Publications

Edited Volumes (peer reviewed)

1) F.V. Bright* and M.E.P. McNally*, “Supercritical Fluid Technology: Theoretical and Applied Approaches to Analytical Chemistry,” ACS Symposium Series, 1992, Vol. 488.

Text Book Chapters (peer reviewed)

1) F.V. Bright*, “Fluorescence Spectroscopy,” in Instrumental Analysis, T.O. McCullough and B.J. Barker, Eds.,XavierUniversity Press (1992).

Topical Reviews (non-peer reviewed)

1) “Lasers in Chemical Analysis,” ICP Info. Newsl. 1987, 12, 728.

2) “Dynamic Fluorescence Spectroscopy Gains Attention of More Chemists,” Chem. & Engr. News 1989, 67(13), 27-29.

3) R.J. Jakobsen*, M.D. Morris*, W. Slavin*, G.M. Hieftje*, T.C. Rains*, R.N. Zare*, E.S. Yeung*, W.W. Harrison*, R.E. Finnigan*, A.G. Marshall*, J.V. Gilfrich*, R. Jenkins*, F.V. Bright* and A. Pines*, “Insights and Predictions: An Expert Assessment of Progress in Modern Spectroscopy,” Special 5th Anniversary Issue of Spectroscopy 1990, 5(9), 22-36.

Profiles (non-peer reviewed)

1) “Frank V. Bright, University at Buffalo” Analyst 2006, 131, 347-350.

Original Research Papers or Chapters (non-peer reviewed)

1) C. Zhu, F.V. Bright, W.A. Wyatt and G.M. Hieftje*, “A New Fluorescence Sensor for Quantification of Atmospheric Humidity,” in Proceedings of the Symposium on Chemical Sensors, Vol. 87-9, D.R. Turner, Ed., The Electrochemical Society (1987), pp. 476-483.

2) F.V. Bright*, “Remote Sensing with a Multifrequency Phase-Modulation Fluorometer,” in Time-Resolved Laser Spectroscopy in Biochemistry, J.R. Lakowicz, Ed., Proc. SPIE 1988, 909, 23-28.

3) R.A. Dunbar, U. Narang, P.N. Prasad* and F.V. Bright*, “Characterization of a Sol-Gel-Entrapped Artificial Receptor,” Proc. SPIE 1993, 1796, 210-218.

4) M.A. Doody, G.A. Baker, S. Pandey, N.J. Bonzagni and F.V. Bright*, “Issues Involved in Using Sol-Gel-Derived Glasses as Platforms for Chemical Sensing,” in Internal Standardization and Calibration Architectures for Chemical Sensors, R.E. Shaffer and R.A. Potyrailo, Eds., Proc. SPIE 1999, 3856, 2-12.

5) F.V. Bright,* P.M. Page, C.A. Munson, W.E. Gardinier and E.J. Bukowski, “Are Molecules at Surfaces Solvated by Supercritical Fluids Differently than in Solution,” Proceedings of the 6th International Symposium on Supercritical Fluids 2003, Tome 2, 1011-1016.

6) Z. Tao, E.C. Tehan, R.M. Bukowski, Y. Tang, E.L. Shughart, W.G. Holthoff, A.N. Cartwright, A.H. Titus and F.V. Bright*, “Biomolecule-less Sensors for Biomolecules Based on Templated Xerogel Platforms,” in Optical Biochips and Biosensors for Nucleic Acids and Proteins,” U.J. Krull, Ed., Proc. SPIE 2005, 5969, 1-9.

7) V.P. Chodavarapu, D.O. Shubin, R.M. Bukowski, E.C. Tehan, A.H. Titus, A.N. Cartwright and F.V. Bright, “CMOS-based Biosensor Systems Using Integrated Nanostructured Recognition Elements,” Proc. SPIE 2006, 6095, 126-133.

8) S.J. Kim, V.P. Chodavarapu, R.M. Bukowski, A.H. Titus, A.N. Cartwright, M.T. Swihart, F.V. Bright, and T.J. Bunning, “Nanostructured Porous Polymeric Photonic Bandgap Structures for Sensing,” Proc. SPIE 2007, 6447, 1-12.

9) J.A. Gardella, Jr., S.A. Burns, F.V. Bright, R. Hard, A.N. Cartwright, B. Koc, D. Cohen, L. Sigurdson and W.L. Hicks, Jr., “ Polymer Surface Chemistry and Tissue Engineering: Aspects of Bioadhesion in Wound Healing,” in the Proceedings of the 32nd. Annual Meeting of the Adhesion Society, pages 101-103, published by the Adhesion Society, ISBN 1086-9506, Blacksburg, VA, 2009.

10) I.J. Horner, N.D. Kraut, R.E. Deuro, J.M. Reynard, C.A. Caras and F.V. Bright*, “Xerogel-Nanocrystallite Hybrids for Optical Sensing,” Proc. SPIE 2012, 8212, 82120N-1-82120N-6.

11) K.Y. Yung, J.M. Reynard , F.V. Bright*, A.H. Titus, M. Mushfiq , R. Mukerjee , U. Sampathkumaran and P. Levin, “Quenchometric Strategies for Determining O2 in the 99-100% Region.,” 42nd International Conference on Environmental Systems (ICES), ???

 

Original Research Papers or Chapters (peer reviewed)

1) F.V. Bright and L.B. McGown*, “Elimination of Bilirubin Interference in Fluorimetric Determination of Fluorescein Using Phase-Resolved Fluorescence Spectroscopy,” Anal. Chim. Acta 1984, 162, 275-283.

2) L.B. McGown* and F.V. Bright, “Comparison of Phase-Resolved and Steady-State Fluorimetric Multicomponent Determinations Using Wavelength Selection,” Anal. Chem. 1984, 56, 2195-2199.

3) L.B. McGown* and F.V. Bright, “Analytical Applications of Phase-Resolved Fluorescence Spectroscopy,” Anal. Chem. 1984, 56, 1400A-1421A.

4) F.V. Bright and L.B. McGown*, “Homogeneous Immunoassay of Phenobarbital Using Phase-Resolved Fluorescence Spectroscopy,” Talanta 1985, 32, 15-18.

5) L.B. McGown* and F.V. Bright, “Two-Component Determination Using Phase-Resolved Fluorescence Spectroscopy,” Anal. Chim. Acta 1985, 169, 117-123.

6) F.V. Bright and L.B. McGown*, “Four Component Analysis Using Phase-Resolved Fluorescence Spectroscopy,” Anal. Chem. 1985, 57, 55-59.

7) F.V. Bright and L.B. McGown*, “Phase-Resolved Fluorimetric Determinations of Four-Component Systems Using Two Modulation Frequencies,” Anal. Chem. 1985, 57, 2877-2880.

8) F.V. Bright, T.L. Keimig and L.B. McGown*, “Thermodynamic Binding Parameters Determined Using Phase-Resolved Fluorescence Spectroscopy,” Anal. Chim. Acta 1985, 175, 189-201.

9) F.V. Bright, R.A. Bunce* and L.B. McGown*, “A Simple and Rapid Method for the Synthesis of Fluorescein- or Rhodamine-Labeled Phenobarbital,” Org. Prep. Proc. Inter. 1986, 18, 209-212.

10) F.V. Bright and L.B. McGown*, “Minimization of Bilirubin Interference in the Determination of Fluorescein Using First-Derivative Synchronous Fluorescence Spectroscopy,” Analyst 1986, 111, 205-207.

11) F.V. Bright and L.B. McGown*, “Three-Component Determinations Using Fluorescence Anisotropy Measurements and Wavelength Selectivity,” Anal. Chem. 1986, 58, 1424-1427.

12) F.V. Bright, G.H. Vickers and G.M. Hieftje*, “Implementation of Time-Resolution for Elimination of Bilirubin Interference in Fluorescein Determinations,” Anal. Chem. 1986, 58, 1225-1227.

13) F.V. Bright, D.A. Wilson and G.M. Hieftje*, “Determination of Subnanosecond Fluorescence Lifetimes with a UHF Television Tuner and CW or Mode-Locked Laser,” Appl. Spectrosc. 1986, 40, 683-687.

14) F.V. Bright and G.M. Hieftje*, “A New Technique for the Elimination of Fluorescence Interference in Raman Spectroscopy,” Appl. Spectrosc. 1986, 40, 583-587.

15) F.V. Bright, C.A.Monnig and G.M. Hieftje*, “Rapid Frequency-Scanned Fiber-Optic Fluorometer Capable of Subnanosecond Lifetime Determinations,” Anal. Chem. 1986, 58, 3139-3144.

16) F.V. Bright, C.A.Monnig and G.M. Hieftje*, “A New Rapid Frequency-Scanning Fluorometer for the Determination of Picosecond Rotational-Correlation Times,” J. Appl. Phys. 1987, 61, 8-11.

17) F.V. Bright and G.M. Hieftje*, “Rapid-Scanning Frequency-Domain Fluorometer with Picosecond Time Resolution,” Appl. Opt. 1987, 26, 3526-3529.

18) W.A. Wyatt, G.E. Poirier, F.V. Bright and G.M. Hieftje*, “Fluorescence Spectra and Lifetimes of Several Fluorophores Immobilized on Non-Ionic Resins for use in Fiber-Optic Sensors,” Anal. Chem. 1987, 59, 572-576.

19) W.A. Wyatt, F.V. Bright and G.M. Hieftje*, “Characterization and Comparison of Iodide Optrodes Based on Dynamic Fluorescence Quenching of Rhodamine 6G,” Anal. Chem. 1987, 59, 2272-2276.

20) F.V. Bright, K.A. Marshall, C.A.Monnig, G.H. Vickers, D.A. Wilson, W.A. Wyatt and G.M. Hieftje*, “Some Recent Applications of Lasers to Analytical Chemistry,” Laser Topics 1987, 9(2), 8-10.

21) L.B. McGown* and F.V. Bright, “Phase-Resolved Fluorescence in Analysis,” C.R.C. Crit. Rev. Anal. Chem. 1987, 18, 245-298.

22) F.V. Bright, G.E. Poirier and G.M. Hieftje*, “A New Ion Sensor Based on Fiber Optics,” Talanta 1988, 35, 113-118.

23) F.V. Bright, C.A.Monnig and G.M. Hieftje*, “A New Dual-Channel Frequency-Domain Fluorometer for the Determination of Picosecond Rotational Correlation Times,” Appl. Spectrosc. 1988, 42, 272-277.

24) F.V. Bright*, “Multicomponent Suppression of Fluorescent Interferants Using Phase-Resolved Raman Spectroscopy,” Anal. Chem. 1988, 60, 1623-1624.

