[1] Ando B, Baglio S, Maiorca F, Trigona C (2013) Analysis of two dimensional, wide band, bistable vibration energy harvester. Sensor Actuator 22: 176-182.
[2] علی قربانپور آرانی، محمد عبدالهیان، رضا کلاهچی (1393) کمانش الکتروترمومکانیکی نانوتیر پیزوالکتریک با استفاده از تئوریهای الاستیسیته گرادیان کرنشی و تیر ردی. مجلهی علمی پژوهشی مکانیک سازهها و شارهها، شمارهی 3، صفحات 23-33.
[3] محمد رضایی پژند، الیاس اعرابی (1390) تحلیل غیرخطی هندسی پوستهی متقارن محوری چند لایه با لایهی پیزوالکتریک گسترده. مجلهی علمی پژوهشی مکانیک سازهها و شارهها، شمارهی 1، صفحات 1-11.
[4] Abdelkefi A, Nayfeh AH, Hajj MR (2012) Effects of nonlinear piezoelectric coupling on energy harvesters under direct excitation. Nonlinear Dynam 67: 1221-1232.
[5] Ciofani G, Menciassi A (2012) Piezoelectric nanomaterials for biomedical applications. Springe.
[6] Ebrahimi F (2013) Piezoelectric materials and devices: applications in engineering and medical sciences. CRC Press.
[7] Zhu D (2011) Vibration energy harvesting: machinery vibration, human movement and flow induced vibration. InTech.
[8] Sodano HA, Inman DJ (2004) A review of power harvesting from vibration using piezoelectric materials. Smart Mater Struct 36: 197-205.
[9] Abdelkefi A, Nayfeh AH, Hajj MR (2012) Design of piezoaeroelastic energy harvesters. Nonlinear Dynam 68: 519-530.
[10] Abdelkefi A, Nayfeh AH, Hajj MR (2012) Modeling and analysis of piezoaeroelastic energy harvesters. Nonlinear Dynam 67: 925-939.
[11] A Abdelkefi, AH Nayfeh, MR Hajj (2012) Enhancement of power harvesting from piezoaeroelastic systems. Nonlinear Dynam 68: 531-541.
[12] Li W, Liu TS, Hsiao CC (2011) A miniature generator using piezoelectric bender with elastic base. Mechatronics 21: 1183-1189.
[13] Junior CDM, Erturk A, Inman DJ (2009) An electromechanical finite element model for piezoelectric energy harvester plates. J Sound Vib 327: 9-25.
[14] Xu TB, Siochi EJ, Kang JH, Zuo L, Zhou W, Tang X (2013) Energy harvesting using a PZT ceramic multilayer stack. Smart Mater Struct 22: 1-15.
[15] Priya S, Inman DJ (2009) Energy harvesting technologies. Springer.
[16] Abdelkefi A, Najar F, Nayfeh AH, Ayed SB (2011) An energy harvester using piezoelectric cantilever beams undergoing coupled bending–torsion vibrations. Smart Mater Struct 20: 1-11.
[17] Borowiec M, Litak G, Friswell MI, Ali S, Adhikari S, Lees AW (2013) Energy harvesting in piezoelastic systems driven by random excitations. Int J Struct Stab Dy 13: 1-11.
[18] Cottone F, Gammaitoni L, Vocca H, Ferrari M, Ferrari V (2012) Piezoelectric buckled beams for random vibration energy harvesting. Smart Mater Struct 21: 1-11.
[19] Li P, Gao S, Cai H (2015) Modeling and analysis of hybrid piezoelectric and electromagnetic energy harvesting from random vibrations. Microsyst Technol 21: 401-414.
[20] Cryns JW, Hatchell BK, Santiago-Rojas E, Silvers KL (2013) Experimental analysis of a piezoelectric energy harvesting system for harmonic, random, and sine on random vibration. Adv Acoust Vib 1-12.
[21] Roundy S, Wright PK, Rabaey J (2003) A study of low level vibrations as a power source for wireless sensor nodes. Comput Commun 26: 1131-1144.
[22] DuToit NE, Wardle BL, Kim SG (2005) Design considerations for MEMS-Scale piezoelectric mechanical vibration energy harvesters. Integr Ferroelectr 71: 121-160.
[23] Rao SS (2007) Vibration of continuous systems. John Wiley & Sons, Hoboken.
[24] Newland DE (1984) An introduction to random vibrations and spectral analysis. Longman.
[25] Halvorsen E (2007) Broadband excitation of resonant energy harvesters. Power MEMS 319-322.
)