Related references
Note: Only part of the references are listed.Transition of liquid marble impacts onto solid surfaces
C. Planchette et al.
EPL (2012)
Performance of a cantilever piezoelectric energy harvester impacting a bump stop
Kuok H. Mak et al.
JOURNAL OF SOUND AND VIBRATION (2011)
An investigation of energy harvesting from renewable sources with PVDF and PZT
D. Vatansever et al.
SMART MATERIALS AND STRUCTURES (2011)
SPLASHING PHENOMENA DURING LIQUID DROPLET IMPACT
Jie Liu et al.
ATOMIZATION AND SPRAYS (2010)
Added-Mass Effect in Modeling of Cilia-Based Devices for Microfluidic Systems
J. Kongthon et al.
JOURNAL OF VIBRATION AND ACOUSTICS-TRANSACTIONS OF THE ASME (2010)
Piezoelectric energy harvesting from broadband random vibrations
S. Adhikari et al.
SMART MATERIALS AND STRUCTURES (2009)
Issues in mathematical modeling of piezoelectric energy harvesters
A. Erturk et al.
SMART MATERIALS AND STRUCTURES (2008)
Experimental verification of models for microfabricated piezoelectric vibration energy harvesters
Noel E. duToit et al.
AIAA JOURNAL (2007)
Improving power output for vibration-based energy scavengers
S Roundy et al.
IEEE PERVASIVE COMPUTING (2005)
Design considerations for MEMS-scale piezoelectric mechanical vibration energy harvesters
NE duToit et al.
INTEGRATED FERROELECTRICS (2005)
Estimation of electric charge output for piezoelectric energy harvesting
HA Sodano et al.
STRAIN (2004)
A study of low level vibrations as a power source for wireless sensor nodes
S Roundy et al.
COMPUTER COMMUNICATIONS (2003)
Share Paper