25) F.V. Bright*, “Fluorescence Anisotropy Selective Technique (FAST): A New Approach to Multicomponent Fluorimetric Analysis,” Appl. Spectrosc. 1988, 42, 1245-1250.

26) F.V. Bright*, “A New Fiber-Optic-Based Multifrequency Phase-Modulation Fluorometer,” Appl. Spectrosc. 1988, 42, 1531-1537.

27) F.V. Bright*, “Bioanalytical Applications of Fluorescence Spectroscopy,” Anal. Chem. 1988, 60, 1031A-1039A.

28) C. Zhu, F.V. Bright, W.A. Wyatt and G.M. Hieftje*, “A New Fluorescent Sensor for Quantification of Atmospheric Humidity,” J. Electrochem. Soc. 1989, 136, 567-570.

29) G.C. Catena and F.V. Bright*, “A Thermodynamic Study on the Effects of Beta-Cyclodextrin Inclusion with Anilino-Naphthyl Sulfonates,” Anal. Chem. 1989, 61, 905-909.

30) M.K. Carroll, F.V. Bright and G.M. Hieftje*, “Luminescence Originating in an Optical Fiber,” Appl. Spectrosc. 1989, 43, 176-178.

31) M.K. Carroll, F.V. Bright and G.M. Hieftje*, “Fiber-Optic Time-Resolved Fluorescence Sensor for the Simultaneous Determination of Al3+, Ga3+, and In3+,” Anal. Chem. 1989, 61, 1768-1772.

32) K.S. Litwiler and F.V. Bright*, “Multidimensional Fluorescence with Fiber-Optic Probes,” in Chemical Sensors and Microinstrumentation, R.W. Murray, R.E. Dessy, W.R. Heineman, J. Janata, and W.R. Seitz, Eds., (1989), ACS Symposium Series, Vol. 403, Chapter 25.

33) F.V. Bright*, “Multifrequency Phase Fluorescence Study of Hapten-Antibody Complexation,” Anal. Chem. 1989, 61, 309-313; errata 1472.

34) F.V. Bright* and K.S. Litwiler, “Multicomponent Fluorimetric Analysis Using A Fiber-Optic Probe,” Anal. Chem. 1989, 61, 1510-1513.

35) C. Zhu, F.V. Bright and G.M. Hieftje*, “Simultaneous Determination of Brand Iwith a Multiple Fiber-Optic Fluorescence Sensor,” Appl. Spectrosc. 1990, 44, 59-63.

36) T.A. Betts, F.V. Bright*, G.C. Catena, J. Huang, K.S. Litwiler and D.P. Paterniti, “Laser-Based Approaches to Increase Fiber-Optic-Based Selectivity: Dynamic Fluorescence Spectroscopy,” in Laser Techniques in Luminescence Spectroscopy, T. Vo-Dinh and D. Eastwood, Eds. (1990), American Society for Testing and Materials Press, Special Technical Publication No. 1066, 88-95.

37) F.V. Bright, C.A. Monnig and G.M. Hieftje*, “A New Fiber-Optic-Based Phase-Resolved Phosphorescence Spectrometer,” in Advances in Multidimensional Luminescence, I.M. Warner and L.B. McGown, Eds. (1990), Vol. 1, JAI Press, 131-147.

38) F.V. Bright*, G.C. Catena and J. Huang, “Evidence for Lifetime Distributions within Cyclodextrin Complexes,” J. Am. Chem. Soc. 1990, 112, 1343-1346.

39) K.S. Litwiler, J. Huang and F.V. Bright*, “Effects of Inaccurate Reference Lifetimes on Interpreting Frequency-Domain Fluorescence Data,” Anal. Chem. 1990, 62, 471-476.

40) F.V. Bright*, T.A. Betts and K.S. Litwiler, “Regenerable Fiber-Optic-Based Immunosensor,” Anal. Chem. 1990, 62, 1065-1069.

41) K.S. Litwiler and F.V. Bright*, “Correction for Excitation Beam Heterogeneities in Multifrequency Phase and Modulation Fluorescence,” Appl. Spectrosc. 1990, 44, 1089-1092.

42) T.A. Betts and F.V. Bright*, “Instrumentation for Steady-State and Dynamic Fluorescence and Absorbance Studies in Supercritical Media,” Appl. Spectrosc. 1990, 44, 1196-1202.

43) T.A. Betts and F.V. Bright*, “Reversible Excited-State Transient Solvation in Binary Supercritical Fluids Revealed by Multifrequency Phase and Modulation Fluorescence,” Appl. Spectrosc. 1990, 44, 1203-1209.

44) K.S. Litwiler, G.C. Catena and F.V. Bright*, “A Simple Fiber-Optic Sensor Based on Immobilized Beta-Cyclodextrin,” Anal. Chim. Acta 1990, 237, 485-490.

45) J. Huang and F.V. Bright*, “Unimodal Lorentzian Lifetime Distribution of the 2,6-Anilinonaphthalene-Beta-Cyclodextrin Inclusion Complex Recovered by Multifrequency Phase-Modulation Fluorometry,” J. Phys. Chem. 1990, 94, 8457-8463.

46) T.G. Vargo, D.J. Hook, K.S. Litwiler, F.V. Bright* and J.A. Gardella, Jr.*, “Silane Refunctionalization of Radio Frequency Glow Discharge Hydrolyzed ePTFE Membrane Surfaces,” Polym. Mater. Sci. Engr. 1990, 62, 259-263.

47) F.V. Bright*, T.A. Betts and K.S. Litwiler, “Advances in Multifrequency Phase and Modulation Fluorimetric Analysis,” C.R.C. Crit. Rev. Anal. Chem. 1990, 21, 389-405.

48) D.J. Hook, T.G. Vargo, J.A. Gardella, Jr.*, K.S. Litwiler and F.V. Bright*, “Aminopropyltriethoxy Silanization (APTES) of Radio Frequency Glow Discharge Modified Expanded Poly Tetrafluoroethylene (ePTFE),” Langmuir 1991, 7, 142-151.

49) G.C. Catena and F.V. Bright*, “Continuous Lifetime Distributions of Beta-Cyclodextrin – Anilinonaphthalene Sulfonic Acid Inclusion Complexes,” J. Fluorescence 1991, 1, 31-39.

50) K.S. Litwiler, P.M. Kluczynski and F.V. Bright*, “Determination of the Transduction Mechanism for Optical Sensors Based on Rhodamine 6G-Impregnated Nafion Films by Combining Steady-State and Frequency-Domain Fluorescence,” Anal. Chem. 1991, 63, 797-802.

51) J. Zhang and F.V. Bright*, “Nanosecond Reorganization of Water within the Interior of Reversed Micelles Revealed by Frequency-Domain Fluorescence Spectroscopy,” J. Phys. Chem. 1991, 95, 7900-7907.

52) T.A. Betts, G.C. Catena, J. Huang, K.S. Litwiler, J. Zhang, J. Zagrobelny and F.V. Bright*, “Fiber-Optic-Based Immunosensors for Haptens,” Anal. Chim. Acta 1991, 246, 55-63.

53) K.S. Litwiler and F.V. Bright*, “Investigation of Beta-Cyclodextrin Immobilized at Silica Surfaces by Fluorescence Spectroscopy,” Appl. Spectrosc. 1992, 46, 169-175.

54) J. Huang and F.V. Bright*, “Microheterogeneity of Sodium Dodecylsulfate Micelles Probes by Frequency-Domain Fluorometry,” Appl. Spectrosc. 1992, 46, 329-339.

55) F.V. Bright*, K.S. Litwiler, T.G. Vargo and J.A. Gardella, Jr., “Enhanced Performance of Fiber-Optic Immunoprobes Using Refunctionalized Fluoropolymers as the Substratum,” Anal. Chim. Acta 1992, 262, 323-330.

56) J. Huang, G.C. Catena and F.V. Bright*, “Fluorescence-Based Investigations of Effects of Alcohol Co-Solvents on the Nature of Cyclodextrin Inclusion Complexation,” Appl. Spectrosc. 1992, 46, 606-614.

57) T.A. Betts, J. Zagrobelny and F.V. Bright*, “Investigation of Solute-Fluid Interactions in Supercritical CF3H: A Multifrequency Phase and Modulation Fluorescence Study,” J. Supercrit. Fluids 1992, 5, 48-54.

58) K.S. Litwiler, T.G. Vargo, D.J. Hook, J.A. Gardella, Jr.* and F.V. Bright*, “Novel Supports for the Development of High Stability Fiber-Optic-Based Immunoprobes,” in Chemically Modified Surfaces, H.A. Mottola and J.R. Steinmetz, Eds., Elsevier (1992), 307-317.

59) T.A. Betts, J. Zagrobelny and F.V. Bright*, “Elucidation of Solute-Fluid Interactions in Supercritical CF3H by Steady-State and Time-Resolved Fluorescence Spectroscopy,” in Supercritical Fluid Technology: Theoretical and Applied Approaches to Analytical Chemistry, F.V. Bright and M.E.P. McNally, Eds. (1992) ACS Symposium Series, Vol. 488, Chapter 4.

60) J. Zagrobelny and F.V. Bright*, “Investigation of Pyrene Excimer Formation in Supercritical CO2,” in Supercritical Fluid Technology: Theoretical and Applied Approaches to Analytical Chemistry, F.V. Bright and M.E.P. McNally, Eds. (1992) ACS Symposium Series, Vol. 488, Chapter 6.

61) T.A. Betts and F.V. Bright*, “Investigation of Solute-Cosolvent Interactions in Supercritical Media: A Frequency-Domain Fluorescence Study,” in Supercritical Fluid Technology: Theoretical and Applied Approaches to Analytical Chemistry, F.V. Bright and M.E.P. McNally, Eds. (1992) ACS Symposium Series, Vol. 488, Chapter 8.

62) J. Zagrobelny and F.V. Bright*, “In-Situ Studies of Protein Conformation in Supercritical Fluids: Trypsin in Carbon Dioxide,” Biotechnol. Prog. 1992, 8, 421-423.

63) J. Zagrobelny, T.A. Betts and F.V. Bright*, “Steady-State and Time-Resolved Fluorescence Investigations of Pyrene Excimer Formation in Supercritical CO2,” J. Am. Chem. Soc. 1992, 114, 5249-5257.

64) J. Zhang and F.V. Bright*, “Steady-State and Time-Resolved Fluorescence Studies of Bis(2-ethylhexyl) Sodium Succinate (AOT) Reverse Micelles in Supercritical Ethane,” J. Phys. Chem. 1992, 96, 5633-5641.

65) J. Zagrobelny and F.V. Bright*, “Influence of Solute-Fluid Clustering on the Photophysics of Pyrene Emission in Supercritical C2H4 and CF3H,” J. Am. Chem. Soc. 1992, 114, 7821-7826.

