The invention introduce a robotic gripper designed to securely and effectively handle irregular objects without slippage or damage.

A multitasking sensor is proposed with a robust and feasible design approach to achieve high sensitivity across various applications.

This technology explores the synthesis and characterization of mixed-conductivity glasses by incorporating Vanadium oxide into Lithium salt-Phosphate compositions via melt quenching.

This invention introduces an AC current driven open-bridge configuration designed for high-precision measurement of impedance variations in sensors, particularly piezo-resistive types.

This technology presents a low-power On-Off Keying (OOK) transmitter designed for health care applications operating in the MedRadio band (401–406 MHz).

This invention discloses a tunable reference voltage generating circuit that achieves high precision and stability across variations in process, voltage, and temperature (PVT).

This invention introduces a simple and reliable method to detect harmful arsenic in water using specially designed gold nanoparticles coated with urea and functionalized with methylcobalamin (a form of Vitamin B12).

The invention relates to a hysteretic controlled DC-DC buck converter capable of operating across the full range of lithium-ion battery voltages.

The Wear-Testing Apparatus is an innovative solution designed to accurately measure the wear resistance of various materials, especially metals.

This technology introduces a 3D scaffold matrix designed by combining hollow fiber membranes (HFMs) with electrospun nanofibers composed of polycaprolactone, gelatin, and chitosan.