Publications
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Application of Aerogels in Optical Devices. Springer Handbook of Aerogels. Springer International Publishing, Cham, pp.1431–1454 (2023202320232023).
An aerogel-based photocatalytic microreactor driven by light guiding for degradation of toxic pollutants. Chemical Engineering Journal, 409, 128108 (2021202120212021).
Optically transportable optofluidic microlasers with liquid crystal cavities tuned by the electric field. ACS Applied Materials & Interfaces, 13, 50657−50667 (2021202120212021).
Mechanical Contact Spectroscopy: Characterizing Nanoscale Adhesive Contacts via Thermal Forces. LANGMUIR, 35, 5809-5820 (2019201920192019).
Passive sorting of emulsion droplets with different interfacial properties using laser-patterned surfaces. MICROFLUIDICS AND NANOFLUIDICS, 23, 65 (2019201920192019).
Tunable Soft-Matter Optofluidic Waveguides Assembled by Light. ACS Phot., 6, 403-410 (2019201920192019).
A new type of microphotoreactor with integrated optofluidic waveguide based on solid-air nanoporous aerogels. Royal Society Open Science, 5, 180802 (2018201820182018).
Optofluidic Dye Lasers Based on Holey Fibers: Modeling and Performance Analysis. J. Lightwave. Technol., 36, 4114-4122 (2018201820182018).
Reversible switching of wetting properties and erasable patterning of polymer surfaces using plasma oxidation and thermal treatment. Appl. Surf. Sci., 441, 841-852 (2018201820182018).
Sensitivity of compositional measurement of high-pressure fluid mixtures using microcantilever frequency response. Sensors Actuators A, 278, 111-126 (2018201820182018).
Effects of Infrared Optical Trapping on Saccharomyces cerevisiae in a Microfluidic System. Sensors, 17, 2640 (2017201720172017).
Thermal tuning of spectral emission from optically trapped liquid-crystal droplet resonators. J. Opt. Soc. Am. B, 34, 1855-1864 (2017201720172017).
Spectral tuning of lasing emission from optofluidic droplet microlasers using optical stretching. Opt. Express, 21, 21380-21394 (2013201320132013).
Characterization of oil-producing microalgae using Raman spectroscopy. Laser Phys. Lett., 8, 701–709 (2011201120112011).
Diffusive Mixing of Polymers Investigated by Raman Microspectroscopy and Microrheology. Langmuir, 26, 14223-14230 (2010201020102010).
Raman Microspectroscopy of Individual Algal Cells: Sensing Unsaturation of Storage Lipids in vivo. Sensors, 10, 8635–8651 (2010201020102010).
Detecting Sequential Bond Formation Using Three-Dimensional Thermal Fluctuation Analysis. Chem. Phys. Chem., 10, 1541-1547 (2009200920092009).
Direct Measurement of the Nonconservative Force Field Generated by Optical Tweezers. Phys. Rev. Lett., 103, 108101 (2009200920092009).
Light at work: The use of optical forces for particle manipulation, sorting, and analysis. Electophoresis, 29, 4813–4851 (2008200820082008).
Surface delivery of a single nanoparticle under moving evanescent standing-wave illumination. New. J. Phys., 10, 113010 (2008200820082008).
Behaviour of an optically trapped probe approaching a dielectric interface. J Mod. Optics, 50, 1615-1625 (2003200320032003).
Theoretical comparison of optical traps created by standing wave and single beam. Opt. Commun., 220, 401-412 (2003200320032003).
Simplified description of optical forces acting on a nanoparticle in the Gaussian standing wave. J. Opt. Soc. Am. A, 19, 1025-1034 (2002200220022002).
Optical trapping of nanoparticles and microparticles using Gaussian standing wave. Opt. Lett., 24, 1448–1450 (1999199919991999).
Optical trapping of Rayleigh particles using a Gaussian standing wave. Opt. Commun., 151, 273–285 (1998199819981998).