66) T.A. Betts, J. Zagrobelny and F.V. Bright*, “Spectroscopic Determination of Solute-Fluid Cluster Size in Supercritical N2O,” J. Am. Chem. Soc. 1992, 114, 8163-8171.

67) J. Zhang and F.V. Bright*, “Probing the Internal Dynamics of Reverse Micelles Formed in Highly Compressible Solvents: Aerosol-OT in Nearcritical Propane,” J. Phys. Chem. 1992, 96, 9068-9073.

68) J. Zagrobelny, M. Li, R. Wang, T.A. Betts and F.V. Bright*, “Simple Fiber-Optic-Based Interface to Facilitate Spectroscopic Measurements in Supercritical Solvents,” Appl. Spectrosc. 1992, 46, 1895-1897.

69) M.E. McNally* and F.V. Bright*, “Fundamental Studies and Applications of Supercritical Fluids: A Review,” in Supercritical Fluid Technology: Theoretical and Applied Approaches to Analytical Chemistry, F.V. Bright and M.E.P. McNally, Eds. (1992) ACS Symposium Series, Vol. 488, Chapter 1.

70) F.V. Bright*, G.C. Catena, J. Huang, J. Zagrobelny and J. Zhang, “Dynamic Fluorescence Investigations in $-Cyclodextrin Organized Media,” in Advances in Multidimensional Luminescence, I.M. Warner and L.B. McGown, Eds. (1993), JAI Press, Vol. 2, 85-99.

71) J. Zagrobelny and F.V. Bright*, “Probing Solute-Entrainer Interactions in Matrix-Modified Supercritical CO2,” J. Am. Chem. Soc. 1993, 115, 701-707.

72) U. Narang, F.V. Bright* and P.N. Prasad*, “Characterization of Rhodamine 6G-Doped Thin Sol-Gel Films,” Appl. Spectrosc. 1993, 47, 229-234.

73) R. Wang and F.V. Bright*, “Rotational Reorientation Kinetics of Dansylated Bovine Serum Albumin,” J. Phys. Chem. 1993, 97, 4231-4238.

74) R. Wang and F.V. Bright*, “Detailed Investigation of 2-(p-Toluidinyl) Naphthalene-6-Sulfonic Acid (TNS) Binding to Bovine Serum Albumin by Steady-State and Time-Resolved Fluorescence Spectroscopy,” Appl. Spectrosc. 1993, 47, 792-799.

75) R. Wang and F.V. Bright*, “Comparison between Covalent Attachment and Physisorption of 2-(p-Toluidinyl) Naphthalene-6-Sulfonic Acid (TNS) to Proteins,” Appl. Spectrosc. 1993, 47, 800-806.

76) F.V. Bright*, “Probing Biosensor Interfaces by Multifrequency Phase and Modulation Total Internal Reflection Fluorescence (MPM-TIRF),” Appl. Spectrosc. 1993, 47, 1152-1160.

77) U. Narang, R.A. Dunbar, F.V. Bright* and P.N. Prasad*, “A Chemical Sensor Based on an Artificial Receptor Element Trapped in a Porous Sol-Gel Glass Matrix,” Appl. Spectrosc. 1993, 47, 1700-1703.

78) R. Wang, U. Narang, P.N. Prasad* and F.V. Bright*, “Affinity of Antifluorescein Antibodies Encapsulated in a Transparent Sol-Gel Glass,” Anal. Chem. 1993, 65, 2671-2675.

79) F.V. Bright*, R. Wang, M. Li and R.A. Dunbar, “Probing the Dynamics of Surface-Immobilized Bioreceptors Using Picosecond Time-Resolved Spectroscopy,” Immunomethods 1993, 3, 104-111.

80) R. Wang and F.V. Bright*, “Effects of Protein Denaturation on the Rotational Reorientation Kinetics of Dansylated Bovine Serum Albumin,” J. Phys. Chem. 1993, 97, 10872-10878.

81) U. Narang, R. Wang, P.N. Prasad* and F.V. Bright*, “Effects of Aging on the Dynamics of Rhodamine 6G in Tetramethylorthosilicate Derived Sol-Gels,” J. Phys. Chem. 1994, 98, 17-22.

82) R.A. Dunbar and F.V. Bright*, “Comparison of an Inter- and Intramolecular Cyclodextrin Complex,” Supramol. Chem. 1994, 3, 93-99.

83) J.K. Rice, W.R. Peifer, S.J. Christopher, U. Narang and F.V. Bright*, “Evidence for Changes in the Conformation of Flexible Solutes Dissolved in Supercritical Solvents,” Analyst 1994, 119, 505-512.

84) M. Li, M. Pacholski and F.V. Bright*, “Characterization of Plasma-Modified Fluoropolymer Surfaces Using Steady-State and Time-Resolved Fluorescence Spectroscopy,” Appl. Spectrosc. 1994, 48, 630-637.

85) J.S. Lundgren, E.J. Bekos, R. Wang and F.V. Bright*, “Phase-Resolved Evanescent Wave Induced Fluorescence. An In-Situ Tool for Studying Heterogeneous Interfaces” Anal. Chem. 1994, 66, 2433-2440.

86) J.K. Rice, R.A. Dunbar and F.V. Bright*, “A New Fiber Optic Based High Pressure Cell for Fluorescence Measurements in Near- and Supercritical Solvents,” Appl. Spectrosc. 1994, 48, 1030-1032.

87) U. Narang, J.D. Jordan, P.N. Prasad* and F.V. Bright*, “Probing the Cybotactic Region of PRODAN in Tetramethylorthosilicate (TMOS) Derived Sol-Gels,” J. Phys. Chem. 1994, 98, 8101-8107.

88) U. Narang, P.N. Prasad*, F.V. Bright*, K. Ramanathan, N.D. Kumar, B.D. Malhotra*, M.N. Kamalasanan and S. Chandra*, “Glucose Biosensor Based on a Sol-Gel-Derived Platform,” Anal. Chem. 1994, 66, 3139-3144.

89) U. Narang, P.N. Prasad*, F.V. Bright*, K. Ramanathan, N.D. Kumar, B.D. Malhotra*, M.N. Kamalasanan and S. Chandra*, “A Novel Protocol to Immobilize Active Urease in a Tetraethoxysilane-Derived Sol-Gel Thin Film Architecture,” Chem. Mater. 1994, 6, 1596-1598.

90) R. Wang, S. Sun, E.J. Bekos and F.V. Bright*, “The Dynamics Surrounding Cys-34 in Native, Chemically-Denatured, and Silica-Adsorbed Bovine Serum Albumin,” Anal. Chem. 1995, 67, 149-159.

91) M.P. Heitz and F.V. Bright*, “Rotational Reorientation Dynamics of Xanthene Dyes within the Interior of Aerosol-OT Reversed Micelles,” Appl. Spectrosc. 1995, 49, 20-30.

92) P.N. Prasad*, F.V. Bright*, U. Narang, R. Wang, R.A. Dunbar, J.D. Jordan and R. Gvishi, “Novel Organic:Inorganic Composite Materials for Photonics,” in Hybrid Organic-Inorganic Composites, J.E. Mark, P.A. Bianconi and C.Y-C. Lee, Eds., ACS Symposium Series, Vol. 585, Chapter 25 (1995).

93) E.J. Bekos, J.P. Ranieri, P. Aebischer, J.A. Gardella, Jr.* and F.V. Bright*, “Structural Changes of Bovine Serum Albumin Upon Adsorption on Modified Fluoropolymer Substrates Used for Neural Cell Attachment Studies,” Langmuir 1995, 11, 984-989.

94) R. Gvishi, G.S. He, P.N. Prasad*, U. Narang, M. Li, F.V. Bright* and B.A. Reinhardt*, “Spectroscopic Studies of New Blue Laser Dyes in THF Solution and in Composite Glass,” Appl. Spectrosc. 1995, 49, 834-839.

95) T.G. Vargo, E.J. Bekos, Y.S. Kim, J.P. Ranieri, R. Bellamkonda, P. Aebischer*, D.E. Margevich, P.M. Thompson, F.V. Bright* and J.A. Gardella, Jr.*, “Synthesis and Characterization of Fluoropolymeric Substrata with Immobilized Minimal Peptide Sequences for Cell Adhesion Studies: Part I,” J. Biomed. Mater. Res. 1995, 29, 767-778.

96) J.K. Rice, E.D. Niemeyer, R.A. Dunbar and F.V. Bright*, “State-Dependent Solvation of Pyrene in Supercritical CO2,” J. Am. Chem. Soc. 1995, 117, 5832-5839.

97) U. Narang, M.H. Rahman, J.H. Wang*, P.N. Prasad* and F.V. Bright*, “Removal of RNases from Solution Using an Inhibitor-Based Sol-Gel-Derived Biogel,” Anal. Chem. 1995, 67, 1935-1939.

98) J.D. Jordan, R.A. Dunbar and F.V. Bright*, “Dynamics of Acrylodan-Labeled Bovine and Human Serum Albumin Entrapped in a Sol-Gel-Derived Biogel,” Anal. Chem. 1995, 67, 2436-2443.

99) R. Gvishi, U. Narang, F.V. Bright* and P.N. Prasad*, “Probing the Microenvironment of Solvent Sensitive Dyes Within a Composite Glass,” Chem. Mater. 1995, 7, 1703-1708.

100) J.S. Lundgren, M.P. Heitz and F.V. Bright*, “Dynamics of Acrylodan-Labeled Bovine and Human Serum Albumin Sequestered in Aerosol-OT Reverse Micelles,” Anal. Chem. 1995, 67, 3775-3781.

101) J.K. Rice, E.D. Niemeyer and F.V. Bright*, “Evidence for Density-Dependent Changes in Solute Molar Absorptivities in Supercritical CO2: Impact on Solubility Determination Practices,” Anal. Chem. 1995, 67, 5354-5357.

102) M. Li, M. Pacholski and F.V. Bright*, “Application of a Poly(hexafluoropropyl-co-tetrafluoroethylene) Thin Film Architecture for Aqueous O2 Quantification,” Appl. Spectrosc. 1995, 49, 1809-1814.

103) F.V. Bright*, “Modern Molecular Fluorescence Spectroscopy,” Appl. Spectrosc. 1995, 49, 14A-19A.

104) M.H. Rahman, U. Narang, I.Kang, R.G. Waterbury, F.V. Bright* and J.H. Wang*, “Removal of Ribonuclease for Aqueous Solutions by Anchored Macromolecular Inhibitors,” Anal. Chem. 1996, 68, 134-138.

105) K.P. Johnston,* K. L. Harrison, S.M. Howdle,* M.J. Clarke, M.P. Heitz, F.V. Bright,* C. Carlier and T.W. Randolph*, “Water-in-Carbon Dioxide Microemulsions: A New Environment for Hydrophiles Including Proteins,” Science 1996, 271, 624-626.

