869.

95. Lei, Yan*; Liu, Yi; Xia, Yidong; Gao, Xu; Xu, Bo; Wang, Suidong; Yin, Jiang; Liu, Zhiguo.Memristive learning and memory functions in polyvinyl alcohol polymer memristors.AIP Advances, 2014, 4(7): 077105.

96. Gu, Xing; Cui, Wei; Song, Tao; Liu, Changhai; Shi, Xiaoze; Wang, Suidong; Sun, Baoquan*.Solution-Processed 2D Niobium Diselenide Nanosheets as Efficient Hole-Transport Layers in Organic Solar Cells.Chemsuschem, 2014, 7(2): 416-420.

97. Qian, Wenjing*; Sun, Fengxia; Xu, Yanhui; Qiu, Lihua; Liu, Changhai; Wang, Suidong; Yan, Feng.Human hair-derived carbon flakes for electrochemical supercapacitors.Energy & Environmental Science, 2014, 7(1): 379-386.

98. Zhu, Yawen; Yuan, Zhongcheng; Cui, Wei; Wu, Zhongwei; Sun, Qijun; Wang, Suidong; Kang, Zhenhui; Sun, Baoquan*.A cost-effective commercial soluble oxide cluster for highly efficient and stable organic solar cells.Journal of Materials Chemistry A, 2014, 2(5): 1436-1442. 

99. Cui, Wei; Wu, Zhongwei; Liu, Changhai; Wu, Mingxing; Ma, Tingli; Wang, Suidong; Lee, Shuit-Tong; Sun, Baoquan*.Room temperature solution processed tungsten carbide as an efficient hole extraction layer for organic photovoltaics.Journal of Materials Chemistry A, 2014, 2(11): 3734-3740.

100. Wang, Xin-Xin*; Xiao, Jing; Gao, Xu; Zhang, Xiao-Hong; Wang, Sui-Dong*, “Impact of compound doping on hole and electron balance in p-i-n organic light-emitting diodes”, AIP Advances, 2013, 3(10): 102124.

101. She, Xiao-Jian; Liu, Jie; Zhang, Jing-Yu; Gao, Xu; Wang, Sui-Dong*, “Spatial profile of charge storage in organic field-effect transistor nonvolatile memory using polymer electret”, Applied Physics Letters, 2013, 103(14): 143302.

102.She, Xiao-Jian; Liu, Jie; Zhang, Jing-Yu; Gao, Xu; Wang, Sui-Dong*, “Operational stability enhancement of low-voltage organic field-effect transistors based on bilayer polymer dielectrics”, Applied Physics Letters, 2013, 103(13): 133303.

103. Yan, Yan; Sun, Qi-Jun; Gao, Xu; Deng, Ping; Zhang, Qing*; Wang, Sui-Dong*, “Probing bias stress effect and contact resistance in bilayer ambipolar organic field-effect transistors”, Applied Physics Letters, 2013, 103(7): 73303.

104. Mao, Bao-Hua; Liua, Chang-Hai; Gao, Xu; Chang, Rui; Liu, Zhi*; Wang, Sui-Dong*, “In situ characterization of catalytic activity of graphene stabilized small-sized Pd nanoparticles for CO oxidation”, Applied Surface Science, 2013, 283: 1076-1079.

105. Peng, Jun; Sun, Qijun; Wang, Suidong*; Wang, Hai-Qiao; Ma, Wanli*, “Low-temperature solution-processed alumina as gate dielectric for reducing the operating-voltage of organic field-effect transistors”, Applied Physics Letters, 2013, 103(6): 61603.

106. Liu, Chang-Hai; Chen, Xiao-Qi; Hu, Yong-Feng; Sham, Tsun-Kong; Sun, Qi-Jun; Chang, Jian-Bing; Gao, Xu; Sun, Xu-Hui; Wang, Sui-Dong*, “One-pot environmentally friendly approach toward highly catalytically active bimetal-nanoparticle-graphene hybrids”, ACS Applied Materials & Interfaces, 2013, 5(11): 5072-5079.

107. Mao, Bao-Hua; Chang, Rui; Lee, Sungsik; Axnanda, Stephanus; Crumlin, Ethan; Grass, Michael E.; Wang, Sui-Dong*; Vajda, Stefan; Liu, Zhi*, “Oxidation and reduction of size-selected subnanometer Pd clusters on Al2O3 surface”, Journal of Chemical Physics, 2013, 138(21): 214304.

