Rui Li
Rui Li
Full professor, Department of Engineering Mechanics, Dalian University of Technology
Verified email at dlut.edu.cn
Title
Cited by
Cited by
Year
A Physically Transient Form of Silicon Electronics
SW Hwang, H Tao, DH Kim, H Cheng, JK Song, E Rill, MA Brenckle, ...
Science 337 (6102), 1640-1644, 2012
7732012
Digital cameras with designs inspired by the arthropod eye
YM Song, Y Xie, V Malyarchuk, J Xiao, I Jung, KJ Choi, Z Liu, H Park, ...
Nature 497 (7447), 95-99, 2013
7092013
Dissolvable metals for transient electronics
L Yin, H Cheng, S Mao, R Haasch, Y Liu, X Xie, SW Hwang, H Jain, ...
Advanced Functional Materials 24 (5), 645-658, 2014
2352014
Silicon nanomembranes for fingertip electronics
M Ying, AP Bonifas, N Lu, Y Su, R Li, H Cheng, A Ameen, Y Huang, ...
Nanotechnology 23 (34), 344004, 2012
2082012
Laser-Driven Micro Transfer Placement of Prefabricated Microstructures
R Saeidpourazar, R Li, Y Li, MD Sangid, C Lü, Y Huang, JA Rogers, ...
IEEE, 2012
822012
In‐plane deformation mechanics for highly stretchable electronics
Y Su, X Ping, KJ Yu, JW Lee, JA Fan, B Wang, M Li, R Li, DV Harburg, ...
Advanced Materials 29 (8), 1604989, 2017
782017
An analytical model of reactive diffusion for transient electronics
R Li, H Cheng, Y Su, SW Hwang, L Yin, H Tao, MA Brenckle, DH Kim, ...
Advanced functional materials 23 (24), 3106-3114, 2013
702013
Thermo-mechanical modeling of laser-driven non-contact transfer printing: two-dimensional analysis
R Li, Y Li, C Lü, J Song, R Saeidpouraza, B Fang, Y Zhong, PM Ferreira, ...
Soft Matter 8 (27), 7122-7127, 2012
622012
An analytical mechanics model for the island-bridge structure of stretchable electronics
R Li, M Li, Y Su, J Song, X Ni
Soft Matter 9 (35), 8476-8482, 2013
522013
Analytic bending solutions of free rectangular thin plates resting on elastic foundations by a new symplectic superposition method
R Li, Y Zhong, M Li
Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2013
512013
Accurate bending analysis of rectangular plates with two adjacent edges free and the others clamped or simply supported based on new symplectic approach
Y Liu, R Li
Applied Mathematical Modelling 34 (4), 856-865, 2010
512010
On the finite integral transform method for exact bending solutions of fully clamped orthotropic rectangular thin plates
R Li, Y Zhong, B Tian, Y Liu
Applied Mathematics Letters 22 (12), 1821-1827, 2009
472009
On new symplectic approach for exact bending solutions of moderately thick rectangular plates with two opposite edges simply supported
Y Zhong, R Li, Y Liu, B Tian
International Journal of Solids and Structures 46 (11-12), 2506-2513, 2009
412009
New analytic free vibration solutions of rectangular thin plates resting on multiple point supports
R Li, Y Tian, P Wang, Y Shi, B Wang
International Journal of Mechanical Sciences 110, 53-61, 2016
392016
Measured output voltages of piezoelectric devices depend on the resistance of voltmeter
Y Su, C Dagdeviren, R Li
Advanced Functional Materials 25 (33), 5320-5325, 2015
322015
Integral transform solutions to the bending problems of moderately thick rectangular plates with all edges free resting on elastic foundations
B Tian, R Li, Y Zhong
Applied Mathematical Modelling 39 (1), 128-136, 2015
312015
On new symplectic superposition method for exact bending solutions of rectangular cantilever thin plates
R Li, Y Zhong, B Tian
Mechanics Research Communications 38 (2), 111-116, 2011
282011
New analytic buckling solutions of rectangular thin plates with all edges free
R Li, X Zheng, H Wang, S Xiong, K Yan, P Li
International Journal of Mechanical Sciences 144, 67-73, 2018
272018
Hamiltonian system-based benchmark bending solutions of rectangular thin plates with a corner point‐supported
R Li, B Wang, P Li
International Journal of Mechanical Sciences 85, 212-218, 2014
272014
Symplectic superposition method for new analytic buckling solutions of rectangular thin plates
B Wang, P Li, R Li
International Journal of Mechanical Sciences 119, 432-441, 2016
262016
The system can't perform the operation now. Try again later.
Articles 1–20