Publications

Journal Articles

1. Knoblauch, R., Harvey, A., Ra, E., Greenberg, K.M., Lau, J., Hawkins, E., and Geddes, C.D. (2021). Antimicrobial carbon nanodots: photodynamic inactivation and dark antimicrobial effects on bacteria by brominated carbon nanodots. Nanoscale, 13, 85.
2. Moskowitz, J. and Geddes, C.D. (2020). The Inverse Relationship between Metal-Enhanced Fluorescence and Fluorophore-Induced Plasmonic Current. The Journal of Physical Chemistry Letters, 11, 8145-8151.
3. Knoblauch, R., Moskowitz, J., Hawkins, E., and Geddes, C.D. (2020). Fluorophore-Induced Plasmonic Current: Generation-Based Detection of Singlet Oxygen. ACS Sensors, 0c00377.
4. Moskowitz, J., Sindi, R., and Geddes, C.D. (2020). Plasmonic Electricity II: The Effect of Particle Size, Solvent Permittivity, Applied Voltage, and Temperature on Fluorophore-Induced Plasmonic Current. Journal of Physical Chemistry C, 124, 5780-5788.
5. Knoblauch, R., Ben Hamo, H., Marks, R., and Geddes, C.D. (2020). Spectral distortions in zinc-based metal-enhanced fluorescence underpinned by fast and slow electronic transitions. Chemical Physical Letters, 744, 137212.
6. Knoblauch, R., Ben Hamo, H., Marks, R., and Geddes, C.D. (2020). Spectral Distortions in Metal-Enhanced for Ultra-Fast and Slow Transitions. Journal of Physical Chemistry C, 124, 4723-4737.
7. Lucas, E., Knoblauch, R., Combs-Bosse, M., Broedel, S.E. Jr., and Geddes, C.D. (2019). Low-concentration trypsin detection from a metal-enhanced fluorescence (MEF) platform: Towards the development of ultra-sensitive and rapid detection of proteolytic enzymes. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 228, 117739.
8. Moskowitz J. and Geddes, C.D. (2019). Plasmonic Electricity: Fluorophore-Induced Plasmonic Current. Journal of Physical Chemistry C, 123, 27770-27777.
9. Santaus, T.M., Greenberg, K., Suri, P., and Geddes, C.D. (2019). Elucidation of a Non-Thermal Mechanism for DNA/RNA Fragmentation and Protein Degradation when using Lyse-It. PLOS ONE. 14(12): e0225475.
10. Santaus, T.M., Zhang, F., Li, S., Stine, O.C., and Geddes, C.D. (2019). Effects of Lyse-It on Endonuclease Fragmentation, Function and Activity. PLOS ONE. 14(9): e0223008.
11. Santaus, T.M., Li, S., Saha, L., Chen, W.H., Bhagat, S., Stine, O.C., and Geddes, C.D., (2019). A Comparison of Lyse-It to other Cellular Sample Preparation, Bacterial Lysing and DNA Fragmentation Technologies. PLOS ONE. 14(7): e0220102.
12. R. Knoblauch and Chris D. Geddes (2019). Silvered Conical-bottom 96-well plates: Enhanced low volume detection and the metal-enhanced fluorescence volume/ratio effect. Nanoscale., 11,4337-4344.
13. R.D. Schmitz, R. Knoblauch, E.Ra and C.D. Geddes. (2019). Alpha-fluorescence (αS₁) from thermally stable carbon nanodots. Chem. Phys. Letts., 721, 123-128.
14. Knoblauch, R., Ra, E., and Geddes, C.D. (2019). Heavy Carbon Nanodots 2: Plasmon Amplification in Quanta Plate Wells and the Correlation with the Synchronous Scattering Spectrum. Physical Chemistry Chemical Physics,21, 1254-1259.
15. Melendez, J.H., Hardick, J., Barnes, M., Barnes, P., Geddes, C.D., and Gaydos, C. (2018). Molecular Characterizations of Markers Associated with Antimicrobial Resistance in Neisseria Gonorrhoeae Identified from Residual Clinical Samples. Sexually Transmitted Diseases. 45(5), 312-315.
16. Knoblauch,R., Bui, A., Raza, A., and Geddes, CD (2018). Heavy carbon nanodots: a new phosphorescent carbon nanostructure. Physical Chemistry Chemical Physics, 20, 15518-15527
17. Santaus, T.M., Shan, Li, Ladd, P., Harvey, A., Cole, S., Stine, O.C. and Geddes C.D. (2018). Rapid sample preparation with Lyse-It® for Listeria monocytogenes and Vibrio cholerae. PLOS ONE,13(7), e0201070.
18. Wang, Y., Lee, Y.Y, Sauntaus, T.M., Newcomb, C.E., Liu, J., Geddes, C.D., Zhang, C., Hu, Q. and Li, Y. (2017). In Situ Enzymatic Conversion of Nannochloropsis oceanica IMET1 Biomass into Fatty Acid Methyl Esters. Bioenergy Research, 10(2), 438-448.
19. Melendez, J.H., Santaus, T., Brinsley, G., Kiang, D., Mali, B., Hardick, J., Gaydos, C.A., and Geddes, C.D. (2016). Microwave-Accelerated Method for Ultra-Rapid Extraction of Neisseria gonorrhoeae DNA for Downstream Detection. Analytical BioChemistry, 510, 33-40.
20. Ford-Carlton, P et al., (2016). National Institute of Biomedical Imaging and Bioengineering Point-of-care Technology Research Network: Advancing Precision Medicine. J. Translational Engineering in Health and Medicine 4, 2800614.
21. Tota, M.R., Allen, J. M., Karolin, J,O., Geddes, C.D., and Ward, W.W. (2016). Identification of a Fluorescent Protein from Rhacostoma Atlantica. Photochemistry and Photobiology, 92, 667-677.
