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1.Hod O*, Meyer E, Zheng QS*, Urbakh M: Structural superlubricity and ultralow friction across the length scales. Nature, 563 (2018), 485–492.

2.Zheng QS*, Jiang B, Liu SP, Weng YZ, Lu L, Xue QK, Zhu J, Jiang Q, Wang S, Peng LM: Self-retracting motion of graphite microflakes. Physical Review Letters, 100 (2008), 067205.

3.Liu Z, Yang JR, Grey F, Liu JZ*, Liu YL, Wang YB, Yang YL, Cheng Y and Zheng QS*: Observation of microscale superlubricity in graphite. Physical Review Letters, 108 (2012), 205503.

4.Song YM, Hod O, Ma M*, Zheng QS*:Robust microscale superlubricity in graphite/hexagonal boronnitride layered heterojunctions. Nature Materials, 10 (2018), 1-8.

5.Zheng QS*, Jiang Q*: Multiwalled carbon nanotubes as gigahertz oscillators. Physical Reviews Letters, 88 (2002), 045503.

6.Zheng QS*, Yu Y, Zhao ZH: Effects of hydraulic pressure on the stability and transition of wetting modes of superhydrophobic surfaces. Langmuir, 21 (2005), 12207-12212.

7.Li YS, Quéré D, Lv CJ, and Zheng QS*: Monostable superrepellent materials, PNAS, 114 (2017), 3387-3392.

8.Zheng QS*: Theory of representations for tensor functions — A unified invariant approach to constitutive equations. Applied Mechanics Review, 47 (1994), 545-587.

9.Zheng QS*: On transversely isotropic, orthotropic and relative isotropic functions of symmetric tensors, skew-symmetric tensors and vectors: Part I- Part V, International Journal of Engineering Science, 31 (1993), 1399-1453.

10.Zheng QS*,Du DX: An explicit and universally applicable estimate for the properties of multiphase composites which accounts for inclusion distribution. Journal of the Mechanics and Physics of Solids, 49 (2001), 2765-2788.

11.Qu CY, Shi SL, Ma M, Zheng QS*: Rotational instability in superlubric joints. Physcial Review Letters, 122.24 (2019), 246101.

12.Peng DL, Wu ZH, Shi DW, Qu CY, Jiang HY, Song YM, Ma M, Aeppli G, Urbakh M, Zheng QS*: Load-induced dynamical transitions at graphene interfaces. Proceedings of the National Academy of Sciences, 177.23 (2020), 12618-12623.

13.Wang KQ, Qu CY*, Wang J, Quan BG, Zheng QS*: Characterization of a microscale superlubric graphite interface. Physical Review Letters, 125.2 (2020), 026101.

14.Qu CY, Wang KQ, Wang J, Gongyang YJ, Carpick RW, Urbakh M, Zheng QS*: Origin of friction in superlubric graphite contacts. Physical Review Letters, 125.12 (2020), 126102.

15.Huang XY, Xiang XJ, Nie JH, Peng DL, Yang FW, Wu ZH, Jiang HY, Xu ZP, Zheng QS*: Microscale Schottky superlubric generator with high direct-current density and ultralong life. Nature Communications, 12.1 (2021), 1-10.

16.Peng DL, Wang J, Jiang HY, Zhao SJ, Wu ZH, Tian KW, Ma M*, Zheng QS*: 100 km wear-free sliding achieved by microscale superlubric graphite/DLC heterojunctions under ambient conditions. National Science Review, 9.1 (2022), nwab109.

17.Wu ZH*, Huang XY*, Xiang XJ, Zheng QS*: Electro-superlubric springs for continuously tunable resonators and oscillators. Communications Materials, 2.1 (2021), 1-7.

18.Lv, CJ., Chen, C., Chuang, YC., Tseng, FG., Yin, YJ., Grey, F., Zheng, QS*. (2014). Substrate curvature gradient drives rapid droplet motion. Physical Review Letters, 113(2), 026101.

19.郑泉水:开放式的创新人才培养. 水木清华, 10, 22-25 (2012).

20.郑泉水,白峰杉,苏芃,徐芦平,陈常青:清华大学钱学森力学班本科荣誉学位项目的探索. 中国大学教学, 08, 50-54 (2016).

21.郑泉水:论创新型工科的力学课程体系,力学与实践,40: 194-202 (2018).

22.郑泉水:“多维测评”招生:破解钱学森之问的最大挑战,中国教育学刊,5: 36-45 (2018).

23.郑泉水:序:十年寻心、任重道远,见郑泉水、何枫主编《求索创新教育,筑梦共赢未来—清华学堂人才培养计划钱学森力学班十周年纪念文集》,清华大学出版社,I-VII (2019).

24.郑泉水,徐芦平,白峰杉,张林,王民盛:从星星之火到燎原之势——拔尖创新人才培养的范式探索. 中国科学院院刊,36(5) , 580-588(2021).

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