106) R.A. Dunbar, J.D. Jordan and F.V. Bright*, “Development of Chemical Sensing Platforms Based on a Sol-Gel-Derived Thin Film: Origin of Film Age vs. Performance Trade Offs,” Anal. Chem. 1996, 68, 604-610.

107) U. Narang, R. Gvishi, F.V. Bright* and P.N. Prasad*, “Sol-Gel-Derived Micron Scale Optical Fibers for Chemical Sensing,” J. Sol-Gel Sci. Technol. 1996, 6, 113-119.

108) S.G. Kazarian, M.F. Vincent, F.V. Bright, C.L. Liotta and C.A.Eckert*, “Specific Intermolecular Interaction of Carbon Dioxide with Polymers,” J. Am. Chem. Soc. 1996, 118, 1729-1736.

109) U. Narang, C.F. Zhao, J.D. Bhawalkar, F.V. Bright* and P.N. Prasad*, “Characterization of a New Solvent Sensitive Two-Photon Induced Fluorescent (Aminostyryl)pyridinium Salt Dye,” J. Phys. Chem. 1996, 100, 4521-4525.

110) M.P. Heitz and F.V. Bright*, “Probing the Scale of Local Density Augmentation in Supercritical Fluids: A Picosecond Rotational Reorientation Study,” J. Phys. Chem. 1996, 100, 6889-6897.

111) J.K. Rice, E.D. Niemeyer and F.V. Bright*, “Solute-Fluid Coupling and Energy Dissipation in Supercritical Fluids: 9-Cyanoanthracene in C2H6, CO2, and CF3H,” J. Phys. Chem. 1996, 100, 8499-8507.

112) J. Lundgren and F.V. Bright*, “Effects of Surfactants on the Dynamical Behavior of Acrylodan-Labeled Bovine Serum Albumin,” J. Phys. Chem. 1996, 100, 8580-8586.

113) M.P. Heitz and F.V. Bright*, “Rotational Dynamics of Aerosol-OT Reverse Micelles in Compressible Fluids,” Appl. Spectrosc. 1996, 50, 732-739.

114) M. Li and F.V. Bright*, “Steady-State Fluorescence of Polystyrene in Supercritical Carbon Dioxide,” Appl. Spectrosc. 1996, 50, 740-746.

115) U. Narang and F.V. Bright*, “Conformational Flexibility of 1,3-Bis(1-pyrenyl)propane Throughout the Sol-Gel to Xerogel Process,” Chem. Mater. 1996, 8, 1410-1414.

116) C.M. Ingersoll, J.D. Jordan and F.V. Bright*, “Accessibility of the Fluorescent Reporter Group in Native, Silica-Adsorbed and Covalently Attached Acrylodan-Labeled Serum Albumins,” Anal. Chem. 1996, 68, 3194-3198.

117) J.S. Lundgren and F.V. Bright*, “Biosensor for the Nonspecific Determination of Ionic Surfactants,” Anal. Chem. 1996, 68, 3377-3381.

118) J.D. Jordan, R.A. Dunbar and F.V. Bright*, “Aerosol-Generated Sol-Gel-Derived Thin Films as Biosensing Platforms,” Anal. Chim. Acta 1996, 332, 83-91.

119) F.V. Bright*, R. Wang, R.A. Dunbar, E.J. Bekos, J.S. Lundgren and U. Narang, “New Techniques to Probe Transduction Phenomena in Optical Biosensors,” Current Topics in Biophysics, Al. I. Cuza University Press, Iasi, Romania, Volume V, 1996, Chapter 10.

120) E.J. Bekos, J.A. Gardella, Jr. and F.V. Bright*, “The Binding of Free Oligopeptides to Cyclodextrins: The Role of the Tyrosine Group,” J. Inclusion Phenom. Molec. Recog. Chem. 1996, 26, 185-195.

121) C.M. Ingersoll and F.V. Bright*, “Sol-Gel-Derived Biosensors,” in 1997 Yearbook of Science and Technology, Encyclopedia of Science & Technology (1996) McGraw-Hill, New York, NY, pp. 47-49.

122) M.P. Heitz, J.C. Horne, G.J. Blanchard* and F.V. Bright*, “T1 Relaxation of Perylene in Fluid Ethane. Pressure-Dependent Changes in Short-Range Organization,” Appl. Spectrosc. 1997, 51, 30-36.

123) S. Sun, M.P. Heitz, S. Bruckenstein*, S.A. Perez, L.A. Colón* and F.V. Bright*, “6-Propionyl-2-(N,N-Dimethylamino) Naphthalene (PRODAN) Revisited,” Appl. Spectrosc. 1997, 51, 1316-1322.

124) E.D. Niemeyer, R.A. Dunbar and F.V. Bright*, “On the Local Environment Surrounding Pyrene in Near and Supercritical Water,” Appl. Spectrosc. 1997, 51, 1547-1553.

125) M.P. Heitz, C. Carlier, J. deGrazia, K. Harrison, K.P. Johnston*, T.W. Randolph* and F.V. Bright*, “The Water Core Within Perfluoropolyether-Based Microemulsions Formed in Supercritical Carbon Dioxide,” J. Phys. Chem. 1997, 101, 6707-6714.

126) C.M. Ingersoll and F.V. Bright*, “Sol-Gel-Derived Materials as Chemical Sensing Platforms,” CHEMTECH, 1997, 27, 26-31. [written up in: Sensor Technology 1997, 13(4), 3-4.]

127) F.V. Bright,* R. Wang and J.S. Lundgren, “Nanosecond and Sub-Nanosecond Time-Resolved Fluorescence Spectroscopy at Interfaces,” Appl. Spectrosc. Rev. 1997, 32, 1-43.

128) C.M. Ingersoll and F.V. Bright*, “Using Fluorescence to Probe Biosensor Interfacial Dynamics,” Anal. Chem. 1997, 69, 403A-408A. (cover article of issue)

129) J.S. Lundgren, A.N. Watkins and F.V. Bright*, “Effects of Hydration on the Fluorescein/Anti-fluorescein System in Aerosol-OT Reverse Micelles,” Appl. Spectrosc. 1998, 52, 96-100.

130) E.D. Niemeyer and F.V. Bright*, “Effects of CO2 Sorption on the Rotational Reorientation Dynamics of a Model Solute Dissolved in Molten Poly(dimethylsiloxane),” Macromolecules 1998, 31, 77-85.

131) C.M. Ingersoll and F.V. Bright*, “Toward Sol-Gel-Processed Chemical Sensing Platforms: Effects of Dopant Addition Time on Sensor Performance,” J. Sol-Gel Sci. Technol. 1998, 11, 169-176.

132) G.A. Baker, J.D. Jordan and F.V. Bright*, “Effects of Poly(ethylene glycol) Doping on the Behavior of Pyrene, Rhodamine 6G, and Acrylodan-Labeled Bovine Serum Albumin Sequestered Within Tetramethylorthosilane-Derived Sol-Gel-Processed Composites,” J. Sol-Gel Sci. Technol. 1998, 11, 43-54.

133) E.D. Niemeyer and F.V. Bright*, “The pH within PFPE Reverse Micelles Formed in Supercritical CO2,” J. Phys. Chem. 1998, 102, 1474-1478.

134) A.N. Watkins, B.R. Wenner, J.D. Jordan, W. Xu, J.N. Demas and F.V. Bright*, “A Portable, Low Cost, Solid-State Luminescence-Based O2 Sensor,” Appl. Spectrosc. 1998, 52, 750-754.

135) J.D. Jordan, R.A. Dunbar, D.J. Hook, H. Zhuang, J.A. Gardella Jr., L.A. Colón and F.V. Bright*, “Production, Characterization and Utilization of Aerosol-Deposited Sol-Gel-Derived Thin Films,” Chem. Mater. 1998, 10, 1041-1051.

136) M.F. Vincent, S.G. Kazarian, B.L. West, J.A. Berkner, F.V. Bright*, C.L. Liotta* and C.A. Eckert*, “Cosolvent Effects of Modified Supercritical Carbon Dioxide on Cross-Linked Poly(dimethylsiloxane),” J. Phys. Chem. 1998, 102, 2176-2186.

137) C.M. Ingersoll, A.N. Watkins, G.A. Baker and F.V. Bright*, “Tracking Nanosecond and Sub-Nanosecond Protein Dynamics On-The-Fly Using Frequency-Domain Fluorescence,” Appl. Spectrosc. 1998, 52, 933-942.

138) K. Flora, J.D. Brennan,* G.A. Baker, M.A. Doody and F.V. Bright*, “Probing the Local and Global Unfolding Behavior of Acrylodan Labeled Human Serum Albumin by Steady-State and Time-Resolved Fluorescence Techniques,” Biophys. J. 1998, 75, 1084-1096.

139) E.D. Niemeyer and F.V. Bright*, “Determination of the Local Environment Surrounding Pyrene in Supercritical Alkanes: A First Step Toward Solvation in Supercritical Aviation Fuels,” Energy & Fuels 1998, 12, 823-829.

140) A.N. Watkins, C.M. Ingersoll, G.A. Baker and F.V. Bright*, “A New Parallel Multiharmonic Frequency-Domain Fluorometer for Measuring Excited-State Decay Kinetics Following One-, Two-, or Three–Photon Excitation,” Anal. Chem. 1998, 70, 3384-3396.

141) A.N. Watkins and F.V. Bright*, “Effects of Fluorescent Reporter Group Structure on the Dynamics Surrounding Cysteine-26 in Spinach Calmodulin: A Model Biorecognition Element,” Appl. Spectrosc. 1998, 52, 1447-1456.

142) F.V. Bright*, “Spectroscopic Characterization of Immobilized Proteins,” in Immobilized Biomolecules in Analysis: A Practical Approach, T. Cass and F.S. Ligler, Ed.,OxfordUniversity Press (1998), Chapter 10.

143) A.M. Hartnett, C.M. Ingersoll, G.A. Baker and F.V. Bright*, “Dynamics and Photophysics of Free Flavins and the Redox Active Site within Glucose Oxidase Dissolved in Solution or Sequestered within a Sol-Gel-Derived Glass,” Anal. Chem. 1999, 71, 1215-1224.

144) G.A. Baker, A.N. Watkins, S. Pandeyand F.V. Bright*, “Static and Time-Resolved Fluorescence of Fluorescein-Labeled Dextran in Solution and Entrapped within a Sol-Gel-Derived Composite,” Analyst 1999, 124, 373-379.

145) G.A. Baker, S. Pandey, E.P. Maziarz III and F.V. Bright*, “Toward Tailored Xerogel Composites: Local Dipolarity and Nanosecond Dynamics within Binary Composites Derived from Tetraethylorthosilane and ORMOSILs, Oligomers or Surfactants,” J. Sol-Gel Sci. Technol. 1999, 15, 37-48.