22. Siraj, Noureen, El-Zahab, Bilal, Hamdan, Suzana, Karam, Tony E., Haber, Louis H., Li, Min, Fakayode, Sayo O., Das, Susmita, Valle, Bertha, Strongin, Robert M., Patonay, Gabor, Sintim, Herman O., Baker, Gary A., Powe, Aleeta, Lowry, Mark, Karolin, Jan O., Geddes, Chris D., and Warner, Isiah M. (2016). . Fluorescence, Phosphorescence and Chemiluminescence, Analytical Chemistry,, 88, 170-202.
23. Zhang, F., Blasiak, L.C., Karolin, J.O., Powell, R. J., Geddes, C. D., Hill, R.T. (2015). Phosphorus Sequestration in the form of Polyphosphate by Microbial Symbionts in Marine Sponges. PNAS - Proceedings of the National Academy of Sciences of the United States of America, 112(14),4381-4386.
24. Hamo, H., Karolin, J., Mali, B., Kushmaro, A., Marks, R., and Geddes, C.D. (2015). Metal-Enhanced Fluorescence from Zinc substrates can lead to Spectral Distortion and a Wavelength Dependence. Applied Physics Letters, 106, 081605.
25. Boyd, Mary, Tennant, Sharron, Melendez, Johan, Toema, Deanna, Galen, Jim, Geddes, Chris and Levine, Myron. (2015). Adaption of Red Blood Cell Lysis represents a fundamental breakthrough that improves Salmonella detection in Blood. J. Applied Microbiology, 118(5), 1199-1209.
26. Schmitz, Rachel D., Karolin, Jan O., and Geddes, C.D. (2015). Plasmonic Enhancement of Intrinsic Carbon Nanodot Emission. Chemical Physics Letters, 622, 124-127.
27. Mishra, Hirydesh and Geddes, Chris D. (2014). Metal-Enhanced S1 and Alpha-S1 Fluorescence: Effects of Far-Field Excitation Irradiance on Enhanced Fluorescence. Journal of Physical Chemistry C, 118, 28791-28796.
28. Golberg, K., Elbaz, A., McNeil, R., Kushmaro, A., Geddes, C.D. and Marks, R.S. (2014). Increased Bioassay Sensitivity of Bioactive Molecule Discovery using Metal-Enhanced Bioluminescence. Journal of Nanoparticle Research, 16(12), 2770.
29. Joshi, T., Mali., B., Geddes, C.D., Baillie, L., (2014). Extraction and Sensitive Detection of Toxins A and B from the human pathogen Clostridium difficile in 40 seconds using Microwave-Accelerated Metal-Enhanced Fluorescence, Plos One, 9,8,e104334.
30. Dragan, A., and Geddes, CD., (2014). 5-Color Multiplexed Microwave-Accelerated Metal-Enhanced Fluorescence: Detection and Analysis of Multiple DNA Sequences from within one Sample Well within a Few Seconds, Journal of Fluorescence, 24(6), 1715-1722.
31. Karolin, J. and Geddes, C.D., (2014). Spectral Shifts in Metal-Enhanced Fluorescence, Applied Physics Letters, 105, 063102.
32. Anatoliy Dragan, August Graham and Chris D. Geddes, (2014). Fluorescence Based Broad Dynamic Range Viscosity Probes, Journal of Fluorescence, 24,2, 397-402.
33. Dragan, A., Pavlovic, R. and Geddes, CD., (2014), Rapid Catch and Signal (RCS) Technology Platform: Multiplexed Three Color, 30s Microwave-Accelerated Metal-Enhanced Fluorescence DNA Assays, Plasmonics, 9(6), 1501-1510.
34. Hirydesh Mishra, Buddha Mali, Jan Karolin, Anatoliy Dragan and Chris D. Geddes, (2013). Experimental and Theoretical Study of the Distance Dependence of Metal-Enhanced Fluorescence, Phosphorescence and Delayed Fluorescence in a Single System. Physical Chemistry Chemical Physics (PCCP), 15, 19538-19544.
35. Karolin, J., and Geddes, C.D., (2013). Metal-Enhanced Fluorescence based Excitation Volumetric Effect of Plasmon-enhanced Singlet Oxygen and Superoxide Generation. Physical Chemistry Chemical Physics (PCCP), 15, 15740-15745.
36. Mali, B., Dragan, A., Karolin, J., and Geddes, C.D., (2013). Photophysical Characterization and alpha-type delayed luminescence of rapidly prepared Au Clusters. Journal of Physical Chemistry C., 117, 16650-16657.
37. Melendez, J.H., Huppert, J.S., Jett-Goheen, M., Hesse, E.A., Quinn, N., Gaydos, C.A. and Geddes, CD. (2013). Blind Evaluation of the Microwave-Accelerated Metal-Enhanced Fluorescence Ultrarapid and Sensitive Chlamydia Trachomatis test by use of Clinical Samples, Journal of Clinical Microbiology, 51(9), 2913-2920.
38. Dragan, AI., Mali, B., and Geddes, CD., (2013). Wavelength-dependent Metal-Enhanced Fluorescence using synchronous spectral analysis, Chemical Physics Letters, 556, 168-172.
39. Zhang, Y., Mali, B., Aitken, C., and Geddes, CD, (2013). Highly Sensitive Quantitation of Human Serum Albumin in Clinical Samples for Hypoproteinemia using Metal-Enhanced Fluorescence, Journal of Fluorescence, 23(1), 187-192, 2013.
40. Karolin, J. and Geddes, C.D. (2012). Reduced Lifetimes are Directly Correlated with Excitation Irradiance in Metal-Enhanced Fluorescence, Journal of Fluorescence, 22 (6), 1659-1662.
41. Dragan, A. I., Bishop, E. S., Casas-Finet, J. R., Strouse, R. J., McGivney, J., Schenerman, M. A., and Geddes, C. D., (2012). Distance Dependence of Metal-Enhanced Fluorescence, Plasmonics, 7(4), 739-744.
