Welcome to Laboratory of Photons and Science!
The Gangishetty lab is interested in studying a wide range of optoelectronic materials and devices for energy conversion applications. We aim to understand the light matter interaction efficiently at the nanoscale using quantum confined structures (0D, 2D and 3D materials), plasmonic nanomaterials and hybrid (organic-inorganic) systems. We employ these materials, either independently or in combination with their organic cousins, in devices including light emitting diodes, photovoltaics, and photocatalysis.
Please visit research tab to know more about our science
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Group Highlights
13. Congrats Wisdom on his “first” publication in ACS Appl. Nano Mater., 2024, ASAP. This work is lead by Wisdom, and co-authored by Udara. Congrats! both of you. Keep pushing hard.
12. Anuraj’s work on origin of emission quenching by HTLs is published in JACS Au, 2024, ASAP. This work is done in collaboration with Prof. Kandada at Wake Forest. Congrats all on this great work.
11. 1D CsCu2I3 LED work by Udara and Anikur is published in ACS Nano 2024 18, 1647-1657. Congrats! both of you.
10. Anuraj work on core-shell nanostructure Adv. Optical Mater. 2023, 11, 2301343 highlighted on the inside front cover . Congrats Anuraj
9. Group received DOE (DE-SC0024214) funding to study the local structure of dopant ions in perovskite. See msstate news coverage for full story.
8. Congrats Anuraj and all the authors for publication in Chem Mater. 2023, 34 (24), 10928-10939
7. Collaborative review on “Perovskite LEDs” published in Nature Electronics., 2022, 5, 203
8. Dr. Gangishetty’s postdoctoral work on “Upconversion for 3D printing” published in Nature, 2022, 604, 474–478
5. Carrier Localization Mn doped Nanocrystals J. Am. Chem. Soc. 2021, 11, 893
4. Stabilizing Perovskite LEDs by Mn doping. ACS Photonics, 2019, 65, 1111
3. Photon upconversion in aqueous droplets. J. Am. Chem. Soc. 2019, 141, 9180
2. Efficient blue and white perovskite LEDs. Joule (Cell Press), 2018, 2, 2421
1. Reducing the architecture limitations. Adv. Mater. 2018, 1706226
Positions Available
The lab is actively looking for high school students, undergrads, and grad students. Anyone who is passionate about light-matter interactions and wants to build amazing excitonic/optoelectronic devices please send your CV and your research interests including your experience to mgangishetty@chemistry.msstate.edu (mg2234@msstate.edu).
Students with any background from Chemistry, Chemical Engineering, Material Science and Physics are welcome to apply
.