Main objectives :

• Development of actuators based on IPMC, PDMS, Ionometric, Piezo-electric, Electro-Hydraulic elements.
• Development of Novel Sensors Based on MEMS, Semiconductor, Tactile Image.
• Development of Novel systems for Early Detection of Diabetic Retinopathy and Deformable Liquid Mirror for correcting Spherical Aberration.
• Development of Force Reflecting system for human grasping action.
• Development of Nano-Lubricant for MEMS Devices and Anion Sensing Material for clinical Application.

What was achieved :

• Development of Ion Polymeric Metal Composites (IPMC) / PDMS/ biocompatible polymers based micro-structures, and their actuation using electrical energy.
• Actuation of IPMC / PDMS based micro-structures using living bio-materials to cause it to bend, flex, and deform.
• Actuation of micro-actuators developed through electro-polymerization of electro-active polymers.
• A prototype of an intelligent device this can test retina for the purpose of early detection of Diabetic Retinopathy in common mass.
• Design and Development of a Force reflecting system with motion sensing & Human grasping action.
• Prototype of micro-actuator mimicking deformable mirror, which will be capable of correcting aberration of images obtained, while taking images of human retina (eye).
• Design and develop composite coating material with lubricant nanoparticles for better control of adhesion, stiction, friction required for sensors, actuators and MEMS based device.
• Design and development of MEMS based immunosensor for determination of antigen. Primarily, development of Electrochemical sensors, potentiometric ion-selective electrodes and potentiometric or amperometric gas-selective sensors.
• Design and Development of online monitoring system for power transformer using semiconductor based gas sensor fabricated from nano materials.
• Synthesis of new pi-electron deficient organic ligands and their corresponding MOF (Metal organic framework) for anion recognition. The material is targeted as a sensing and curing material for decaying of human tooth and bones.
• Design and development of a piezoelectric actuator based micro manipulation system.
• Development of a system to identify the shape of an unknown object through multi sensor fusion techniques which are available from a tactile sensor array.
• Development of electro-mechanical actuator from 1st principle along with a compact transmission system, for aerospace applications.
• Design of electro-hydraulic actuator from 1st principle along with High Torque and Very Low Speed (HT-VLS) hydraulic motor, for aerospace applications.