42. Dragan, A. I., Pavlovic, R.,McGivney, J. B., Casas-Finet, J. R., Bishop, E. S., Strouse, R. J., Schenerman, M. A., and Geddes, C. D., (2012). SYBER Green I: Fluorescence Properties and Interaction with DNA. Journal of Fluorescence, 22, 1189-1199.
43. Dragan, A., Albrecht, MT., Pavlovic R., Keane-Myers AM., and Geddes, CD., (2012). Ultra-Fast pg/ml Anthrax toxin (PA) detection assay based on Microwave-Accelerated Metal-Enhanced Fluorescence, Analytical Biochemistry, 425, 54-61.
44. Dragan, A and Geddes, Chris D., (2012). Metal-Enhanced Fluorescence: The Role of Quantum Yield, Q0, in Enhanced Fluorescence. Applied Physics Letters, 100, 093115.
45. Feng, C., Stamatos, N. M., Dragan, A., Medvedev, A., Whitford, M., Zhang, L., Song C., Rallabhandi, P., Nhu, Q., Vogel, S. N., Geddes C. D., Cross, A. S. (2012), Sialyl Residues Modulate LPS-Mediated Signaling through the Toll-Like Receptor 4 Complex. Plos 1, 7(4): e32359.
46. Zhang, Y, Mali, B., and Geddes, Chris D., (2012). Metal-Enhanced Fluorescence Exciplex Emission, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 85, 134-138.
47. Ragas, Xavier, Zhang, Y., Massad, W., Geddes, C. D., and Nonell, S. (2011). Singlet Oxygen production enhancement by Silver Island Films. Journal of Physical Chemiestry C., 115 (33), 16275-16281.
48. Mishra, Hirydesh, Dragan, Anatoliy and Geddes, Chris D., (2011). UV to NIR surface plasmon-coupled and Metal-enhanced fluorescence using Indium Thin Films: Application to Intrinsic (Label-less) Protein Fluorescence Detection. Journal of Physical Chemistry C., 115(35), 17227-17236.
49. Zhang, Y., Goncalves, H, Esteves, JCG and Geddes, CD (2011). Metal-Enhanced Photoluminescence from Carbon Dots. Chem. Commun., 47, 5313-5315.
50. Tennant, S. M., Zhang, Y., Galen, J. E., Geddes, C. D., and Levine, M.M. (2011). Ultra-fast and Sensitive detection of Non-typhoidal Salmonella using Microwave-Accelerated Metal-Enhanced Fluorescence (MAMEF), PloS One, 6, 4, e18700.
51. Mishra, H., Zhang, Y., and Geddes, C. D., (2011). Metal-Enhanced Fluorescence of the Fluorescent Brightening Agent Tinopal-CBX Near Silver Island Films, Dyes and Pigments, 91 (2), 225-230.
52. Goldberg, K., Elbaz, A., Zhang, Y., Dragan, A., Marks, R., and Geddes, C. D., (2011). Mixed-Metal Substrates for Applications in Metal-Enhanced Fluorescence, Journal of Materials Chemistry, 21, 6179-6185.
53. Dragan, A. I., and Geddes, Chris D., (2011). Excitation Volumetric Effects (EVE) in Metal-Enhanced Fluorescence. Physical Chemistry Chemical Physics, 13, 3831-3838.
54. Zhang, Y., Agreda, P., Kelly, S., Gaydos, C., and Geddes, C. D., (2011). Development of a Microwave-Accelerated Metal-Enhanced Fluorescence 40 seconds, < 100 cfu/ml point of care assay for the detection of Chlamydia Trachomatis. IEEE Transactions on Biomedical Engineering, 58(3), 781-784.
55. Bondre, N., Zhang, Y. and Geddes, Chris D., (2011). Metal-Enhanced Fluorescence based Calcium Detection: Greater than 100-fold increase in signal/noise using Fluo-3 or Fluo-4 and Silver Nanostructures. Sensors and Actuators B: Chemical, 152, 82-87.
56. Dragan, A. I., Golberg, K., Elbaz, A., Marks, R., Zhang, Y and Geddes, Chris D.,(2011). Two-color, 30 second Microwave-Acceleated Metal-Enhanced Fluorescence assays: A new Rapid Catch and Signal (RCS) technology. Journal of Immunological Methods, 366, 1-7.
57. Dragan, A. I. and Geddes, Chris D., (2010). Indium Nanodeposits: A Substrate for Metal-Enhanced Fluorescence in the UV Spectral Region. Journal of Applied Physics, 108, 094701.
58. Dragan, A. I., Casas-Finet, J. R., Bishop, E. S., Strouse, R, J., Schenerman, M. A. and Geddes, C. D., (2010). Characterization of Picogreen Interaction with dsDNA and the origin of its fluorescence enhancement upon binding. Biophysical Journal, 99, 3010-3019. .
59. Weisenberg, M, Zhang, Y. and Geddes, C. D., (2010). Metal-Enhanced Chemiluminescence from Chromium, Copper, Nickel and Zinc Nanodeposits: Evidence for a second enhancement mechansim in metal-enhanced fluorescence. Applied Physics Letters, 97, 133103.
60. Dragan, A. I., Bishop, E. S., Casas-Finet, J. R., Strouse, R. J., Schenerman, M. A., and Geddes, C. .D, (2010). Metal-Enhanced Picogreen Fluorescence: Application to fast and ultra-sensitive pg/ml DNA quantitation, Journal of Immunological Methods, 362, 95-100.
61. Zhang, Y and Geddes, C .D., (2010). Metal-Enhanced Fluorescence from Thermally Stable Rhodium Nanodeposits, Journal of Materials Chemistry, 20, 8600-8606.
62. Zhang, Y, Mandeng L. N., Bondre N., Dragan, A., and Geddes C .D, (2010), Metal Enhanced Fluorescence from Silver-SiO2 Nanoburger Structures, Langmuir, 26(14), 12371-12376.
