The development of the IoT and portable devices has triggered the relentless pursuit of self-
powered systems to solve the limitations of conventional power-supply methods. As a novel …

The increasing amount of Internet of Things (IoT) devices and wearables require a reliable
energy source. Energy harvesting can power these devices without changing batteries …

In this paper, the innovative fabrication process for electro-mechanical sensors, born from
the smart combination of 3D-printing and wet-metallization and previously demonstrated in a …

Highly stretchable self‐powered energy sources are promising options for powering diverse
wearable smart electronics. However, commercially existing energy sources are …

In this paper, additive manufacturing and wet metallization process are combined to
fabricate three prototypes of differential electro-mechanical z-axis accelerometers. The smart …

This work presents the study about the practicability of building a low-speed permanent
magnet generator suitable for energy harvesting applications using 3D-printed structures …

This research aims to use energy harvested from conductive materials to power
microelectronic components. The proposed method involves using vibration-based energy …

Recently, there has been a growing interest in the field of using 3D-printing technology for
electrical machine manufacturing. However, almost research works have been done majorly …

Abstract 3D-printed coreless generator has been presented for energy harvesting
applications using permanent magnet as source of external magnetic field in the rotor. The …

Abstract 3D-printed coreless generator using rotors with 4 poles permanent magnet and 8
poles permanent magnet as source of external magnetic field has been presented for …