146) M.K. Carroll*, M.A. Unger, A.M. Leach, M.J. Morris, C.M. Ingersoll and F.V. Bright*, “Interactions Between Methylene Blue and Sodium Dodecyl Sulfate in Aqueous Solution Studied by Molecular Spectroscopy,” Appl. Spectrosc. 1999, 53, 780-784.

147) S. Pandey, G.A. Baker, M.A. Kane and F.V. Bright*, “On the Weak Intrinsic Luminescence from Paclitaxel Dissolved in Nonelectrolyte Solvents,” Appl. Spectrosc. 1999, 53, 991-999.

148) Y. Zhang, G. Wu, B.R. Wenner, F.V. Bright and P. Coppens*, “Engineering Crystals for Excited-State Diffraction Studies: Structure and Spectroscopic Properties of Two Polymorphic Modifications of the 4,4′-Dihydroxybenzophenone/4,13-Diaza-18-crown-6 Complex,” Cryst. Engr. 1999, 2, 1-8.

149) C. Francavilla, F.V. Bright,* and M.R. Detty*, “Dendrimeric Catalysts for the Activation of Hydrogen Peroxide. Increasing Activity per Catalytic Phenylseleno Group in Successive Generations,” Org. Lett. 1999, 1, 1043-1046.

150) G.A. Baker, S. Pandeyand F.V. Bright*, “Multiharmonic Fourier (MHF) Phase-Modulation Fluorescence Spectroscopy with Laser Excitation at 257.3 nm,” Appl. Spectrosc. 1999, 53, 1475-1479.

151) M. Ciubotaru, F.V. Bright*, C.M. Ingersoll and G.B. Koudelka*, “DNA-Induced Conformational Changes in Bacteriophage 434 Repressor,” J. Mol. Biol. 1999, 294, 859-873.

152) S.N. Daniel, E.D. Niemeyer and F.V. Bright*, “Evidence for Molecular Weight Dependent Local Ordering Surrounding Anisotropic Solutes Dissolved in Oligomers: The Perylene and Poly(ethylene glycol) System,” Macromolecules 1999, 32, 8084-8088.

153) N.J. Bonzagni, G.A. Baker, S. Pandey, E.D. Niemeyer and F.V. Bright*, “On the Origin of the Heterogeneous Emission from Pyrene Sequestered within Tetramethylorthosilicate-Based Xerogels: A Decay-Associated Spectra and O2 Quenching Study,” J. Sol-Gel Sci. Technol. 2000, 17, 83-90.

154) G.A. Baker, B.R. Wenner, A.N. Watkins and F.V. Bright*, “Effects of Processing Temperature on the Oxygen Quenching of Tris(4,7′-diphenyl-1,10′-phenanthroline) Ruthenium (II) Entrapped within Sol-Gel-Derived Xerogel Films,” J. Sol-Gel Sci. Technol. 2000, 17, 71-82.

155) M.A. Doody, G.A. Baker, S. Pandeyand F.V. Bright*, “Effects of Ethanol Volume Fraction on Fluorescein-Labeled Apo- and Holo- Spinach Calmodulin,” Anal. Chem. 2000, 72, 227-233.

156) G.A. Baker, F.V. Bright*, M.R. Detty,* S. Pandey, C.E. Stilts and H. Yao, “The Influence of Phenylethynl Linkers on the Absorbance Spectra, Emission Maxima, Excited-State Fluorescence Lifetimes, and Quantum Yields of Fluorescence, Radiative Rates, and Non-radiative Decay of metal-Free Porphyrins,” J. Porphyrins Phthalocyanines 2000, 4, 669-683.

157) M.A. Doody, G.A. Baker, S. Pandey and F.V. Bright*, “Affinity and Mobility of Polyclonal Anti-Dansyl Antibodies Sequestered within Sol-Gel-Derived Biogels,” Chem. Mater. 2000 12, 1142-1147.

158) M.A. Kane, G.A. Baker, S. Pandey and F.V. Bright*, “The Performance of Cholesterol Oxidase within Reverse Micelles Formed in Supercritical Carbon Dioxide,” Langmuir 2000 16, 4901-4905.

159) S. Pandey, G.A. Baker, M.A. Kane, N.J. Bonzagni and F.V. Bright*, “O2 Quenching of Ruthenium (II) tris (2,2′-bipyridyl)2+ within the Water Pool of Perflouropolyether-Based Reverse Micelles Formed in Supercritical Carbon Dioxide,” Langmuir 2000 16, 5593-5599.

160) C.M. Cardona, J. Alvarez, A.E. Kaifer*, T.D. McCarley, S. Pandey, G.A. Baker, N.J. Bonzagni and F.V. Bright*, “Dendrimers Functionalized with a Single Fluorescent Dansyl Group Attached ‘Off Center’: Synthesis and Photophysical Studies,” J. Am. Chem. Soc. 2000 122, 6139-6144.

161) M.A. Kane, G.A. Baker, S. Pandey, E.P. Maziarz III, D.C. Hoth and F.V. Bright*, “Effects of Added CO2 on the Conformation of Pyrene End-Labeled Poly(dimethylsiloxane) Dissolved in Liquid Toluene,” J. Phys. Chem. B 2000 104, 8585-8591.

162) J.D. Brennan*, K.K. Flora, G. Bendiak, G.A. Baker, M.A. Kane, S. Pandey and F.V. Bright, “Probing the Origins of Spectroscopic Responses to Analyte-Induced Conformational Changes in a Fluorescently-Labeled Cod III Parvalbumin,” J. Phys. Chem. B 2000 104, 10100-10110.

163) M.R. Churchill*, K.M. Keil, F.V. Bright*, S. Pandey, G.A. Baker and J.B. Keister*, “Linkage and Redox Isomerism in Ruthenium Complexes of Calecholate, Semiquinone, and o-Acylphenolate Ligands Derived From 1,2-Dihydroxy-9,10-Anthracenedione (Alizarin) and Related Species: Synthesis, Characterizations, and Photophysics,” Inorg. Chem. 2000 39, 5807-5816.

164) G.A. Baker, S. Pandeyand F.V. Bright*, “Extending the Reach of Immunoassays to Optically-Dense Specimens by Using Two-Photon Excited Fluorescence Polarization,” Anal. Chem. 2000 72, 5748-5752.

165) S. Pandey, G.A. Baker, M.A. Kane, N.J.Bonzagni and F.V. Bright*, “On the Microenvironments Surrounding Dansyl Sequestered within Class I and II Xerogels,” Chem. Mater. 2000 12, 3547-3551.

166) F.V. Bright,* S. Pandey and G.A. Baker, “Fluorescence Lifetime Measurements, Applications of,” in Encyclopedia of Analytical Chemistry. Instrumentation and Applications, R.A. Meyers (Ed.), John Wiley & Sons Ltd,Chichester, 2000, pp. 10447-10472.

167) M.A. Kane, S.N. Daniel, E.D. Niemeyer and F.V. Bright*, “Spectroscopic Investigations of Intermolecular Interactions in Supercritical Fluids,” In Fluorescence Spectroscopy – Methods and Applications, B. Valeur and J.-C. Brochon, Eds., Springer-Verlag GmbH & Co. KG,Berlin,Germany, 2001, Chapter 5, 81-97.

168) C. Francavilla, F.V. Bright* and M.R. Detty*, “Dendrimeric Organochalcogen Catalysts for the Activation of Hydrogen Peroxide. Improved Catalytic Activity through Statistical Effects and Cooperativity in Successive Generations,” J. Am. Chem. Soc. 2001 123, 57-67.

169) C.A. Munson, M.A. Kane, G.A. Baker, S. Pandey, S.A. Perez and F.V. Bright*, “Three-Arm Poly(dimethylsiloxane) Junction Bearing a Single Pendant Dansyl Group: A Model Architecture for Polymer Junction Points Dissolved in Liquids and Molten Polymers,” Macromolecules 2001 34, 4624-4629.

170) G.A. Baker, F.V. Bright* and S. Pandey*, “Quantifying Critical Micelle Concentration and Nonidealities within Binary Mixed Micellar Systems: An Upper-Level Undergraduate Laboratory,” Chem. Educator 2001, 6, 223-226.

171) E.J. Cho and F.V. Bright*, “Optical Sensor Array and Integrated Light Source (OSAILS),” Anal. Chem. 2001, 73, 3289-3293. [written up in: Anal. Chem. 2001, 73, 411A; Photonic Spectra 2001, 35(11), 44-46; Materials Today 2002, 5(4), 10.]

172) S.N. Daniel, Baker, G.A.; M.A. Kane and F.V. Bright*, The Cybotactic Region Surrounding Fluorescent Probes Dissolved in1-Butyl-3-methylimidazolium Hexafluorophosphate: Effects of Temperature and Added Carbon Dioxide,” J. Phys. Chem. B 2001, 105, 9663-9668.

173) S.N. Baker, G.A. Baker, C.A. Munson and F.V. Bright*, “A New Hot/Cold Stage for Performing Microfluorimetric Measurements Continuously Between -120 and +100 EC,” Appl. Spectrosc. 2001, 55, 1273-1277.

174) M.A. Kane, S. Pandey, G.A. Baker, S.A. Perez, E.J. Bukowski, D.C. Hoth and F.V. Bright*, “Effects of Density on the Intramolecular Hydrogen Bonding, Tail-Tail Cyclization, and Mean-Free Tail-to-Tail Distances of Pyrene End-Labeled Poly(dimethylsiloxane) Oligomers Dissolved in Supercritical CO2,” Macromolecules 2001, 34, 6831-6838.

175) G.A. Baker, S. Pandey, M.A. Kane, T.D. Maloney, A.M. Hartnett and F.V. Bright*, “Effects of Fluorescent Probe Structure on the Dynamics at Cysteine-34 within Bovine Serum Albumin: Evidence for Probe-Dependent Modulation of the Cybotactic Region,” Biopolymers 2001, 59, 502-511.

176) S.-J. Chung, T.-C. Lin, K.-S. Kim, G.S. He, J. Swiakiewicz, P.N. Prasad,* G.A. Baker, and F.V. Bright, “Two-Photon Absorption and Excited State Energy Transfer Properties of a New Multibranched Molecule,” Chem. Mater. 2001, 13, 4071-4076.

177) Detty, M.R.;* Francavilla, C.; Drake, M.D.; Bright, F.V.;* Higgs, D., “Dendrimeric Catalysts for the Activation of Hydrogen Peroxide: Improved Catalytic Activity through Statistical Effects and Cooperativity,” Polym. Mater. Sci. Engr. 2001, 84, 160-165.