63. Kleinman, M. H., Smith, M. D., Kurali, E, Reeser S, Jiang, K., Zhang, Y, Kennedy-Gabb, S. A., Lynch, A. M., and Geddes, Chris D. (2010). An Evaluation of Chemical Photoreactivity and the Relationship To Phototoxicity, Regulatory Toxicology and Pharmacology, 58, 224-232.
64. Zhang, Y, Padhyay, A., Sevilleja, J., Guerrabt, R. L., and Geddes, C.D. (2010). Interactions of fluorophores with Iron nanoparticles: Metal-Enhanced Fluorescence, Journal of Physical Chemistry C., 114, 7575-7581.
65. Zhang, Y., Dragan, A. and Geddes, C.D. (2010). Metal-Enhanced Fluorescence from Tin Nanostructured Surfaces, Journal of Applied Physics. 197, 024302.
66. Dragan, A., Bishop, E.S., Casas-Finet, J.R., Strouse, R.J., Schenerman, M.A., and Geddes, C.D. (2010). Metal-Enhanced PicoGreen Fluorescence: Application for dsDNA Quantification, Analytical BioChemistry, 396, 8-12.
67. Aslan, K., Weisenberg, M., Hortle, E., and Geddes, C.D.. (2009). Directional, Broad and Fixed Angle Surface plasmon coupled fluorescence from iron thin films, Journal of Physical Chemistry Letters, 113, 20535-20538.
68. Dragan, A., Bishop, E.S., Casas-Finet, J.R., Strouse, R.J., Schenerman, M.A., and Geddes, C.D. (2009). Metal-Enhanced Ethidium Bromide Emission: Application to dsDNA Detection, Chemical Physics Letters, 480(4-6), 296-299.
69. Kadir Aslan, Micah Weisenberg, Elinor Hortle, and Chris D. Geddes. (2009). Fixed-Angle Observation of Surface Plasmon Coupled Chemiluminescence from Palladium Thin Films, Applied Physics Letter, 95, 123117.
70. Aslan, K. and Geddes, C.D.. (2009). Wavelength-Ratiometric Plasmon Light Scattering-based Immunoassays, Plasmonics, 4(4), 267-272.
71. Zhang, Y., Dragan, A. and Geddes, C.D. (2009). Broad Wavelength Range Metal-Enhanced Fluorescence using Nickel Nanodeposits, Journal of Physical Chemistry C, 113, 15811-15816.
72. Pribik, R., Dragan, A., Zhang, Y., Gaydos, C.and Geddes, C.D.. (2009). Metal-Enhanced Fluorescence (MEF): Physical characterization of silver Island Films and exploring sample geometries, Chemical Physics Letters, 70-74, 478.
73. Aslan, K. and Geddes, C.D. (2009). Directional Surface Plasmon Coupled Luminescence for Analytical Sensing Applications: Which Metal, What Wavelength, What Observation Angle?, Analytical Chemistry, 81, 6913-6922. pdf (supporting information).
74. Zhang, Y., Dragan, A. and Geddes, C.D.. (2009). Wavelength Dependence of Metal-Enhanced Fluorescence, Journal of Physical Chemistry C., 113(28), 12095-12100.
75. Aslan, K., Zhang, Y. and Geddes, C.D. (2009). Sonication-Assisted Metal-Enhanced Fluorescence (SAMEF)-based Bioassays, Analytical Chemistry, 81, 4713-4719.
76. Aslan, K., Zhang, Y. and Geddes, C.D. (2009). Surface Plasmon Coupled Fluorescence in the Visible to Near-Infrared Spectral Regions using Thin Nickel Films: Application to Whole Blood Assays, Analytical Chemistry, 81, 3801-3808.
77. Aslan K., Weisenberg M. , Hortle H. and Geddes, C.D. (2009). Surface Plasmon Coupled Chemiluminescence from Iron Thin Films: Directional and Approaching Fixed Angle Observation, Journal of Applied Physics, 106, 014313.
78. Weisenberg, M., Aslan, K., Hortle, E. and Geddes, C.D. (2009). Directional Surface Plasmon coupled Chemiluminescence from Nickel thin films: Fixed Angle Observation, Chemical Physics Letters, 473, 120-125.
79. Zhang, Y., Aslan, K. and Geddes, C.D. (2009). Voltage-Gated Metal-Enhanced Fluorescence, Journal of Fluorescence, 19(2), 363-367.
80. Dragan, A.I., Zhang, Y. and Geddes, C.D. (2009). Voltage-Gated Metal-Enhanced Fluorescence II: Effects of Fluorophore Concentration on the Magnitude of the Gated Current, Journal of Fluorescence, 19(2), 369-374.
81. Eltzov, E., Prilutsky, D., Kushmano, A., Marks, R.S. and Geddes, C.D. (2009). Metal-Enhanced Bioluminescence: An Approach for Monitoring Biological Luminescent Processes, Applied Physics Letters, 94, 083901.
82. Aslan, K. and Geddes, C.D. (2009). Surface Plasmon Coupled Chemiluminescence from Zinc Substrates: Directional Chemiluminescence, Applied Physics Letters, 94, 073104.
83. Aslan, K., Previte, M.J.R., Zhang, Y. and Geddes, C.D. (2008). Metal-Enhanced Fluorescence from Nanoparticulate Zinc Films, Journal of Physical Chemistry C, 112 (47), 18368-18375.
84. Pribik, R., Aslan, K., Zhang, Y. and Geddes, C.D. (2008). Metal-Enhanced Fluorescence from Chromium Nanodeposits, Journal of Physical Chemistry C, 112, 17969-17973.
85. Aslan, K., McDonald, K., Previte, M.J.R., Zhang, Y., Geddes, C.D. (2008). Silver island nanodeposits to enhance surface plasmon coupled fluorescence from copper thin films, Chemical Physics Letters, 464, 216-219.
