Organic Hybrid Flexible Electronics (OHFEL) | Institute of Microengineering and Nanoelectronics

OHFEL

Organic Hybrid Flexible Electronics

Focuses on designing and fabricating next-generation electronic materials. We specialize in creating innovative composites by combining functional organic polymers with advanced nano-structured materials. Our goal is to develop flexible and efficient devices for key applications, including renewable energy harvesting, advanced biosensors for early disease detection, and effective thermal management for high-performance electronics.

RESEARCH TOPICS

Composite of electroactive polymer and nano-structured ceramic as efficient heat dissipating coating
Hybrid piezoelectric nano-structured organic polymers for triboelectric energy harvesting.
Composition engineering for UV stable perovskite materials system
Heat resistant perovskite halide system.
Niobium-manganase composite films as counter electrode for dye-sensitized solar cell
Molybdenum trioxide-titanium dioxide as photoanode for dye-sensitized solar cell
Molecularly Imprinted Polymer-based Sensor for Early Detection of Chronic Kidney Disease
Plasmonic ZnO Catalyst for Enhanced CO2 Reduction
Two-dimensional titanium carbide (Mxene)/silver nanostars (AgNs) composite as SERS substrate for thiram pesticide detection
Building localized surface plasmon resonance sensor as biosensor
Fabrication of carbon-based composite as thermally conductive materials
A simulation study of thermal materials for efficient heat transfer in integrated circuit
Improvement of Organic Transistor Performance by utilizing Blended Structure
Improvement of Organic Transistor Performance by utilizing Stacking Structure