178) D.G. Hilmey, M. Abe, M.I. Nelen, C.E. Stilts, G.A. Baker, S.N. Baker, F.V. Bright, S.R. Davis, S.O. Gollnick, A.R. Oserof, S.L. Gibson, R. Hilf and M.R. Detty*, “Water-Soluble, Core-Modified Porphyrins as Novel, Longer-Wavelength-Absorbing Sensitizers for Photodynamic Therapy. II. Effects of Core Heteroatoms and meso-Substituents on Biological Activity,” J. Med. Chem. 2002, 45, 449-461.

179) L. Sigurdson, D.E. Carney, Y. Hou, L. Hall III, R. Hard*, W.L. Hicks Jr.*, F.V. Bright*, J.A. Gardella Jr.*, “A Comparative Study of Primary and Immortalized Cell Adhesion Characteristics to Modified Polymer Surfaces: Toward the Goal of Effective Re-epithelialization,” J. Biomed. Mater. Res. 2002, 59, 357-365.

180) S. Pandey, M.A. Kane, G.A. Baker, F.V. Bright,* A. Fürstner,* G. Seidel and W. Leitner*, “The Photophysics of 6-(1-Pyrenyl)hexyl-11(1-pyrenyl)undecanoate Dissolved in Neat Liquids and Supercritical Carbon Dioxide: Impact on Olefin Metathesis,” J. Phys. Chem. B 2002 106, 1820-1832.

181) E.J. Cho and F.V. Bright*, “Pin-Printed Chemical Sensor Arrays for Simultaneous Multi-Analyte Quantification,” Anal. Chem. 2002 74, 1462-1466. [written up in: UB Reporter 2002, 33(16), 6; UB Spectrum 2002, 51(49), 3; Water Technol. News 2002, 9(11), 4-5; Materials Today 2002, 5(4), 10; TRN News 040303 www.TRNmag.com; MRS Bulletin/April 2002, 287; Biophotonics International 2002, 9(3), 27; UB Research 2002, 12, 6; ScienceDaily sciencedaily.com 1/28/2002; SpaceDaily spacedaily.com 1/29/02; robots.net 1/28/02; bio.com 1/28/02; spectroscopynow, spectroscopynow.com 2/6/02; The Sol-Gel Gateway solgel.com 1/4/02; Photonics Technology photonics.com November 2001;UBtoday Spring/Summer 2002 p. 8; smalltimes smalltimes.com 1/28/02; Photonics Spectra 2001, 35(11), 44; UB News 2002, Feb. 8; GNET 2002, Jan. 28; EurekAlert 2002, Jan. 25; Sapcedaily 2002, Jan. 29; and Aktuell 2002, Feb. 02.]

182) S.N. Baker, G.A. Baker and F.V. Bright*, “Temperature-Dependent Microscopic Solvent Properties of ‘Dry’ and ‘Wet’ 1-Butyl-3-methylimidazolium Hexafluorophosphate: Correlation with ET(30) and Kamlet-Taft Polarity Scales,” Green Chemistry 2002 4, 169-174.

183) G.A. Baker, C.A. Munson, E.J. Bukowski, S.N. Baker, and F.V. Bright*, “Assessment of One- and Two-Photon Excited Luminescence for Directly Measuring O2, pH, Na+, Mg2+, or Ca2+ in Optically Dense and Biologically Relevant Samples ,” Appl. Spectrosc. 2002 56, 455-463.

184) C.M. Cardona, T. Wilkes, W. Ong, A.E. Kaifer,* T. Donovan-McCarley, S. Pandey, G.A. Baker, M.A. Kane, S.N. Baker and F.V. Bright*, “Dendrimers Functionalized with a Single Pyrene Label: Synthesis, Photophysics and Fluorescence Quenching,” J. Phys. Chem. B 2002 106, 8649-8656.

185) E.J. Cho and F.V. Bright*, “Integrated Chemical Sensor Array Platform Based on a Light Emitting Diode, Xerogel Derived Sensor Elements, and High-Speed Pin Printing,” Anal. Chim. Acta 2002 470, 101-110.

186) E.J. Cho, Z. Tao, E.C. Tehan and F.V. Bright*, “Pin-Printed Biosensor Arrays for Simultaneous Detection of Glucose and O2,” Anal. Chem. 2002 74, 6177-6184.

187) E.J. Cho, Z. Tao, Y. Tang, E.C. Tehan, F.V. Bright,* W.L. Hicks, Jr., J.A. Gardella, Jr. and R. Hard, “Tools to Rapidly Produce and Screen Biodegradable Polymer and Sol-Gel-Derived Xerogel Formulations,” Appl. Spectrosc. 2002 56, 1385-1389.

188) E.J. Bukowski and F.V. Bright*, “Two-Photon Phase-Resolved Fluorescence Spectroscopy,” Appl. Spectrosc. 2002 56, 1588-1592.

189) X. Yang, A.L. Brown, M. Furukawa, S. Li., W.E. Gardinier, E.J. Bukowski, F.V. Bright, C. Zheng, X.C. Zeng and B. Gong*, “A New Strategy for Folding Oligo(m-phenylene ethynylenes),” Chem. Commun. 2003, 56-57.

190) J.-W. Lee, J.A. Gardella, Jr.*, W.L. Hicks, Jr., R.Hard and F.V. Bright, “Analysis of the Initial Burst of Drug Release Coupled with Polymer Surface Degradation,” Pharm. Res. 2003 20, 149-153.

191) L. Sigurdson, T. Sen, L.A. Hall III, A. Rubenfeld, R. Hard, J.A. Gardella Jr., F.V. Bright, J. Lwebuga-Mukasa, and W.L. Hicks Jr., “Possible Impedance of Luminal Reepitheliazation by Trachael Cartilage Metalloproteinases,” Arch. Otolaryngol.Head Neck Surg. 2003 129, 197-200.

192) W.L. Hicks Jr, L.A. Hall III, D.A. Tristram, J.A. Gardella Jr., F.V. Bright, R. Hard and L. Sigurdson, “Interleukin-1 Facilitates Airway Epithelial Migration in Response to Injury,” Larangoscopy 2003 113, 243-247.

193) M. Ciubotaru, L.M. Ptaszek, G.A. Baker, S.N. Baker, F.V. Bright and D.G. Schatz*, “RAG1-DNA Binding in V(D)J Recombination: Specificity and DNA-Induced Conformational Changes Revealed by Fluorescence and CD Spectroscopy,” J. Biol. Chem. 2003 278, 5584-5596.

194) Y. Tang, E.C. Tehan, Z. Tao and F.V. Bright*, “Sol-Gel-Derived Sensor Materials that Yield Linear Calibration Plots, High Sensitivity, and Long Term Stability,” Anal. Chem. 2003 75, 2407-2413.

195) E.J. Cho, Z. Tao, Y. Tang, E.C. Tehan, F.V. Bright,* W.L. Hicks, Jr., J.A. Gardella, Jr. and R. Hard, “Tailored Delivery of Active Protein from Biodegradable Polymer Formulations,” J. Biomed. Mater. Res., Part A 2003 66A, 417-424.

196) M.D. Drake, F.V. Bright* and M.R. Detty*, “Dendrimeric Organochalcogen Catalysts for the Activation of Hydrogen Peroxide: Origins of the “Dendrimer Effect” with Catalysts Terminating in Phenylseleno Groups,” J. Am. Chem. Soc. 2003, 125, 12558-12566.

197) S.N. Baker, G.A. Baker, C.A. Munson, F. Chen, E.J. Bukowski, A.N. Cartwright, and F.V. Bright*, “Effects of Solubilized Water on the Relaxation Dynamics Surrounding 6-propionyl-2-(N,N-dimethylamino)naphthalene Dissolved in 1-Butyl-3-methylimidazolium Hexafluorophosphate at 298 K,” Ind. Engr. Chem. 2003 42, 6457-6463.

198) F.V. Bright* and C.A. Munson, “Time-Resolved Fluorescence Spectroscopy for Illuminating Complex Systems,” Anal. Chim. Acta 2003 500, 71-104.

199) M. Davenport, A.H. Titus,* E.C. Tehan, Z. Tao, Y. Tang, R.M. Bukowski and F.V. Bright,* “Chemical Sensing Systems Using Xerogel-Based Sensor Elements and CMOS Photodetectors,” IEEE Sensors J. 2004 4, 180-8.

200) C.A.Munson, G.A. Baker, S.N. Baker and F.V. Bright*, “Effects of Sub-Zero Temperatures on Fluorescent Probes Sequestered within Aerosol-OT Reverse Micelles,” Langmuir 2004 20, 1551-1557.

201) W.L. Hicks, L.A. Hall III, R. Hard, J. Gardella, F. Bright, N. Parasharama, J. Lwebuga-Mukasa and L. Sigurdson, “Keratinocyte Growth Factor and Autocrine Repair in Airway Epithelium,” Arch. Otolaryngol. Head Neck Surg. 2004, 130, 446-449.

202) E.J. Bukowski and F.V. Bright*, “Minimizing Urine Autofluorescence Under Multi-photon Excitation Conditions,” Appl. Spectrosc. 2004 58, 1101-1105.

203) W.E. Gardinier, M.A. Kane and F.V. Bright*, “Effects of Added CO2 on the Dynamics of Poly(dimethylsiloxane) Oligomers Dissolved in a Theta and Poor Solvent,” J. Phys. Chem. B 2004, 108, 18520-18529.

204) P.M. Page, C.A.Munson and F.V. Bright*, “Dansylated Controlled Pore Glass: A Model for Silica-Liquid Solvation,” Langmuir 2004, 20, 10507-10516.

205) W.G. Holthoff, E.C. Tehan, R.M. Bukowski, N. Kent, B.D. MacCraith* and F.V. Bright*, “Radioluminescent Light Source for the Development of Optical Sensor Arrays,” Anal. Chem. 2005, 77, 718-723.

206) C.A. Munson, P.M. Page and F.V. Bright*, “Effects of Fluid Density on a Poly(dimethylsiloxane)-Based Junction in Pure and Methanol-Modified Carbon Dioxide,” Macromolecules 2005, 38, 1341-1348.

207) R.M. Bukowski, R. Ciriminna, M. Pagliaro and F.V. Bright*, “High Performance Quenchometric Oxygen Sensors Based on Fluorinated Xerogels Doped with [Ru(dpp)3]2+,” Anal. Chem. 2005, 77, 2670-2672.

208) Y. Tang, J.A. Finlay, G.L. Kowalke, A.E. Meyer, F.V. Bright, M.E. Callow, J.A. Callow, D.E. Wendt and M.R. Detty*, “Hybrid Xerogel Films as Novel Coatings for Antifouling and Fouling Release,” Biofouling 2005, 21, 59-71.