86. Aslan, K., Previte, M.J.R., Zhang, Y. and Geddes, C.D. (2008). Surface Plasmon Coupled Fluorescence in the Ultraviolet and Visible Spectral Regions using Zinc Thin Films, Analytical Chemistry, 80, 7304-7312.
87. Aslan, K., Previte, M.J.R., Zhang, Y., Gallagher, T., Baillie, L. and Geddes, C.D. (2008). Extraction and Detection of DNA from Bacillus Anthracis Spores and the Vegetative Cells within 1 minute, Analytical Chemistry, 80, 4125-4132.
88. Zhang, Y., Aslan, K., Previte, M.J.R. and Geddes, C.D. (2008). Metal-Enhanced Excimer (P-Type) Fluorescence, Chemical Physics Letters, 458, 147-151.
89. Aslan, K., Malyn, S.N., Zhang, Y. and Geddes, C.D. (2008). Conversion of just Continuous Metallic Films to Large Particulate Substrates for Metal-Enhanced Fluorescence, Journal of Applied Physics, 103, 084307.
90. Aslan, K., Malyn, S.N. and Geddes, C.D. (2008). Angular-Dependent Metal-Enhanced Fluorescence from Silver Island Films, Chemical Physics Letters, 453, 222-228.
91. Wu, X., Chowdhury, M.H., Geddes, C.D., Aslan, K., Domszya, R., Lakowicz, J.R., Yang, A. J-M. (2008). Use of Surface Plasmon-Coupled Emission for Enhancing Light Transmission through Top-Emitting Organic Light Emitting Diodes, Thin Solid Films, 516, 1977-1983.
92. Chowdhury, M.H., Ray, K., Geddes, C.D., Lakowicz, J.R. (2008). Use of silver nanoparticles to enhance surface plasmon-coupled emission (SPCE), Chemical Physics Letters, 452, 162-167.
93. Zhang, Y., Aslan, K., Previte, M.J.R. and Geddes, C.D. (2008). Plasmonic engineering of singlet oxygen generation, PNAS, 105 (6), 1798-1802.
94. Wu, X., Chowdhury, M.H., Geddes, C.D., Aslan, K., Domszy, R., Lakowicz, J.R. and Yang, A. J-M. (2008). Use of surface plasmon-coupled emission for enhancing light transmission through top-emitting organic light emitting diodes, Thin Solid Films, 516, 1977-1983.
95. Zhang, Y., Aslan, K., Previte, M.J.R. and Geddes, C.D. (2008). Metal-Enhanced E- type Fluorescence, Applied Physics Letters, 92, 013905.
96. Aslan, K., Previte, M.J.R., Zhang, Y., Geddes, C.D. (2008). Microwave-accelerated surface plasmon-coupled directional luminescence 2: a platform technology for ultra fast and sensitive target dna detection in whole blood, Journal of Immunological Methods, 331, 103-113.
97. Zhang, Y., Aslan, K., Previte, M.J.R. and Geddes, C.D. (2008). Metal-enhanced fluorescence from paper substrates: Modified spectral properties of dyes for potential high-throughput surface analysis and assays and as an anti-counterfeiting technology, Dyes and Pigments, 77 (3), 545-549.
98. Chowdhury, M.H., Ray, K., Aslan, K., Lakowicz, J.R., Geddes, C.D. (2007). Metal-enhanced fluorescence of phycobiliproteins from heterogeneous plasmonic nanostructures, Journal of Physical Chemistry C, 111, 18856-18863.
99. Previte, M.J.R., Aslan, K., Zhang, Y., Geddes, C.D. (2007). Real-time thermal imaging of microwave accelerated metal-enhanced fluorescence (MAMEF) based assays on sapphire plates, Journal of Fluorescence, 17(6), 639-642.
100. Aslan, K., Malyn, S.N., Geddes, C.D. (2007). Angular-Dependent Metal-Enhanced Fluorescence from Silver Colloid Deposited Films: Opportunity for Angular-Ratiometric Surface Assays, Analyst, 132, 1112-1121.
101. Aslan, K., Malyn, S.N., Bector, G., Geddes, C.D. (2007). Microwave-accelerated metal-enhanced fluorescence: an ultra-fast and sensitive DNA sensing platform, Analyst, 132, 1122-1129.
102. Aslan, K., Zhang, Y., Hibbs, S., Baillie, L., Geddes, C.D. (2007). Microwave-accelerated metal-enhanced fluorescence: application to detection of genomic and exosporium anthrax DNA in <30 seconds, Analyst, 132, 1130-1138.
103. Previte, M.J.R., Zhang, Y., Aslan, K., Geddes, C.D. (2007). Surface Plasmon Coupled Fluorescence from Copper Substrates, Applied Physics Letters, 91, 151902.
104. Zhang, Y., Aslan, K., Previte, M.J.R., Geddes, C.D. (2007). Low Temperature Metal-Enhanced Fluorescence, Journal of Fluorescence, 17(6), 627-631.
105. Chowdhury, M.H., Gray, S.K., Pond, J., Geddes, C.D., Aslan, K., Lakowicz, J.R. (2007). Computational study of fluorescence scattering by silver nanoparticles, Journal of the Optical Society of America B: Optical Physics, 24(9), 2259-2267.
106. Previte, M.J.R., Geddes, C.D. (2007). Fluorescence microscopy in a microwave cavity, Optics Express 15(18), 11640-11649.
107. Zhang, Y., Aslan, K., Previte, M.J.R., Geddes, C.D. (2007). Metal-enhanced superoxide generation: A consequence of plasmon-enhanced triplet yields, Applied Physics Letters , 91(2).
108. Previte, M.J.R., Geddes, C.D. (2007). Microwave-triggered surface plasmon coupled chemiluminescence, Journal of the American Chemical Society 129(32), 9850-9851.