108. Sun, Qi-Jun; Gao, Xu; Wang, Sui-Dong*, “Understanding temperature dependence of threshold voltage in pentacenethin film transistors”, Journal of Applied Physics, 2013, 113(19): 194506.

109. Zhong, Jun; Wang, Jian; Zhou, Ji-Gang; Mao, Bao-Hua; Liu, Chang-Hai; Liu, Hui-Biao; Li, Yu-Liang; Sham, Tsun-Kong*; Sun, Xu-Hui*; Wang, Sui-Dong*, “Electronic structure of graphdiyne probed by X-ray absorption spectroscopy and scanning transmission X-ray microscopy”, Journal of Physical Chemistry C, 2013, 117(11): 5931-5936.

110. She, Xiao-Jian; Liu, Chang-Hai; Zhang, Jing-Yu; Gao, Xu; Wang, Sui-Dong*, “Elucidation of ambient gas effects in organic nano-floating-gate nonvolatilememory”, Applied Physics Letters, 2013, 102(5): 53303.

111. Gao, Xu; She, Xiao-Jian; Liu, Chang-Hai; Sun, Qi-Jun; Liu, Jie; Wang, Sui-Dong*, “Organic field-effect transistor nonvolatile memories based on hybrid nano-floating-gate”, Applied Physics Letters, 2013, 102(2): 23303.

112. Peng, Jun; Sun, Qijun; Zhai, Zhichun; Yuan, Jianyu; Huang, Xiaodong; Jin, Zhiming; Li, Kunyang; Wang, Suidong; Wang, Haiqiao; Ma, Wanli*.Low temperature, solution-processed alumina for organic solar cells.Nanotechnology, 2013, 24(48): 484010.

113. Axnanda, Stephanus; Scheele, Marcus; Crumlin, Ethan; Mao, Baohua; Chang, Rui; Rani, Sana; Faiz, Mohamed; Wang, Suidong; Alivisatos, A. Paul; Liu, Zhi*.Direct Work Function Measurement by Gas Phase Photoelectron Spectroscopy and Its Application on PbS Nanoparticles.Nano Letters, 2013, 13(12): 6176-6182.

114. Mao Ling Feng*; Ji A M; Zhu C Y; Wang Z O; Zhang L J; Li Y Z; Wang S D; Yan Y.THE KINK EFFECTS IN NANO-GaAs DEVICES DUE TO MULTI-VALLEY ELECTRON TRANSPORT.International Journal of Modern Physics B, 2013, 27(27): 1350172. 

115. Peng, Yingjing; Liu, Changhai; Pan, Congtao; Qiu, Lihua; Wang, Suidong; Yan, Feng*.PPyNT-lm-PtAu Alloy Nanoparticle Hybrids with Tunable Electroactivity and Enhanced Durability for Methanol Electrooxidation and Oxygen Reduction Reaction.ACS Applied Materials & Interfaces, 2013, 5(7): 2752-2760.

116. Peng, Yingjing; Wu, Xiao; Qiu, Lihua; Liu, Changhai; Wang, Suidong; Yan, Feng*.Synthesis of carbon-PtAu nanoparticle hybrids originating from triethoxysilane-derivatized ionic liquids for methanol electrooxidation and the catalytic reduction of 4-nitrophenol.JOURNAL OF MATERIALS CHEMISTRY A, 2013, 1(32): 9257-9263.

117. J. Xiao, X. X. Wang, H. Zhu,X. Gao, Z. H. Yang, X. H. Zhang*, and S. D. Wang*, “Efficiency enhancement utilizing hybrid charge generation layer in tandem organic light-emitting diodes”, Applied Physics Letters, 2012, 101(1): 013301.

118. J. Xiao, H. Zhu,X. X. Wang, X. Gao, Z. H. Yang, X. H. Zhang*, and S. D. Wang*, “Space charge induced electroluminescence spectra shift in organic light-emitting diodes”, Journal of Applied Physics, 2012, 112(1): 014513.

119. She Xiao-Jian; Liu Chang-Hai; Sun Qi-Jun; Go Xu; Wang Sui-Dong*, “Morphology control of tunneling dielectric towards high-performance organic field-effect transistor nonvolatile memory”, Organic Electronics, 2012, 13: 1908-1915.

120. Que, Ronghui; Shao, Qi; Li, Qinliang; Shao, Mingwang*; Cai, Shiduan; Wang, Sui-Dong*; Lee, Shuit-Tong*, “Flexible nanogenerators based on graphene oxide films for acoustic energy harvesting”, Angewandte Chemie International Edition, 2012, 51(22): 5418-5422.