209) G.A. Baker*, S.N. Baker*, S. Pandey* and F.V. Bright*, “An Analytical View of Ionic Liquids,” Analyst 2005, 130, 800-808. (cover article)

210) W.E. Gardinier and F.V. Bright*, “Temperature-Dependent Tail-Tail Dynamics of Pyrene Labeled Poly(dimethylsiloxane) Oligomers Dissolved in Ethyl Acetate,” J. Phys. Chem. B 2005, 109, 14824-14829.

211) W.E. Gardinier, G.A. Baker, S.N. Baker and F.V. Bright,* “The Behavior of Pyrene End-Labeled Poly(Dimethylsiloxane) Polymer Tails in Mixtures of 1-Butyl-3-methyl-imidazolium Bis(trifluoromethyl)sulfonyl Imide and Toluene,” Macromolecules 2005, 38, 8574-8582.

212) V.P. Chodavarapu, R.M. Bukowski, S.J. Kim, A.H. Titus, A.N. Cartwright and F.V. Bright*, “A Multi-Sensor System Based on Phase Detection, an LED Array, and Luminophore-Doped Xerogels,” Electron. Lett. 2005, 41, 1031-1033.

213) Z. Tao, E.C. Tehan, Y. Tang and F.V. Bright,* “Highly Stable Sensors with Tunable Sensitivities Based on Class II Xerogels,” Anal. Chem. 2006, 78, 1939-1945.

214) Z. Tao, E.C. Tehan, R.M. Bukowski, Y. Tang, E.L. Shughart, W.G. Holthoff, A.N. Cartwright, A.H. Titus and F.V. Bright*, “Templated Xerogels as Platforms for Biomolecule-less Biomolecule Sensors,” Anal. Chim. Acta 2006, 564, 59-65.

215) E.L. Shughart, K. Ahsan, M.R. Detty and F.V. Bright*, “Site Selectively Templated and Tagged Xerogels for Chemical Sensors,” Anal. Chem. 2006, 78, 3165-3170.

216) F.V. Bright* and G.A. Baker*, “Comment on ‘How Polar Are Ionic Liquids? Determination of the Static Dielectric Constant of an Imidazolium-based Ionic Liquid by Microwave Dielectric Spectroscopy’,” J. Phys. Chem. B 2006, 110, 5822-5823.

217) R.M. Bukowski, M.D. Davenport, A.H. Titus and F.V. Bright*, “O2-Responsive Chemical Sensors Based on Hybrid Xerogels that Contain Fluorinated Precursors,” Appl. Spectrosc. 2006 60, 951-957.

218) S. Ohki*, G.A. Baker, P.M. Page, T.A. McCarty, R. Epand and F.V. Bright, “Interaction of Influenza Virus Fusion-Peptide with Lipid Membranes: Effects of Lysolipid,” J. Memb. Biol. 2006 211, 191-200.

219) Y. Tang, Z. Tao, R.M. Bukowski, E.C. Tehan, S. Karri, A.H. Titus and F.V. Bright*, “Tailored Xerogel-Based Sensor Arrays and Artificial Neural Networks Yield Improved Accuracy and Precision,” The Analyst 2006 131, 1129-1136.

220) J.J. Holt, M.K. Gannon, II, G. Tombline, T.A. McCarty, P.M. Page, F.V. Bright and M.R. Detty*, “A Cationic Chalcogenoxanthylium Photosensitizer Effective In Vitro in Chemosensitive and Multidrug-Resistant Cells,” Bioorg. Med. Chem. 2006 14, 8635-8643.

221) P.M. Page, T.A. McCarty, G.A. Baker, S.N. Baker and F.V. Bright*, “Comparison of Dansylated Aminopropyl Controlled Pore Glass Solvated by Molecular and Ionic Liquids,” Langmuir 2007 23, 843-849.

222) V.P. Chodavarapu, D.O. Shubin, R.M. Bukowski, A.H. Titus*, A.N. Cartwright*, and F.V. Bright*, “CMOS based Phase Fluorometric Oxygen Sensor System,” IEEE Trans. Cir. Sys I. (Special Issue on Smart Sensors) 2007 54, 111-118.

223) Y. Tang, Z. Tao and F.V. Bright*, “Sol Hydrolysis and Condensation Reaction Time Influence the Sensitivity of Class II Xerogel-Based Sensing Materials,” J. Sol-Gel Sci Technol. 2007 42, 127-133.

224) C.A. Munson, L. Kelepouris, G.A. Baker, S.N. Baker, G.J. Blanchard, and F.V. Bright*, “On the Behavior of Indole-Containing Species Sequestered within the Water Pool of Reverse Micelles at Sub-zero Temperatures,” Appl. Spectrosc. 2007 61, 537-547.

225) E.C. Tehan, D.J. Higbee, T.D. Wood and F.V. Bright*, “Tailored Quartz Pins for High-Density Microsensor Array Fabrication,” Anal. Chem. 2007 79, 5429-5434.

226) M. Ciubotaru, A.N. Kriatchko, P.C. Swanson, F.V. Bright and D.G. Schatz*, “Fluorescence Resonance Energy Transfer Analysis of Recombination Signal Sequence Configuration in the RAG1/RAG2 Synaptic Complex,” Molec. Cell. Biol. 2007 27, 4745-4758.

227) E.L. Holthoff and F.V. Bright*, “Molecularly Templated Materials in Chemical Sensing,” Anal. Chim. Acta 2007 594, 147-161.

228) E.L. Holthoff and F.V. Bright*, “Molecularly Imprinted Xerogels as Platforms for Sensing,” Acc. Chem. Res. 2007 40, 756-767.

229) R.M. Bukowski, V.P. Chodavarapu, A.H. Titus,* A.N. Cartwright* and F.V. Bright*, “Phase Fluorometric Glucose Biosensor Using Oxygen as Transducer and Enzyme Doped Xerogels,” Electron. Lett. 2007 43, 202-204.

230) V.P. Chodavarapu, * R.M. Bukowski, A.H. Titus, A.N. Cartwright and F. V. Bright, “CMOS Integrated Luminescence Oxygen Multi-Sensor System,” Electron. Lett. 2007 43, 688-689.

231) H. Om, G.A. Baker, F.V. Bright, K.K. Verma, and S. Pandey*, “Noninvasive Probing of Aqueous Triton X-100 with Steady-State and Frequency-Domain Fluorometry,” Chem. Phys. Lett. 2007 450, 156-163.

232) W.G. Holthoff, L.T. Tan, E.L. Shughart, E.M. Cardone, and F.V. Bright*, “High Throughput Production and Screening Strategies for Creating Advanced Biomaterials and Chemical Sensors,” for Combinatorial Methodologies for Development of Chemical and Biological Sensors R. Potyrailo, Ed., 2008, Chapter 3.

233) T.A. McCarty, P.M. Page, G.A. Baker, and F.V. Bright*, “Behavior of Acrylodan-Labeled Human Serum Albumin Dissolved in Ionic Liquids,” Ind. Eng. Chem. Res. 2008, 47, 560-569.

234) J.M. Steves, L.T. Tan, J.A. Gardella Jr., W.L. Hicks Jr., R. Hard, A.N. Cartwright, B. Koc, and F.V. Bright*, “Guest Aggregation within Poly(L-lactic acid)/Pluonic P104 Thin Films,” Appl. Spectrosc. 2008, 62, 290-294.

235) E.L Holthoff and F.V. Bright*, “The Photophysics of 9,10-Anthracenediol and a Bifunctional Sacrificial Template in Solution and Xerogels,” Appl. Spectrosc. 2008, 62, 345-352.

236) P.M. Page, T.A. McCarty, C.A. Munson, and F.V. Bright*, “The Local Microenvironment Surrounding Dansyl Molecules Attached to Controlled Pore Glass in Pure and Alcohol-Modified Supercritical Carbon Dioxide,” Langmuir 2008, 24, 6616-6623.

237) Y. Nishiyama, T. Wada, S. Asaoka, T. Mori, T.A. McCarty, N.D. Kraut, F.V. Bright, and Y. Inoue*, “Entrainer Effect on Photochirogenesis in Near- and Supercritical Carbon Dioxide: Dramatic Enhancement of Enantioselectivity,” J. Am. Chem. Soc. 2008, 130, 7526-7527.

238) S.M. Bennett, Y. Tang, D. McMaster, F.V. Bright,* and M.R. Detty*, “A Xerogel-Sequestered Selenoxide Catalyst for Brominations with Hydrogen Peroxide and Sodium Bromide in an Aqueous Environment,” J. Org. Chem. 2008, 73, 6849-6852.

239) J.A. Gardella*, J.-W. Lee, E.D. Jeong, E.J. Cho, W.L. Hicks, R. Hard and F.V. Bright, “Surface-Phase Separation of PEO-containing Biodegradable PLLA Blends and Block Copolymers,” Appl. Surf. Sci. 2008, 255, 2360-2364.

240) D.M. McMaster, S.M. Bennett, Y. Tang, J.A. Finlay, G.L. Kowalke, B. Nedved, F.V. Bright, M.E. Callow, J.A. Callow, D.E. Wendt, M.G. Hadfield and M.R. Detty*, “Antifouling Character of “Active” Hybrid Xerogel Coatings with Sequestered Catalysts for the Activation of Hydrogen Peroxide,” Biofouling 2009, 25, 21-33.

241) S.N. Baker, T.A. McCarty, W.T. Heller, F.V. Bright*, and G.A. Baker*, “Ionic Liquid Advances in Optical Electrochemical, and Biochemical Sensor Technology,” in Ionic Liquids in Chemical Analysis, M. Koel, Ed., CRC Press, 2009, Chapter 3, 99-137.

242) R. Chandrasekhar, J.C. Miecznikowski*, D.P. Gaile, V. Govindaraju, F.V. Bright and K.F. Sellers, “Xerogel package,” Chemomet. Intell. Lab. Syst. 2009, 96, 70-74.

243) P. Selvaggio,* S. Tusa, M.R. Detty, F.V. Bright, R. Ciriminna and M. Pagliaro*, “Ecofriendly Protection from Biofouling of the Monitoring Systems at Pantelleria’s Cala Gadir Archaeological Site,” Inter. J. Naut. Arch. 2009, 38, 417-421.

244) C.M. Andolina, W.G. Holthoff, P.M. Page, R.A. Mathews, J.R. Morrow*, and F.V. Bright*, “Spectroscopic System for Direct Lanthanide Photoluminescence Spectroscopy with Nanomolar Detection Limits,” Appl. Spectrosc. 2009, 63, 483-493.

