M
Maung Kyaw Khaing Oo
Researcher at University of Michigan
Publications - 39
Citations - 1522
Maung Kyaw Khaing Oo is an academic researcher from University of Michigan. The author has contributed to research in topics: Photonic-crystal fiber & Raman scattering. The author has an hindex of 19, co-authored 38 publications receiving 1320 citations. Previous affiliations of Maung Kyaw Khaing Oo include National University of Singapore & Stevens Institute of Technology.
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Gold nanoparticle-enhanced and size-dependent generation of reactive oxygen species from protoporphyrin IX
TL;DR: The convergence of the experimental and simulated results suggests that Au NP-enhanced and size-dependent ROS formation can be attributed directly to the localized electromagnetic field as a result of surface plasmonic resonance of Au NPs under light irradiation.
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Highly sensitive multiplexed heavy metal detection using quantum-dot-labeled DNAzymes.
TL;DR: Highly sensitive and specific nanosensors based on quantum dots (QDs) and DNAzyme for multiplexed detection of heavy metal ions in liquid and negligible cross-talk between the Pb(2+) detection and Cu(2+) detection are developed.
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5‑aminolevulinic acid‑conjugated gold nanoparticles for photodynamic therapy of cancer
TL;DR: 5-ALA-conjugated nanoparticles offer a new modality for selective and efficient destruction of tumor cells, with minimal damage to fibroblasts in the 5- ALA-photodynamic therapy.
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Optofluidic laser for dual-mode sensitive biomolecular detection with a large dynamic range
TL;DR: The optofluidic laser-based ELISA is developed, where ELISA occurs inside a laser cavity, where the laser onset time is used as the sensing signal, which is inversely proportional to the enzyme concentration and hence the analyte concentration inside the cavity.
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Towards Full‐Length Accumulative Surface‐Enhanced Raman Scattering‐Active Photonic Crystal Fibers
TL;DR: This article is the first report of net accumulative SERS from the full-length Ag-nanoparticlefunctionalized PCFs, and recommended and recently described in a brief study forward scattering as a more suitable detection mode to unambiguously assess the SERS-active nature of PCF.