121. Liu, Chang-Hai; Mao, Bao-Hua; Gao, Jing; Zhang, Shuai; Gao, Xu; Liu, Zhuang; Lee, Shuit-Tong; Sun, Xu-Hui; Wang, Sui-Dong*, “Size-controllable self-assembly of metal nanoparticles on carbon nanostructures in room-temperature ionic liquids by simple sputtering deposition”, Carbon, 2012, 50(8): 3008-3014.

122.Deng, Ping; Yan, Yan; Wang, Sui-Dong*; Zhang, Qing*, “Naphthoylene(trifluoromethylbenzimidazole)-dicarboxylic acid imides for high-performance N-type organic field-effect transistors”, Chemical Communications, 2012, 48(20): 2591-2593.

123. Zhong, Jun; Deng, Jiu-Jun; Mao, Bao-Hua; Xie, Tian; Sun, Xu-Hui; Mou, Zhi-Gang; Hong, Cai-Hao; Yang, Ping; Wang, Sui-Dong*, “Probing solid state N-doping in graphene by X-ray absorption near-edge structure spectroscopy”, Carbon, 2012, 50(1): 335-338.

124. Chang, Rui; Hong, Young Pyo; Axnanda, Stephanus; Mao, Baohua; Jabeen, Naila; Wang, Suidong; Tai, Renzhong; Liu, Zhi*.In-situ photoelectron spectroscopy with online activity measurement for catalysis research.Current Applied Physics, 2012, 12(5): 1292-1296.

125. Wang Sui-Dong.Novel bipolar host materials based on 1,3,5-triazine derivatives for highly efficient phosphorescent OLEDs with extremely low efficiency roll-off.Physical Chemistry Chemical Physics, 2012, 14: 14255-14261.

126. 李欽亮; 王穗東; 孫旭輝.高性能單根硒化銦納米線光探測器.中國化學會第28屆學術年會第11分會場摘要集, 2012. 

127. Que, Ronghui; Shao, Mingwang*; Zhuo, Shujuan; Wen, Chunye; Wang, Suidong*; Lee, Shuit-Tong*, “Highly reproducible surface-enhanced Raman scattering on a capillarity-assisted gold nanoparticle assembly”, Advanced Functional Materials, 2011, 21(17): 3337-3343. 

128. Q. L. Li, Y. Li, J. Gao, S. D. Wang*, and X. H. Sun*, “High performance single In2Se3 nanowire photodetector”, Applied Physics Letters, 2011, 99(24): 243105. (selected by Virtual Journal of Nanoscale Science & Technology)

129. H. Zhu, Q. L. Li, X. J. She, and S. D. Wang*, “Surface roughening evolution in pentacene thin film growth”, Applied Physics Letters, 2011, 98(24): 243304.

130. Y. Yan, X. J. She, H. Zhu, and S. D. Wang*, “Origin of bias stress induced instability of contact resistance in organic thin film transistors”, Organic Electronics, 2011, 12(5): 823-826.

131. Que, Ronghui; Shao, Mingwang*; Chen, Tao; Xu, Hongyan; Wang, Suidong*; Lee, Shuit-Tong, “Diamond nanoparticles with more surface functional groups obtained using carbon nanotubes as sources”, Journal of Applied Physics, 2011, 110(5): 054321.

132. Mou, Zhigang; Chen, Xiaoye; Du, Yukou; Wang, Xiaomei; Yang, Ping*; Wang, Suidong*, “Forming mechanism of nitrogen doped graphene prepared by thermal solid-state reaction of graphite oxide and urea”, Applied Surface Science, 2011, 258(5): 1704-1710.

133. Mou, Zhigang; Dong, Yupei; Li, Shujin; Du, Yukou; Wang, Xiaomei; Yang, Ping*; Wang, Suidong*, “Eosin Y functionalized graphene for photocatalytic hydrogen production from water”, International Journal of Hydrogen Energy, 2011, 36(15): 8885-8893.

134. Que, Ronghui; Shao, Mingwang*; Wang, Suidong; Ma, Dorothy Duo Duo; Lee, Shuit-Tong.Silicon Nanowires with Permanent Electrostatic Charges for Nanogenerators.Nano Letters, 2011, 11(11): 4870-4873. 

