Low-Cost Manufacturing of Monolithic Resonant Piezoelectric Devices for Energy Harvesting Using 3D Printing

Abstract: The rapid increase of the Internet of Things (IoT) has led to significant growth in the development of low-power sensors. However; the biggest challenge in the expansion of the IoT is the energy dependency of the sensors. A promising solution that provides power autonomy to the IoT sensor nodes is energy harvesting (EH) from ambient sources and its conversion into electricity. Through 3D printing, it is possible to create monolithic harvesters. This reduces costs as it eliminates the need for subsequent assemb… Show more

“…The N-Cds/PDMS substrates demonstrated superior triboelectric performance with a high short-circuit current and open-circuit voltage. Meanwhile, Duque et al [ 7 ] designed, manufactured, and electrically evaluated a piezoelectric resonant energy harvester utilizing 3D printing. This device demonstrated a maximum output power of 1.46 mW under optimal conditions, i.e., 4 MΩ load impedance and 1 g acceleration.…”

Advances in Energy Harvesters/Nanogenerators and Self-Powered Sensors II

“…The N-Cds/PDMS substrates demonstrated superior triboelectric performance with a high short-circuit current and open-circuit voltage. Meanwhile, Duque et al [ 7 ] designed, manufactured, and electrically evaluated a piezoelectric resonant energy harvester utilizing 3D printing. This device demonstrated a maximum output power of 1.46 mW under optimal conditions, i.e., 4 MΩ load impedance and 1 g acceleration.…”

Advances in Energy Harvesters/Nanogenerators and Self-Powered Sensors II

Navigating the frontier: Additive Manufacturing’s role in synthesizing piezoelectric materials for flexible electronics