G. Zhu, A. C. Wang, Y. Liu, Y. Zhou, and Z. L. Wang, Functional electrical stimulation by nanogenerator with 58 V output voltage, Nano Letters, vol.12, issue.6, pp.3086-3090, 2012.

C. Opoku, A. S. Dahiya, F. Cayrel, G. Poulin-vittrant, D. Alquier et al., Fabrication of fieldeffect transistors and functional nanogenerators using hydrothermally grown ZnO nanowires, RSC Adv, vol.5, pp.69925-69931, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01831012

R. Tao, M. Parmar, G. Ardila, P. Oliveira, D. Marques et al., Performance of ZnO based piezo-generators under controlled compression, Semiconductor Science and Technology, vol.32, issue.6, p.64003, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01986533

N. Gogneau, N. Jamond, P. Chrétien, F. Houzé, E. Lefeuvre et al., From single IIInitride nanowires to piezoelectric generators: New route for powering nomad electronics, Science and Technology, vol.31, issue.10, p.103002, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01390955

S. Xu, B. J. Hansen, and Z. L. Wang, Piezoelectric-nanowire-enabled power source for driving wireless microelectronics, Nature Communications, 2010.

Y. Hu, Y. Zhang, C. Xu, L. Lin, R. L. Snyder et al., Self-powered system with wireless data transmission, Nano Letters, vol.11, issue.6, pp.2572-2577, 2011.

S. Roundy and P. K. Wright, A piezoelectric vibration based generator for wireless electronics, Smart Materials and Structures, vol.13, issue.5, p.1131, 2004.

Z. Lin, J. Chen, X. Li, Z. Zhou, K. Meng et al., Triboelectric nanogenerator enabled body sensor network for self-powered human heart-rate monitoring, ACS Nano, vol.11, issue.9, pp.8830-8837, 2017.

S. Xu, Y. Qin, C. Xu, Y. Wei, R. Yang et al., Self-powered nanowire devices, Nature Nanotechnology, vol.5, p.366, 2010.

M. Marzencki, Y. Ammar, and S. Basrour, Integrated power harvesting system including a MEMS generator and a power management circuit, Sensors and Actuators A: Physical, pp.363-370, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01432058

P. Miribel-català, J. Colomer-fararons, J. L. Brinquis, and J. López-sánchez, Self-powered adaptive circuit sampling for a piezoelectric harvester, Design of Circuits and Integrated Systems, pp.1-6, 2014.

D. Zhu, S. P. Beeby, M. J. Tudor, and N. R. Harris, A credit card sized self powered smart sensor node, Sensors and Actuators A: Physical, vol.169, issue.2, pp.317-325, 2011.

H. Wei, D. Cui, J. Ma, L. Chu, X. Zhao et al., Energy conversion technologies towards self-powered electrochemical energy storage systems: the state of the art and perspectives, J. Mater. Chem. A, vol.5, pp.1873-1894, 2017.

Q. Xu and Y. Qin, Theoretical study of enhancing the piezoelectric nanogenerator's output power by optimizing the external force's shape, APL Materials, vol.5, issue.7, p.74101, 2017.

O. Graton, G. Poulin-vittrant, A. S. Dahiya, N. Camara, L. T. Hue et al., Equivalent circuit model of a nanogenerator based on a piezoelectric nanowire-polymer composite, physica status solidi (RRL) -Rapid Research Letters, vol.7, issue.10, pp.915-918, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01814886

G. Poulin, F. Costa, E. Sarraute, and E. Minazara, Non linear method for the amplification of electrical power delivered by a piezoelectric generator, Eur. Phys. J. Appl. Phys, vol.33, issue.2, pp.121-132, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00164484

X. Zhou, Q. Xu, S. Bai, Y. Qin, and W. Liu, Theoretical study of the BaTiO 3 powder's volume ratio's influence on the output of composite piezoelectric nanogenerator, Nanomaterials, vol.7, issue.6

A. Doria, C. Medè, D. Desideri, A. Maschio, L. Codecasa et al., On the performance of piezoelectric harvesters loaded by finite width impulses, Mechanical Systems and Signal Processing, vol.100, pp.28-42, 2018.

M. Renaud, P. Fiorini, and C. Van-hoof, Optimization of a piezoelectric unimorph for shock and impact energy harvesting, Smart Materials and Structures, vol.16, issue.4, p.1125, 2007.

N. Doumit and G. Poulin-vittrant, A new simulation approach for performance prediction of vertically integrated nanogenerators, Advanced Theory and Simulations, vol.1, issue.6, p.1800033, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02123901

R. Hinchet, S. Lee, G. Ardila, L. Montès, M. Mouis et al., Performance optimization of vertical nanowire-based piezoelectric nanogenerators, Advanced Functional Materials, vol.24, issue.7, pp.971-977
URL : https://hal.archives-ouvertes.fr/hal-01002254

R. Tao, G. Ardila, L. Montès, and M. Mouis, Modeling of semiconducting piezoelectric nanowires for mechanical energy harvesting and mechanical sensing, Nano Energy, vol.14, pp.62-76, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01986541

A. S. Dahiya, F. Morini, S. Boubenia, K. Nadaud, D. Alquier et al., Poulin-Vittrant, Organic/inorganic hybrid stretchable piezoelectric nanogenerators for self-powered wearable electronics, Advanced Materials Technologies, 2017.

G. Zhu, Y. Zhou, S. Wang, R. Yang, Y. Ding et al., Synthesis of vertically aligned ultra-long ZnO nanowires on heterogeneous substrates with catalyst at the root, Nanotechnology 23

X. Chen, S. Xu, N. Yao, and Y. Shi, 1.6 V nanogenerator for mechanical energy harvesting using PZT nanofibers, Nano Letters, vol.10, issue.6, pp.2133-2137, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00667439

R. Yang, Y. Qin, L. Dai, and Z. L. Wang, Power generation with laterally packaged piezoelectric fine wires, Nature Nanotechnology, vol.4, 2008.

J. Briscoe, N. Jalali, P. Woolliams, M. Stewart, P. M. Weaver et al., Measurement techniques for piezoelectric nanogenerators, Energy Environ. Sci, vol.6, pp.3035-3045, 2013.

J. Briscoe, M. Stewart, M. Vopson, M. Cain, P. M. Weaver et al., Nanostructured p-n junctions for kinetic-to-electrical energy conversion, Advanced Energy Materials, vol.2, issue.10, pp.1261-1268, 2012.

K. Nadaud, F. Morini, A. S. Dahiya, C. Justeau, S. Boubenia et al., Double buffer circuit for the characterization of piezoelectric nanogenerators based on ZnO nanowires, Applied Physics Letters, vol.112, p.63903, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01727273

K. M. Hamdia, H. Ghasemi, X. Zhuang, N. Alajlan, and T. Rabczuk, Sensitivity and uncertainty analysis for flexoelectric nanostructures, Computer Methods in Applied Mechanics and Engineering, vol.337, pp.95-109, 2018.

. Nac2015,

W. P. Mason, Piezoelectric crystals and their application to ultrasonics, 1950.