Full Name
LEE CHENGKUO
Variants
Lee, C.-K.
Lee Chengkuo
Chengkuo, L.
Lee, C.
Lee, C.K.
Lee Chengkun
Lee Cheng Kuo
Lee, Vincent Ch
 
 
 
Email
elelc@nus.edu.sg
 

Publications

Refined By:
Department:  MECHANICAL ENGINEERING

Results 1-19 of 19 (Search time: 0.005 seconds).

Issue DateTitleAuthor(s)
1Jun-2010A MEMS rotary comb mechanism for harvesting the kinetic energy of planar vibrationsYang, B. ; Lee, C. ; Kotlanka, R.K.; Xie, J.; Lim, S.P. 
22011A MEMS-based piezoelectric cantilever patterned with PZT thin film array for harvesting energy from low frequency vibrationsLiu, H.; Quan, C. ; Tay, C.J. ; Kobayashi, T.; Lee, C. 
32011A MEMS-based wideband piezoelectric energy harvester system using mechanical stoppersLiu, H.; Lee, C. ; Kobayashi, T.; Tay, C.J. ; Quan, C. 
42013A new energy harvester design for high power output at low frequenciesDhakar, L.; Liu, H.; Tay, F.E.H. ; Lee, C. 
5Apr-2012A new S-shaped MEMS PZT cantilever for energy harvesting from low frequency vibrations below 30 HzLiu, H.; Lee, C. ; Kobayashi, T.; Tay, C.J. ; Quan, C. 
6Dec-2011A scrape-through piezoelectric MEMS energy harvester with frequency broadband and up-conversion behaviorsLiu, H.; Tay, C.J. ; Quan, C. ; Kobayashi, T.; Lee, C. 
72013A wideband triboelectric energy harvesterDhakar, L.; Liu, H.; Tay, F.E.H. ; Lee, C. 
82015Development of a broadband triboelectric energy harvester with SU-8 micropillarsLokesh Dhakar; Tay Eng Hock Francis ; Lee Chengkuo 
923-Dec-2013Droplet spreading on a two-dimensional wicking surfaceLai, C.Q.; Mai, T.T.; Zheng, H.; Lee, P.S. ; Leong, K.C.; Lee, C. ; Choi, W.K. 
107-Aug-2012Dynamics of wicking in silicon nanopillars fabricated with interference lithography and metal-assisted chemical etchingMai, T.T.; Lai, C.Q.; Zheng, H.; Balasubramanian, K.; Leong, K.C.; Lee, P.S. ; Lee, C. ; Choi, W.K. 
11Aug-2002Enhancing the tensile modulus and strength of an aluminum alloy using interconnected reinforcement methodologyGanesh, V.V.; Lee, C.K. ; Gupta, M. 
12Dec-2012Feasibility study of a 3D vibration-driven electromagnetic MEMS energy harvester with multiple vibration modesLiu, H.; Soon, B.W.; Wang, N.; Tay, C.J. ; Quan, C. ; Lee, C. 
132010Hybrid energy harvester based on piezoelectric and electromagnetic mechanismsYang, B. ; Lee, C. ; Kee, W.L.; Lim, S.P. 
144-Feb-2013Influence of nanoscale geometry on the dynamics of wicking into a rough surfaceQuan Lai, C.; Thi Mai, T.; Zheng, H.; Lee, P.S. ; Leong, K.C.; Lee, C. ; Choi, W.K. 
15Mar-2012Investigation of a MEMS piezoelectric energy harvester system with a frequency-widened-bandwidth mechanism introduced by mechanical stoppersLiu, H.; Lee, C. ; Kobayashi, T.; Tay, C.J. ; Quan, C. 
162011Investigation of piezoelectric MEMS-based wideband energy harvesting system with assembled frequency-up-conversion mechanismLiu, H.; Lee, C. ; Kobayashi, T.; Tay, C.J. ; Quan, C. 
172013Low-frequency vibration-based energy harvester using a piezoelectric composite beamDhakar, L.; Liu, H.; Tay, F.E.H. ; Lee, C. 
18Oct-2011Piezoelectric MEMS energy harvester for low-frequency vibrations with wideband operation range and steadily increased output powerLiu, H.; Tay, C.J. ; Quan, C. ; Kobayashi, T.; Lee, C. 
19Oct-2012Piezoelectric MEMS-based wideband energy harvesting systems using a frequency-up-conversion cantilever stopperLiu, H.; Lee, C. ; Kobayashi, T.; Tay, C.J. ; Quan, C.