135. Peng, Chunzeng; Gao, Jing; Wang, Suidong; Zhang, Xiaohong*; Zhang, Xinping; Sun, Xuhui.Stability of Hydrogen-Terminated Surfaces of Silicon Nanowires in Aqueous Solutions.Journal of Physical Chemistry C, 2011, 115(10): 3866-3871.

136. Huang, Hui; Sun, Xuhui; Wang, Suidong; Liu, Yang; Li, Xiaorui; Liu, Jinglin; Kang, Zhenhui*; Lee, Shuit-Tong.Strong red emission of pure Y2O3 nanoparticles from oxygen related defects.Dalton Transactions, 2011, 40(43): 11362-11366.

138. S. D. Wang*, Y. Yan, and K. Tsukagoshi, “Understanding contact behavior in organic thin film transistors”, Applied Physics Letterss, 2010, 97(6): 63307.

139. S. D. Wang*, Y. Yan, and K. Tsukagoshi, “Transition voltage method for estimating contact resistance in organic thin film transistors”, IEEE Electron Device Letters, 2010, 31(5): 509-511.

140. Shen, Xiaojuan; Sun, Baoquan*; Yan, Feng; Zhao, Jie; Zhang, Fute; Wang, Suidong; Zhu, Xiulin; Lee, Shuittong.High-Performance Photoelectrochemical Cells from Ionic Liquid Electrolyte in Methyl-Terminated Silicon Nanowire Arrays.ACS Nano, 2010, 4(10): 5869-5876.

141. Miyadera, Tetsuhiko; Minari, Takeo; Wang, Sui-Dong; Tsukagoshi, Kazuhito.Pulsed Bias Stress in Pentacene Thin Film Transistors and Effect of Contact Material.Japanese Journal of Applied Physics, 2010, 49(1): 01AB03.

142. S. D. Wang*, T. Minari, T. Miyadera, K. Tsukagoshi*, and J. X. Tang, “Contact resistance instability in pentacene thin film transistors induced by ambient gases”, Applied Physics Letters, 2009, 94(8): 83309. 

143. Tang, J. X.; Li, Y. Q.; Wang, S. D.; Lee, C. S.; Lee, S. T.Electronegativity equalization model for interface barrier formation at reactive metal/organic contacts.Applied Physics Letters, 2009, 95(17): 173303.

144. Minari, Takeo; Kano, Masataka; Miyadera, Tetsuhiko; Wang, Sui-Dong; Aoyagi, Yoshinobu; Tsukagoshi, Kazuhito.Surface selective deposition of molecular semiconductors for solution-based integration of organic field-effect transistors.Applied Physics Letters, 2009, 94(9): 093307.

145. S. D. Wang*, T. Miyadera, T. Minari, Y. Aoyagi, and K. Tsukagoshi*, “Correlation between grain size and device parameters in pentacene thin film transistors”, Applied Physics Letters, 2008, 93:043311.

146. S. D. Wang*, T. Minari, T. Miyadera, Y. Aoyagi, and K. Tsukagoshi*, “Bias stress instability in pentacene thin film transistors: Contact resistance change and channel threshold voltage shift”, Applied Physics Letters, 2008, 92:063305.

147. Miyadera, T.; Minari, T.; Wang, S. D.; Tsukagoshi, K.Dynamic bias stress current instability caused by charge trapping and detrapping in pentacene thin film transistors.Applied Physics Letters, 2008, 93(21): 213302.

148. S. D. Wang, T. Minari, T. Miyadera, K. Tsukagoshi*, and Y. Aoyagi, “Contact-metal dependent current injection in pentacene thin film transistors”, Applied Physics Letters, 2007, 91:203508.

149. S. D. Wang*, K. Kanai, Y. Ouchi, and K. Seki, “Bottom contact ambipolar organic thin film transistor and organic inverter based on C60/pentacene heterostructure”, Organic Electronics, 2006, 7, 457-464.

150. S. D. Wang*, K. Kanai, E. Kawabe, Y. Ouchi, and K. Seki, “Enhanced electron injection into tris(8-hydroxyquinoline) aluminum (Alq3) thin films by tetrathianaphthacene (TTN) doping revealed by current-voltage characteristics”, Chemical Physics Letters, 2006, 423, 170-173.

151. S. D. Wang*, K. Kanai, E. Kawabe, Y. Ouchi, and K. Seki, “Current characteristics of pristine and tetrathianaphthacene-doped tris(8-hydroxyquinoline) aluminum thin films”, Molecular Crystals & Liquid Crystals, 2006, 455, 339-346.