109. Aslan, K., Malyn, S.N. (2007). Microwave-accelerated surface plasmon-coupled directional luminescence: Application to fast and sensitive assays in buffer, human serum and whole blood, Journal of Immunological Methods, 323(1), 55-64.
110. Previte, M.J.R., Aslan, K., Geddes, C.D. (2007). Spatial and temporal control of microwave triggered chemiluminescence: a protein detection platform, Analytical Chemistry, 79(18), 7042-7052.
111. Zhang, Y., Aslan, K., Previte, M.J.R., Geddes, C.D. (2007). Metal-Enhanced Superoxide Generation: A Consequence of Plasmon Enhanced Triplet Yields, Applied Physics Letters, 91, 0234114
112. Zhang, Y., Aslan, K., Previte, M.J.R., Geddes, C.D. (2007). Metal-enhanced Singlet Oxygen Generation: A Consequence of Plasmon Enhanced Triplet Yields, Journal of Fluorescence, 17(4), 345-349.
113. Previte, M.J.R., Geddes, C.D. (2007). Microwave-Triggered Chemiluminescence with Planar Geometrical Aluminum Substrates: Theory, Simulation and Experiment, Journal of Fluorescence, 17:279–287.
114. Aslan, K., Malyn, S.N., Geddes, C.D. (2007). Microwave-Accelerated Surface Plasmon-Coupled Directional Luminescence: Application to fast and sensitive assays in buffer, human serum and whole blood, Journal of Immunological Methods 323, 55–64.
115. Zhang, Y., Aslan, K., Previte, M.J.R., Geddes, C.D. (2007). Metal-Enhanced Fluorescence from Copper Substrates, Applied Physics Letters, 90, 173116.
116. Previte, M.J.R., Aslan, K., Zhang, Y, Geddes, C.D. (2007). Metal-Enhanced Surface Plasmon Coupled Phosphorescence, Journal of Physical Chemistry C, 111(16), 6051-6059.
117. Aslan, K., Wu, M., Lakowicz, J.R., Geddes, C.D. (2007). Metal Enhanced Fluorescence Solution-based Sensing Platform 2: Fluorescent Core-Shell Ag@SiO2 Nanoballs, Journal of Fluorescence, 17(2), 127-131.
118. Aslan, K., Geddes, C.D. (2007). Microwave-Accelerated Ultra-Fast Nanoparticle Aggregation Assays using Gold Nanoparticles, Analytical Chemistry, 79, 2131-2136.
119. Aslan, K., Previte, M.J.R., Zhang, Y., Geddes, C.D. (2007). Microwave-Accelerated Plasmonics:Application to Ultra-Fast and Ultra-Sensitive Clinical Assays, Proceedings - Spie the International Society for Optical Engineering, vol. 6450, 645007.
120. Aslan, K., Wu, M., Lakowicz, J.R., Geddes, C.D. (2007). Fluorescent Core-Shell Ag@SiO2 Nanocomposites for Metal Enhanced Fluorescence and Single Nanoparticle Sensing Platforms, Journal of the American Chemical Society, 129(6), 1524-1525.
121. Zhang, Y., Aslan, K., Previte, M.J.R., Geddes, C.D. (2007). Metal-Enhanced Fluorescence: Surface Plasmons can Radiate a Fluorophores Structured Emission, Applied Physics Letters, 90, 053107.
122. Chowdhury, M.H., Malyn, S.N., Aslan, K., Lakowicz, J.R., Geddes, C.D. (2007). First observation of surface plasmon-coupled chemiluminescence (SPCC), Chemical Physics Letters,435, 114–118.
123. Aslan, K., Malyn, S.N., Geddes, C.D. (2007). Metal-Enhanced Fluorescence from Large Gold Colloids on Planar Surfaces: Angular Dependent Emission, Journal of Fluorescence, 17(1), 7-13. (COVER ARTICLE)
124. Zhang, Y., Aslan, K., Previte, M.J.R., Malyn, S.N., and Geddes, C.D. (2006). Metal-Enhanced Phosphorescence: Interpretation in Terms of Triplet-Coupled Radiating Plasmons, Journal of Physical Chemistry B, 110, 25108-25114.
125. Previte, M.J.R., Aslan, K., Zhang, Y., Geddes, C.D. (2006). Surface plasmon coupled phosphorescence (SPCP), Chemical Physics Letters, 432, 610–61.
126. Zhang, Y., Aslan, K., Previte, M.J.R., Geddes, C.D. (2006). Metal-enhanced S2 fluorescence from azulene, Chemical Physics Letters, 432, 528–532.
127. Previte, M.J.R., Aslan, K., Malyn, S.N., and Geddes, C.D. (2006). Microwave Triggered Metal Enhanced Chemiluminescence: Quantitative Protein Determination, Analytical Chemistry, 78, 8020-8027.
128. Aslan, K., Malyn, S.N., Geddes, C.D. (2006). Multicolor Microwave-Triggered Metal-Enhanced Chemiluminescence, Journal of the American Chemical Society, 128(41), 13372-13373.
129. Chowdhury, M.H., Malyn, S.N., Aslan, K., Lakowicz, J.R., and Geddes, C.D. (2006). Multicolor Directional Surface Plasmon-Coupled Chemiluminescence, Journal of Physical Chemistry B, 110, 22644-22651.
130. Previte, M.J.R., Aslan, K., Malyn, S.N., Geddes, C.D. (2006). Microwave-Triggered Metal-Enhanced Chemiluminescence: Ultra Fast and Sensitive Quantitative Protein Determination, Journal of Fluorescence, 16, 641-647.
131. Aslan, K., Malyn, S.N., Geddes, C.D. (2006). Fast And Sensitive DNA Hybridization Assays Using Microwave-Accelerated Metal-Enhanced Fluorescence, Biochemical and Biophysical Research Communications, 348(2), 612-617.
