1 Shin, D.J., "Multilayered piezoelectric energy harvesters based on PZT ceramic actuators" 41 : S686-, 2015
2 Daeheum Kim, "Low Frequency Vibration Energy Harvester Using Stopper-Engaged Dynamic Magnifier for Increased Power and Wide Bandwidth" 대한전기학회 11 (11): 707-714, 2016
3 Saleem, M., "Frequency-dependent properties of bi-based relaxor/ferroelectric ceramic composites" 8 : 14146-, 2018
4 Paradiso, J. A., "Energy scavenging for mobile and wireless electronics" 4 : 18-, 2005
5 Ahn, J. H., "Energy gathering from the multi-layered piezoelectric energy damping system based on (Bi, Sc)O3–(Pb, Ti)O3 ceramics" 16 : 12894-, 2016
6 Kaźmierski, T., "Energy Harvesting Systems" Springer 2011
7 Truptimayee Sahu, "Dielectric, Electrical and Conduction Mechanism Study of 0.6BiFeO3–0.4PbTiO3" 한국전기전자재료학회 19 (19): 396-402, 2018
8 Beeby, S. P., "A micro electromagnetic generator for vibration energy harvesting" 17 : 1257-, 2007
1 Shin, D.J., "Multilayered piezoelectric energy harvesters based on PZT ceramic actuators" 41 : S686-, 2015
2 Daeheum Kim, "Low Frequency Vibration Energy Harvester Using Stopper-Engaged Dynamic Magnifier for Increased Power and Wide Bandwidth" 대한전기학회 11 (11): 707-714, 2016
3 Saleem, M., "Frequency-dependent properties of bi-based relaxor/ferroelectric ceramic composites" 8 : 14146-, 2018
4 Paradiso, J. A., "Energy scavenging for mobile and wireless electronics" 4 : 18-, 2005
5 Ahn, J. H., "Energy gathering from the multi-layered piezoelectric energy damping system based on (Bi, Sc)O3–(Pb, Ti)O3 ceramics" 16 : 12894-, 2016
6 Kaźmierski, T., "Energy Harvesting Systems" Springer 2011
7 Truptimayee Sahu, "Dielectric, Electrical and Conduction Mechanism Study of 0.6BiFeO3–0.4PbTiO3" 한국전기전자재료학회 19 (19): 396-402, 2018
8 Beeby, S. P., "A micro electromagnetic generator for vibration energy harvesting" 17 : 1257-, 2007