Our research bridges the entire spectrum of innovation from designing and synthesizing next-generation purely organic emitters to engineering high-performance OLEDs. We aim to revolutionize future technologies, positioning our work at the forefront of shaping the next era of electronics and bio-integrated devices.
We synthesize and fabricate TADF emitters to achieve high-efficiency OLED emission
Designing universal electron-transporting materials to improve charge balance and efficiency in advanced optoelectronic devices.
We develop efficient host materials to enhance performance and stability of TADF emitters in OLED applications.
Exploring conventional fluorescent emitters to enhance color purity, efficiency, and performance in optoelectronic applications.
Advancing Hyperfluorescence OLEDs for superior brightness, efficiency, and color precision in next-generation display technologies.
We design and develop next-generation materials and devices that drive breakthroughs in electronics and bio-integrated technologies, positioning our work at the forefront of shaping the future
Small organic molecules, dendrimers, and polymer synthesis.
Multilayer organic light-emitting diode (OLED) device fabrication using solution-processable as well as vapor deposition techniques
Characterization of materials, gels, polymers using various advanced techniques like FESEM, HRTEM, XPS, SCXRD, PXRD, DLS, Optical microscopy, spectroscopy etc.
We design and synthesise next-generation materials and fabricate OLED devices that drive breakthroughs in electronics and bio-integrated technologies
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Materials Research Centre,
Indian Institute of Science (IISc),
Bangalore – 560012 INDIA