245) L. Yao, R. Khan, V. Chodavarapu,* V.S. Tripathi, K.Y. Yung and F.V. Bright*, “*Sensitivity Enhanced CMOS Phase Photoluminescence System using Xerogel-Based Sensors,” IEEE Trans. Biomed. Circ.Syst. 2009, 3, 304-311.

246) J. Yu, C.M. Mahoney, A.J. Fahey, W.L. Hicks Jr, R. Hard, F.V. Bright and J.A. Gardella Jr*, “Phase Separation at the Surface of PEO-containing Biodegradable PLLA Blends,” Langmuir 2009, 25, 11467-11471.

247) I.T. Ozbolat, M. Marchany, F.V. Bright, A.N. Cartwright, J.A. Gardella Jr., R. Hard, W.L. Hicks Jr. and B. Koc, “Feature Based Bio-Modeling of Micro-patterned Structures for Tissue Engineering,” Comp Aided Desgn. J. 2009, 6, 661-667.

248) T.A. Page, N.D. Kraut, P.M. Page, G.A. Baker and F.V. Bright*, “Dynamics of Loop 1 of Domain I in Human Serum Albumin when Dissolved in Ionic Liquids,” J. Phys. Chem. B 2009, 113, 12825-12830.

249) S.M. Bennett, J.A. Finlay, N. Gunari, D.D. Wells, A.E. Meyer, G.C. Walker, M.E. Callow, J.A. Callow, F.V. Bright and M.R. Detty*, “The Role of Surface Energy and Wettability in Amioalkyl/Fluorocarbon/Hydrocarbon-Modified Xerogel Surfaces in the Control of Marine Biofouling,” Biofouling 2010, 26, 235-246.

250) L.T. Tan, W.G. Holthoff, J.M. Steves and F.V. Bright*,“Probe-dependent Microenvironments within Biodegradable Films Formed from Poly (L-lactic acid) and Pluronic 104,” Appl. Spectrosc. 2010, 64, 359-364.

251) P.J.R. Roche, M.C-K Cheung, K.Y. Yung, A.G. Kirk, V.P. Chodavarpu and F.V. Bright*, “Application of Gold Quenching of Luminescence to Improve Oxygen Sensing using a Ruthenium (4,7-diphenyl-1,10-phenanthroline)3 Cl2:TEOS Thin Film,” Sens. Actu.: B Chem. 2010, 147, 581-586.

252) S.A. Burns, R. Hard, W.L. Hicks Jr., F.V. Bright, D. Cohan, L. Sigurdson and J.A. Gardella Jr. *, “Determining the Protein Drug Release Characteristics and Cell Adhesion to a PLLA or PLGA Biodegradable Polymer Membrane,” J. Biomed. Mater.Res. Part A 2010, 94A, 27-37.

253) L. Yao, K.Y. Yung, R. Khan, V.P. Chodavarapu*, and F.V. Bright, “CMOS Imaging of Pin-Printed Xerogel based Luminescent Sensor Microarrays,” IEEE Sens. J. 2010, 10, 1824-1832.

254) E.L. Holthoff and F.V. Bright*, “Photophysics Associated with Site Selectively Templated and Tagged Xerogel Sensor Platforms,” Appl. Spectrosc. 2010, 64, 714-719.

255) E.L. Holthoff and F.V. Bright*, “Dynamics within a Site Selectively Templated and Tagged Xerogel Sensor Platforms,” Appl. Spectrosc. 2010, 64, 1073-1077.

256) T.M. McCormick, B.D. Calitree, A. Orchard, N.D. Kraut, F.V. Bright, M.R. Detty, R. Eisenberg*, “Reductive Side of Water Splitting in Artificial Photosynthesis: New Homogeneous Photosystems of Great Activity and Mechanistic Insight,” J. Am. Chem Soc. 2010, 132, 15480-15483.

257) E.-R.E. Mojica, J. Autschbach, F.V. Bright* and D.S. Aga*, “Synthesis and Evaluation of Tetracycline Imprinted Xerogels: Comparison of Experiment and Computational Modeling,” Anal. Chim. Acta 2011, 684, 63-71.

258) E.-R.E. Mojica, J. Autschbach, F.V. Bright* and D.S. Aga*, “Tetracycline Speciation During Molecular Imprinting Xerogels Results in Class-Selective Binding,” Analyst 2011, 136, 749-755.

259) N. Gunari, L.H. Brewer, S.M. Bennett, A. Sokolova, N.D. Kraut, J.A. Finlay, A.E. Meyer, G.C. Walker, D.E. Wendt, M.E. Callow, J.A. Callow, F.V. Bright, and M.R. Detty*, “The Control of Marine Biofouling on Xerogel Surfaces via a Combination of Surface Energy/Water Wettability with Nanometer-scale Topography,” Biofouling 2011, 27, 137-149.

260) S.N. Baker, H. Zhao, S. Pandey, W.T. Heller, F.V. Bright and G.A. Baker*, “Fluorescence Energy Transfer Efficiency in Labeled Yeast Cytochrome c: A Rapid Screen for Ion Biocompatibility in Aqueous Ionic Liquids,” Phys. Chem. Chem. Phys. 2011, 13, 3642-3644.

261) K.Y. Yung, A.J. Schadock-Hewitt, N.P. Hunter, F.V. Bright,* and G.A. Baker*, ““Liquid Litmus”: Chemosensory pH-Responsive Photonic Ionic Liquids,” Chem. Comm. 2011, 47, 4775-4777.

262) L. Yao, L.; K.Y. Yung, V.P. Chodavarapu* and F.V. Bright*, “CMOS Imaging of Temperature Effects on Pin-Printed Xerogel Sensor Micorarrays,” IEEE Trans. Biomed. Circuit. 2011, 5, 189-196.

263) D.S. Daivasagaya; L. Yao, K.Y. Yung, M. Hajj-Hassan, M.C. Cheung, V.P. Chodavarapu, * F.V. Bright,* “Contact CMOS Imaging of Gaseous Oxygen Sensor Array,” Sens. Actuat. B: Chem. 2011, 157, 408-416.

264) M.A. Kane*, F.V. Bright and J.L. Napoli*, “Binding Affinities of CRBPI and CRBPII for 9-cis-Retinoids,” Biochim. Biophys. Acta 2011, 1810, 54-518.

265) M.J. Dabney and F.V. Bright*, “High Pressure Total Internal Reflectance Fluorescence Apparatus, Appl. Spectrosc. 2011, 65, 1233-1239.

266) K.Y. Yung, H. Xu, K. Liu, G.J. Martinez, F.V. Bright*, M.R. Detty and A.N. Cartwright, “Hybrid Oxygen-Responsive Reflective Bragg Grating Platforms,” Anal. Chem. 2012, 84, 1402-1407.

267) A. Sokolova, J.J. Bailey, G.T. Waltz, J.A. Finlay, A.E. Meyer, J. Fornalik, D.E. Wendt, M.E. Callow, J.A. Callow, F.V. Bright and M.R. Detty, “Spontaneous Multiscale Phase Separation within Fluorinated Xerogel Coatings for Fouling-Release Surfaces,” Biofouling 2012, 28, 143-157.

268) A. Sokolova, N. Cilz, J. Daniels, S.J. Stafslien, L.H. Brewer, D.E. Wendt, F.V. Bright and M.R. Detty*, “A Comparison of Antifouling/Foul-Release Characteristics of Non-biocidal Xerogel and Commercial Coatings Toward Micro- and Macrofouling Organisms,” Biofouling 2012, 28, 511-523.

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.

289) J.F. Destino, C.M. Gatley, A.K. Craft, M.R. Detty, and F.V. Bright, “Probing Nanoscale Chemical Segregation and Surface Properties of Antifouling Hybrid Xerogel Films,” Langmuir. 2015, 31, 3510-3517.

290) M.A. Kline, X. Wei, I.J. Horner, R. Liu, S. Chen, S. Chen, K. Yung, K. Yamato, Z. Cai, F.V. Bright, X.C. Zeng and B. Gong, “Extremely Strong Tubular Stacking of Aromatic Oligoamide Macrocycles,” Chem. Sci. 2015, 6, 152-157.

291) K.Y. Yung, Z. Zhan, A.H. Titus, G.A. Baker, and F.V. Bright, “Ratiometric, Filter-Free Optical Sensing Based on a Complementary Metal Oxide Semiconductor Buried Double Junction Photodiode,” Anal. Chim. Acta 2015, 884, 77-82.

292) M.R. Detty, R. Ciriminna, F.V. Bright and M. Pagliaro, “Xerogel Coatings Produced by the Sol-Gel Process as Anti-Fouling, Fouling-Release Surfaces: From Lab Bench to Commercial Reality,” ChemNanoMat 2015, 1, 148-154.

293) I.J. Horner, N.D. Kraut, J.J. Hurst, A.M. Rook, C.M. Collado, G.E. Atilla-Gokcumen, E.P. Maziarz, X.M. Liu, M.M. Merchea and F.V. Bright, “Effects of Polyhexamethylene Biguanide, and Polyquaternium-1 on Phospholipid Bilayer Structure and Dynamics,” J. Phys. Chem. B, 2015, 119, 10531-10542.

294) R. Ciriminna, F.V. Bright, and M. Pagliaro, “Ecofriendly Antifouling Marine Coatings,” ACS Sustainable Chem. Eng., 2015, 3, 559-565.

295) J.C. Vinci, I.M. Ferrer, N.W. Guterry, V.M. Colon, J.F. Destino, F.V. Bright, L.A. Colon, “Spectroscopic Characterisics of Carbon Dots (C-Dots) Derived from Carbon Fibers and Conversion to Sulfur-Bridged C-Dots Nanosheets,” Appl. Spectrosc., 2015, 69, 1082-1090.

296) D.T. McCall, Y. Zhang, D.J. Hook, F.V. Bright, “Optimizing Pin-Printed and Hydrosilylated Microarray Spot Density on Porous Silicon Platforms,” Langmuir, 2015, 31, 11370-11377.

297) S.G. Coombs, F.V. Bright, “Spatial Characteristics of Contact Pin-Printed Silanes and Bioconjugates on Oxidized Porous Silicon,” J. Phys. Chem. C, 2016, 120, 6011-6019.

298) J.F. Destino, N.D. Kraut, L.E. Hargrave, F.V. Bright, “Robust pH-Responsive Group IV Metal Oxide Functionalized Porous Silicon Platforms,” Mater. Lett., 2016, 181, 47-51.

299) P. Taheri, J. Wang, H. Xing, J.F. Destino, M. Murat Arkin, C. Zhao, K. Kang, B. Blizzard, L. Zhang, P. Zhao, S. Huang, S. Yeng, F.V. Bright, J. Cherne, H. Zeng, “Growth Mechanisms of Largescale MoS2 Monolayer by Sulfurization of MoO3 Film,” Mater. Res. Express, 2016, 3, 075009.

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