个人简介
B.S., University of Redlands (1982)
Ph.D., Oklahoma State University (1985)
Postdoctoral Fellow, Indiana University (1985-87)
Visiting Professor, School of Chemical Engineering, Georgia Tech (1994-95)
Visionary Innovator Award (2014)
ACS Award in Spectrochemical Analysis (2015)
Awards and Honors:
3M, Inc. Non-tenured Faculty Award (1988-91)
UB, SUNY Faculty of Natural Sciences and Mathematics Award for Excellence in Teaching (1998)
Eastern New York Section of the American Chemical Society Buck-Whitney Medal (1999)
SUNY Chancellors’ Award for Excellence in Teaching (2000)
SUNY Outstanding Inventors Award (2002)
New York Section of the Society for Applied Spectroscopy Gold Medal (2003)
American Chemical Society Akron Section Award (2003)
Niagara Frontier Intellectual Property Law Association, Technical Societies Council of the Niagara Frontier, “2003 Inventor of the Year, Life Sciences” (2004)
A. Benedetti-Pichler Award in Microchemistry from the American Microchemical Society (Nov. 2005)
Jacob F. Schoellkopf Medal, WNY Section, ACS (2006)
“Most Promising Technology” Smart Start Venture Forum, UNYTECH, Universities of Upstate New York Venture Forum (2007)
Entrepreneurial Spirit Award (2008)
Visionary Innovator (2x) ( 2008)
Niagara Frontier Intellectual Property Law Association, Technical Societies Council of the Niagara Frontier, “2007 Inventor of the Year, Physical Sciences” (2008)
SUNY Distinguished Professor (2008)
Society for Applied Spectroscopy Fellow (2010)
Niagara Frontier Intellectual Property Law Association, Technical Societies Council of the Niagara Frontier, “2009 Inventor of the Year, Life Sciences” (2010)
Elected, International Society for Contact Lens Research (2011)
Fellow of the Royal Society of Chemistry (2014)
Visionary Innovator Award (2014)
ACS Award in Spectrochemical Analysis (2015)
近期论文
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269) M.C. Cheung, K.Y. Yung, H. Xu, N.D. Kraut, K. Liu, V.P. Chodavarapu, A.N. Cartwright and F.V. Bright*,”Porous Nanostructured Encapsulation and Immobilization Materials for Optical Biosensors,” J. Selec. Top. Quant. Electron. 2012, 18, 1147-1159.
270) X. Zhou,* G. Liu,* K. Yamato, Y. Shen, R. Cheng, X. Wei, W. Bai, Y. Gao, H. Li, Y. Liu, F. Liu, D.M. Czajkowsky, J. Wang, M.J. Dabney, Z. Cai, J. Hu, F.V. Bright, L. He, X.C. Zeng, Z. Shao and B. Gong, “Self-Assembling Subnanometer Pores with Unusual Mass-Transport Properties,” Natur. Comm. 2012, 3 (949), 1-8.
271) C.A. Caras, J.M. Reynard, R.E. Deuro and F.V. Bright*, “Link between O2SiH Infrared Band Amplitude and Porous Silicon Photoluminescence during Ambient O3 Oxidation,” Appl. Spectrosc. 2012, 66, 951-957.
272) N.D. Kraut, J.D. Brattlie, R.E. Deuro, M.M. McGoorty and F.V. Bright*, “High-Throughput Screening System for Creating and Assessing Surface-Modified Porous Silicon,” Appl. Spectrosc. 2012, 66, 1171-1178.
273) M.J. Dabney and F.V. Bright*, “Interfacial Solvation within n-Alkane Monolayers in Contact with Supercritical CO2,” J. Phys. Chem. C 2012, 116, 18340-18346.
274) R.E. Deuro, J.P. Richardson, J.M. Reynard, C.A. Caras and F.V. Bright*, “Part Per Million Water in Gaseous Analyte Streams Dramatically Accelerates Porous Silicon Oxidation,” J. Phys. Chem. C. 2012, 116, 23168-23174.
275) Z. Zhan, B. Zhou, Z. Fu, F.V. Bright, A.N. Cartwright and A.H. Titus*, “Filterless Optical Oxygen Sensor Based on a CMOS Buried Double Junction Photodiode,” Sens. Actu : Chem. B 2012 in press.