152. S. D. Wang, X. Dong, C. S. Lee, and S. T. Lee*, “Molecular orientation and film morphology of pentacene on native silicon oxide surface”, Journal of Physical Chemistry B, 2005, 109, 9892-9896.

153. S. D. Wang, X. Dong, C. S. Lee, and S. T. Lee*, “Orderly growth of copper phthalocyanine on highly oriented pyrolytic graphite (HOPG) at high substrate temperatures”, Journal of Physical Chemistry B, 2004, 108, 1529-1532.

154. S. D. Wang, M. K. Fung, S. L. Lai, S. W. Tong, C. S. Lee, S. T. Lee*, H. J. Zhang, and S. N. Bao, “Experimental study of a chemical reaction between LiF and Al”, Journal of Applied Physics, 2003, 94, 169-173.

155. Liu, Yang; Gao, Yiyuan; Yang, Qian; Xu, Gao; Zhou, Xingyu; Shi, Guozheng; Lyu, Xingyi; Wu, Hao; Liu, Jun; Fang, Shiwen; Ullah, Muhammad Irfan; Song, Leliang; Lu, Kunyuan; Cao, Muhan; Zhang, Qiao; Li, Tao; Xu, Jianlong; Wang, Suidong; Liu, Zeke*; Ma, Wanli*.Breaking the Size Limitation of Directly-Synthesized PbS Quantum Dot Inks Toward Efficient Short-wavelength Infrared Optoelectronic Applications.Angewandte Chemie - International Edition. 

156. Sun, Qi-Jun; Wu, Jinxuan; Zhang, Meng; Yuan, Yu; Gao, Xu; Wang, Sui-Dong; Tang, Zhenhua*; Kuo, Chi-Ching*; Yan, Yan*.Enhanced Electrical Performance and Bias-Stress Stability of Solution-Processed Bilayer Metal Oxide Thin-Film Transistors.Physica Status Solidi A-Applications and Materials Science, 2200311.

157.楊陽, 王穗東, 郁秋亞. 政產學研用融合創新與高校創新能力提升的路徑突破——基于蘇州納米科技協同創新中心的案例研究[J]. 中國高校科技, 2020, (Z1): 96-99.

158.張寒潔,鮑世寧,何丕模,王穗東,馮明凱,張瑞勤,劉振聲,李述湯. MgF_2與Alq_3(八羥基喹啉)反應的高分辨電子能量損失譜研究[J]. 物理學報, 2003, (09): 2337-2341.

159.張寒潔,鮑世寧,何丕模,王穗東,馮明凱,李振聲,李述湯. 有或沒有Alq_3參與情況下LiF和Al的化學反應[J]. 物理化學學報, 2003, (08): 770-773.

會議論文：

[1]楊培培,徐勇,陳磊,王旭春,謝忠治,王穗東... & 張橋. (2016). 從銀核到銀殼:在氣相中發生的原位氧化刻蝕和還原過程. (eds.) 中國化學會第30屆學術年會摘要集-第三十一分會：膠體與界面化學 (pp.253).

2. 毛寶華; 王穗東*; 劉志*.利用近常壓光電子能譜研究銀納米團簇的尺寸和襯底效應. (eds.) 中國化學會第29屆學術年會摘要集——第01分會：表面物理化學 (pp.80).

3. 高旭; 佘小健; 劉杰; 王穗東*.有機納米浮柵型非易失性存儲器. (eds.) 中國化學會第29屆學術年會摘要集——第17分會：光電功能器件 (pp.3).

4. 劉長海; 王穗東*. 雙金屬納米顆粒催化活性的同步輻射表征研究. (eds.) 中國化學會第29屆學術年會摘要集——第34分會：納米催化 (pp.21).  

5. 李欽亮; 王穗東; 孫旭輝.高性能單根硒化銦納米線光探測器. (eds.) 中國化學會第28屆學術年會第11分會場摘要集 (pp.100).

6. Li, Q. L.*; Li, Y.; Gao, J.; Wang, S. D.; Sun, X. H. High Performance Single In2Se3 Nanowire Photodetector.25th International Vacuum Nanoelectronics Conference (IVNC), South Korea, 2012-07-09 to 2012-07-13.

榮譽獎勵：

1、江蘇省“青藍工程”優秀教學團隊。

2、獲國家級教學成果獎二等獎。

3、江蘇省級教學成果獎特等獎。

4、江蘇省級自然科學獎二等獎。

5、蘇州大學“高尚師德”獎等獎項。

6、入選江蘇省333高層次人才培養工程。