132. Zhang, Y., Aslan, K., Malyn, S.N., Geddes, C.D. (2006). Metal-enhanced phosphorescence (MEP), Chemical Physics Letters, 427, 432–437.
133. Aslan, K., Holley, P., Geddes, C.D. (2006). Metal-enhanced fluorescence from silver nanoparticle-deposited polycarbonate substrates, Journal of Materials Chemistry, 16(27), 2846-2857.
134. Aslan, K., Holley, P., Geddes, C.D. (2006). Microwave-Accelerated Metal-Enhanced Fluorescence (MAMEF) with silver colloids in 96-well plates: Application to ultra fast and sensitive immunoassays, High Throughput Screening and drug discovery, Journal of Immunological Methods, 312, 137–147.
135. Chowdhury, M.H., Aslan, K., Malyn, S.N., Lakowicz, J.R., Geddes, C.D. (2006). Metal-Enhanced Chemiluminescence, Journal of Fluorescence, 16(3), 295-299.
136. Chowdhury, M.H., Aslan, K. and Malyn, S.N., Lakowicz, J.R., Geddes, C.D. (2006). Metal-enhanced chemiluminescence: Radiating plasmons generated from chemically induced electronic excited states, Applied Physics Letters, 88, 173104.
137. Aslan, K. and Geddes, C.D. (2006). Microwave-Accelerated and Metal-Enhanced Fluorescence Myoglobin Detection on Silvered Surfaces: Potential Application to Myocardial Infarction Diagnosis, Plasmonics, 1(1), 53-59.
138. Aslan, K. and Geddes, C.D. (2006). Microwave-Accelerated Metal-Enhanced Fluorescence (MAMEF): Application to Ultra Fast and Sensitive Clinical Assays, Journal of Fluorescence, 16(1), 3-8.
139. Aslan, K., Huang, J., Wilson, G.M., and Geddes, C.D. (2006). Metal-Enhanced Fluorescence-Based RNA Sensing, Journal of the American Chemical Society, 128, 4206–4207.
140. Aslan, K., and Geddes, C.D. (2005). Microwave-Accelerated Metal-Enhanced Fluorescence (MAMEF): A New Platform Technology for Ultra-Fast and Ultra-Bright Assays, Analytical Chemistry, 77(24), 8057-8067.
141. Aslan, K., Lakowicz, J.R. and Geddes, C.D. (2005). Angular-Dependent Polarization-based Plasmon Light-Scattering for Bioaffinity Sensing, Applied Physics Letters, 87, 234108.
142. Aslan, K., Leonenko, Z., Lakowicz, J.R. and Geddes, C.D. (2005). Annealed Silver-Island Films for Applications in Metal-Enhanced Fluorescence: Interpretation in Terms of Radiating Plasmons, Journal of Fluorescence, 15(5), 643-654.
143. Aslan, K., Lakowicz, J.R. and Geddes, C.D. (2005). Plasmon Light Scattering in Biology and Medicine: New Sensing Approaches, Visions and Perspectives, Current Opinions in Chemical Biology: Analytical Techniques, 9, 538-544.
144. Aslan, K., Davies, L. Holley, P., Lakowicz, J.R. and Geddes, C.D. (2005). Angular-Ratiometric Plasmon Resonance Light Scattering for Bioaffinity Sensing, Journal of the American Chemical Society, 127(34), 12115-12121.
145. Wu, M., Lakowicz, J.R., and Geddes, C.D. (2005). Enhanced Lanthanide Luminescence Using Silver Nanostructures: Opportunities for a New Class of Probes with Exceptional Spectral Characteristics, Journal of Fluorescence, 15(1):53-59
146. Aslan, K., Lakowicz, J.R., Geddes, C.D. (2005). Metal-enhanced fluorescence using anisotropic silver nanostructures:critical progress to date, Analytical and Bioanalytical Chemistry, 382: 926–933. (Cover Article)
147. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2005). Anion sensing using quinolinum boronic acid probes, Current Analytical Chemistry, 1(2) (2005) 157-170.
148. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2005). Wavelength-ratiometric near-physiological pH sensors based on 6-aminoquinolinium boronic acid probes, Talanta, 66, 569-574.
149. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2005). Enhanced-fluorescence cyanide detection at physiologically lethal levels: Reduced ICT based signal transduction, Journal of the American Chemical Society, 127(10), 3635-3641.
150. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2005). Glucose sensing contact lens: From bench top to patient, Current Opinion in Biotechnology, 16(1), 100-107.
151. Aslan, K., Badugu, R., Lakowicz, J.R., and Geddes, C.D. (2005). Metal-Enhanced Fluorescence from Plastic Substrates, Journal of Fluorescence, 15(2), 99-104.
152. Aslan, K., Leonenko, Z., Lakowicz, J.R., and Geddes, C.D. (2005). Fast and Slow Deposition of Silver Nanorods on Planar Surfaces: Application to Metal-Enhanced Fluorescence, Journal of Physical Chemistry B, 109, 3157-3162.
153. Aslan, K., Lakowicz, J.R., and Geddes, C.D. (2005). Rapid Deposition of Triangular Silver Nanoplates on Planar Surfaces: Application to Metal-Enhanced Fluorescence, Journal of Physical Chemistry B, 109, 6247-6251.
154. Aslan, K., Lakowicz, J.R., and Geddes, C.D. (2005). Nanogold Plasmon Resonance-Based Glucose Sensing. 2. Wavelength-Ratiometric Resonance Light Scattering, Analytical Chemistry, 77, 2007-2014.
155. Aslan, K., Lakowicz, J.R., Szmacinski, H., and Geddes, C.D. (2005). Enhanced Ratiometric pH Sensing Using SNAFL-2 on Silver, Island Films: Metal-enhanced Fluorescence Sensing, Journal of Fluorescence, 15(1), 37-40.
