Vibrational 3D-printed MEMS-type energy harvesters: (a) after printing

Three-dimensional piezoelectric polymer microsystems for vibrational energy harvesting, robotic interfaces and biomedical implants

Choosing the Most Suitable Predictive Maintenance Sensor

SEM images. (a) Tapered spring profile showing the spring width

Response of the roly-poly-like magnet assembly: (a) magnet type 1, (b)

Electromechanical Performance Analysis of the Hybrid Piezoelectric-Electromagnetic Energy Harvester under Rotary Magnetic Plucking Excitation

Rafał Walczak's research works Wroclaw University of Science and Technology, Wrocław (WUT) and other places

Polymers for 3D Printing and Customized Additive Manufacturing

SEM images. (a) Tapered spring profile showing the spring width

Bartosz KAWA, Wroclaw University of Science and Technology, Wrocław, WUT, Department of Microengineering and Photovoltaics

Electromechanical Performance Analysis of the Hybrid Piezoelectric-Electromagnetic Energy Harvester under Rotary Magnetic Plucking Excitation

AI's Origin Traced to Ancient Greece

Scheme of the measurement set-up (optical and electrical) applied in

left) Visualization of the 3D-printed energy harvester with main