German Research Foundation Fellow & Isaac Newton Trust Fellow
Research
Nanofluidic polaritons for dynamic motions of single quantum systems
Nondissipative detection of molecule in room-temperature motivated us to work on nanoPolQ — a programme of fundamental unexplored physics of polaritons in confined nanofluidic space. Mass dependence of wavelength with Bose–Einstein condensates to produce light mass particles makes exciton-polariton a strong candidate to perform sensing. We will develop designs of practical future quantum technological devices suitable for flow dynamics of exciton-polariton in 2D and 1D confined space and study the long-range interaction.
Publications
Equality in Innovation
(2022)
Orientation-dependent real-time single-molecule photobleaching inside uniform electrodynamic interfaces of nanofluidic confinement
(2022)
(doi: 10.26434/chemrxiv-2022-hp2f0)
Superfluidic nature of self-driven nanofluidics at liquid-gas interfaces
(2022)
Active solid-state nanopores: Self-driven flows/chaos at liquid-gas
nanofluidic interface
(2021)
Single-molecule confinement with uniform electrodynamic nanofluidics
– Lab on a Chip
(2020)
20,
3249
(doi: 10.1039/d0lc00398k)
Nanoscale Photonics: From Single Molecule Nanofluidics to Light-matter Interaction in Nanostructures
(2017)
High-throughput nanofluidic device for one-dimensional confined
detection of single fluorophores
(2017)
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