代表性论文
1. Zheng, Q.-S.: Theory of representations for tensor functions — A unified invariant approach to constitutive equations. Applied Mechanics Review 47, 545-587 (1994).
2. Zheng, Q.-S.: On transversely isotropic, orthotropic and relative isotropic functions of symmetric tensors, skew-symmetric tensors and vectors: Parts I – V. International Journal of Engineering Science 31, 1399-1409; 1411-1423; 1425-1433; 1435-1443; 1445-1453 (1993).
3. Zheng, Q.-S., Du, D.-X.: 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, 2765-2788 (2001).
4. Zou, W.-N., et al.: Eshelby’s problem of non-elliptical inclusions. Journal of the Mechanics and Physics of Solids 58, 346-372 (2010).
5. Zheng, Q.-S., Jiang, Q.: Multiwalled carbon nanotubes as gigahertz oscillators. Physical Review Letters 88, 045503 (2002).
6. Zheng, Q.-S. et al.: Self-retracting motion of graphite microflakes. Physical Review Letters 100,.067205 (2008).
7. Liu, Z. et al.: Observation of microscale superlubricity in graphite. Physical Review Letters 108, 205503 (2012).
8. Yang, J. et al.: Observation of high-speed microscale superlubricity in graphite. Physical Review Letters 110, 255504 (2013).
9. Wang, W. et al.: Measurement of the cleavage energy of graphite; Nature Communications 6, 7853 (2015).
10. Song, Y. et al.: Robust microscale superlubricity in graphite/hexagonal Boron Nitride layered heterojunctions. Nature Materials 17, 894–899 (2018).
11. Hod, O. et al.: Structural superlubricity: Frictionless motion across the length-scales. Nature 563, 485-492 (2018).
12. Zheng, Q.-S. et al.: Effects of hydraulic pressure on the stability and transition of wetting modes of superhydrophobic surfaces. Langmuir 21, 12207-12212 (2005).
14. Zheng, Q.-S. et al.: Small is beautiful, and dry. Science China - Physics, Mechanics & Astronomy 53, 2245–2259 (2010).
15. Ma, M. et al.: Water transport inside carbon nanotubes mediated by phonon-induced oscillating friction, Nature Nanotechnology 10, 692-695 (2015).
16. 郑泉水:开放式的创新人才培养. 水木清华, 10, 22-25 (2012).
17. 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).
