Representative Work

Google Scholar profile is here.

• M. Tarannum and S. Egusa, “Optical properties of correlated metallic V₂O₃ and anosovite V₃O₅ nanocrystals and nanocrystal films,” The Journal of Physical Chemistry C, 128, 4215 (2024).

• M. Tarannum, W. P. Heidtmann, J. M. Dixon, and S. Egusa, “Valence state-controlled synthesis of vanadium oxide nanocrystals,” The Journal of Physical Chemistry C, 127, 490 (2023).

• J. M. Dixon and S. Egusa, “Common motif at the red luminophore in bovine serum albumin-, ovalbumin-, trypsin-, and insulin-gold complexes,” The Journal of Physical Chemistry Letters 12, 2865 (2021).

• N. T. Liesen, G. A. Palermo, I. Kusaka, and S. Egusa, “Measurement and prediction of kinematic viscosity for linear ethers,” The Journal of Chemical Physics 153, 024502 (2020).

• G. A. Palermo, M. Tarannum, and S. Egusa, “Luminescence onset and mechanism of the formation of gold(I)-thiolate complexes as the precursors to nanoparticles,” The Journal of Physical Chemistry C 124, 11248 (2020).

• J. M. Dixon, J. Tomida, and S. Egusa, “Identifying the red-luminophore-forming domain in serum albumin-gold complexes,” The Journal of Physical Chemistry Letters 11, 3345 (2020).

• J. M. Dixon and S. Egusa, “Kinetics of the fluorophore formation in bovine serum albumin-gold complexes,” The Journal of Physical Chemistry C 123, 10094 (2019).

• J. M. Dixon and S. Egusa, “Conformational change-induced fluorescence of bovine serum albumin-gold complexes,” Journal of the American Chemical Society 140, 2265 (2018).

• S. Egusa, Q. Ebrahem, R. Z. Mahfouz, and Y. Saunthararajah, “Ligand exchange on gold nanoparticles for drug delivery and enhanced therapeutic index evaluated in acute myeloid leukemia models,” Experimental Biology and Medicine 239, 853 (2014).

• S. Egusa, Z, Wang, N. Chocat, Z. M. Ruff, A. M. Stolyarov, D. Shemuly, F. Sorin, P. T. Rakich, J. D. Joannopoulos, and Y. Fink, “Mutimaterial piezoelectric fibres,” Nature Materials 9, 643 (2010).

• E. Lidorikis, S. Egusa, and J. D. Joannopoulos, “Effective medium properties and photonic crystal superstructures of metallic nanoparticle arrays,” Journal of Applied Physics 101, 054304 (2007).

• S. Egusa, P. L. Redmond, and N. F. Scherer, “Thermally-driven nanoparticle array growth from atomic Au precursor solutions,” The Journal of Physical Chemistry C 111, 17993 (2007).

• R. Jin, S. Egusa, and N. F. Scherer, “Thermally-induced formation of atomic Au clusters and conversion into nanocubes,” Journal of the American Chemical Society 126, 9900 (2004).

• S. Egusa, Y.-H. Liau, and N. F. Scherer, “Imaging scanning tunneling microscope-induced electroluminescence in plasmonic corrals,” Applied Physics Letters 84, 1257 (2004).

• Y.-H. Liau, S. Egusa, and N. F. Scherer, “Ultrafast interferometric measurements of plasmonic transport in photonic crystals,” Optics Letters 27, 857 (2002).