276) F.V. Bright*, M.M. Merchea, N.D. Kraut, E.P. Maziarz, X.M. Liu and A.K. Awasthi, “A Preservative-and-Fluorescein Interaction Model for Benign Multipurpose Solution-Associated Transient Corneal Hyperfluorescence,” Cornea 2012, 31, 1480-1488.
277) Z. Zhan, B. Zhou, Z. Fu, F.V. Bright, A.N. Cartwright and A.H. Titus*, “Filterless Optical Oxygen Sensor Based on a CMOS Buried Double Junction Photodiode,” Sens. Actu : Chem. B 2013, 176, 729-735.
278) J.C. Vinci, I.M. Ferrer, S.J. Seedhouse, A.K. Boudon, J.M. Reynard, B.A. Foster, F.V. Bright and L.A. Colón*, “Unique Properties of Carbon Dots Revealed After HPLC Fractionation,” J. Phys. Chem. Lett. 2013, 4, 239-243.
279) C.A. Caras, J.M. Reynard and F.V. Bright*, “An In-depth Study Linking the Infrared Spectroscopy and Photoluminescence of Porous Silicon during Ambient Hydrogen Peroxide Oxidation,” Appl. Spectrosc. 2013, 67, 570-577.
280) J.P. Shovlin, P. Argueso, N, Carnt, R.L. Chalmers, N. Efron, S.M.J. Fleisig, J.N. Nichols, K.A. Polse, F. Stapleton, M. Willcox, F.V. Bright, L.W. Jones, N. Keir, R.C. Paterson “3. Ocular Surface Health with Contact Lens Wear,” Cont. Lens & Ant. Eye 2013, 36(S1), S14-S21.
281) M.R. Detty,* R, Ciriminna, F.V. Bright* and M. Pagliaro*, “Environmentally Benign Sol-Gel Antifouling and Foul Releasing Coatings,” Acc. Chem. Res. 2014, 47, 678-687.
282) B. Zhou, K. Liu, X. Liu, K.Y. Yung, C. Bartsch, E. Heckman, F.V. Bright, * M.T. Swihart* and A.N. Cartwright*, “Enhanced Performance from a Hybrid Quenchometric DNA Silica Xerogel Sensing Platform,” Appl. Spectrosc. 2014, 68, 1302-1305.
283)R. Fenyves, M. Schmutz, I.J. Horner, F.V. Bright and J. Rzayev*, “Aqueous Self-Assembly of Giant Bottlebrush Block Copoly-mer Surfactants as Shape-Tunable Building Blocks,” J. Am. Chem. Soc. 2014, 136, 7762-7770.
284) E.-R.E. Mojica,* E. Nguyen, M. Rozov and F.V. Bright, “pH-Dependent Spectroscopy of Tetracycline and Its Analogs,” J. Fluor. 2014, 24, 1183-1198.
285) H. Huang, G. Chen, J.M. Reynard, T.Y. Ohulchanskyy, P.N. Prasad, F.V. Bright and J.F. Lovell*, “Pd-Porphyrin-Crosslinked Phosphorescent Hydrogels for Oxygen Sensing,” Adv. Healthcare Mater. 2014, 3, 891-896.
286) R.E. Deuro, K.M. Leiker, Y. Wang, N.J. Deuro, T.M. Milillo and F.V. Bright*, “Rapid, Nondestructive Denim Fiber Bundle Characterization Using Luminescence Hyperspectral Image Analysis,” Appl. Spectrosc. 2015 69, 103-114.
287) A.J. Bron*, P. Argüeso*, M. Irkec* and F. V. Bright*, “Clinical Staining of the Ocular Surface: Mechanisms and Interpretations,” Prog. Ret. Eye Res. 2015, 44, 36-61.
288) E.C. Tehan, R.M. Bukowski, V. Chodavarapu*, A.H. Titus, A.N. Cartwright and F.V. Bright*, “Creating Diversified Response Profiles from a Single Quenchometric Sensor Element by Using Phase-Resolved Luminescence,” Sensor 2015, 15, 760-768.