156. Aslan, K., Gryczynski, I., Malicka, J., Matveeva, E., Lakowicz, J.R. and Geddes, C.D. (2005). Metal-enhanced fluorescence: an emerging tool in biotechnology, Current Opinion in Biotechnology, 16:55-62.
157. Badugu, R., Lakowicz, J.R., Geddes, C.D. (2005). Ophthalmic glucose monitoring using disposable contact lenses, Reviews in Fluorescence 2005, 2, (2005) 363-428.
158. Badugu, R., Lakowicz, J.R., Geddes, C.D. (2005). Fluorescence sensors for monosaccharides based on the 6-methylquinolinium nucleus and boronic acid moiety: application to ophthalmic diagnostics, Talanta, 65(3), 762-768.
159. Boronic acid fluorescent sensors for monosaccharide signaling based on the 6-methoxyquinolinium heterocyclic nucleus: Progress towards noninvasive and continuous glucose monitoring. Badugu, R., Lakowicz, J.R., Geddes, C.D., Bioorganic & Medicinal Chemistry, 13(1), (2005) 113-119 [View the PDF]
160. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2005). A wavelength-ratiometric fluoride sensitive probe based on the quinolinium nucleus and boronic acid moiety, Sensors and Actuators B: Chemistry 104(1), 103-110.
161. Badugu, R., Lakowicz, J.R. and Geddes, C.D., (2005). Cyanide sensitive fluorescent probes, Dyes and Pigments, 64(1), 49-55
162. Zhang, J.,* Geddes, C.D., and Lakowicz, J.R. (2004). Complexation of polysaccharide and monosaccharide with thiolate boronic acid capped on silver nanoparticle, Analytical Biochemistry, 332, 253-260.
163. Badugu, R., Lakowicz, J.R., Geddes, C.D. (2004). Wavelength-ratiometric probes for the selective detection of fluoride based on the 6-aminoquinolinium nucleus and boronic acid moiety, Journal of Fluorescence, 14(6), 693-698
164. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). Fluorescence intensity and lifetime-based cyanide sensitive probes for physiological safeguard, Analytica Chimica Acta, 522(1), 9-17.
165. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). Ophthalmic Glucose Monitoring using Disposable Contact Lenses – A Review, Review article as the part of the Special issue in Journal of fluorescence entitled "Progress in Glucose Sensing" edited by Badugu, R. and Geddes, C.D., Journal of Fluorescence, 14(5), 617-633.
166. Badugu, R., Lakowicz, J.R., Geddes, C.D. (2004). A Glucose sensing contact lens: A new approach to non-invasive continuous physiological glucose monitoring, In Optical Fibers and Sensors for Medical Applications IV, Israel Gannot, Ed., Proceedings SPIE, 5317, (2004), 234-245.
167. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). Keeping an eye on diabetes. Modifying contact lenses will allow easy monitoring of blood glucose levels. Chemistry World, 1(6), 18-18.
168. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). Ophthalmic glucose sensing: A novel monosaccharide sensing disposable and colorless contact lens, Analyst, 129, 516-529.
169. Geddes, C.D., Badugu, R., and Lakowicz, J.R. (2004). Contact lenses may provide window to blood glucose, Biophotonics International, 50-54.
170. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). A wavelength-ratiometric pH sensitive probe based on the boronic acid moiety and suppressed sugar response, Dyes and Pigments, 61, 227-234.
171. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). Excitation and emission wavelength-ratiometric cyanide sensitive probes for physiological sensing, Analytical Biochemistry, 327, 82-90.
172. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). Smart contact lenses for diabetics, Nature Materials, 3 (2004), 76.
173. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). The non-invasive continuous monitoring of physiological glucose using a monosaccharide-sensing contact lens, Analytical Chemistry, 76 (2004) 610-618.
174. Aslan, K., Lakowicz, J.R., and Geddes, C.D. (2004). Nanogold-plasmon-resonance-based glucose sensing, Analytical Biochemistry, 330, 145-155.
175. Aslan, K., Lakowicz, J.R., Szmacinski, H., and Geddes, C.D. (2004). Metal-Enhanced Fluorescence Solution-Based Sensing Platform, Journal of Fluorescence, 14, 6, 677-679.
176. Aslan, K., Lakowicz, J.R. , Geddes, C.D. (2004). Tunable plasmonic glucose sensing based on the dissociation of ConA-aggregated dextran-coated gold colloids, Analytica Chimica Acta, 517, 139-144.
177. Zhang, J., Roll D., Geddes, C.D., Lakowicz, J.R. (2004). Aggregation of silver nanoparticle-dextran adducts with Concanavalin A and competitive complexation with glucose, Journal of Physical Chemistry B., 108, 21210-12214.
178. Lakowicz, J.R., Geddes, C.D., Gryczynski, I., Malicka, J., Gryczynski, Z., Aslan, K., Lukomska, J., Matveeva, E., Zhang, J., Badugu, R., Huang, J. (2004). Advances in surface-enhanced fluorescence, Journal of Fluorescence, 14(4), 425-441.
179. Aslan, K., Zhang, J., Lakowicz, J.R., Geddes, C.D. (2004). Saccharide sensing using gold and silver nanoparticles – a review, Journal of Fluorescence, 14(4), 391-400.
180. Geddes, C.D., Gryczynski, I., Malicka, J., Gryczynski, Z., Lakowicz, J.R. (2004). Directional surface plasmon coupled emission, Journal of Fluorescence, 14, 119-123.
181. Geddes, C.D., Parfenov, A., Gryczynski, I., Malicka, J., Roll, D., Lakowicz, J.R. (2003). Fractal silver structures for metal-enhanced fluorescence: applications for ultra-bright surface assays and lab-on-chip-based nanotechnologies, Journal of Fluorescence, 13, 119-122.
182. Geddes, C.D., Parfenov, A., Gryczynski, I., and Lakowicz, J.R. (2003). Luminescent Blinking from Silver Nanostructures, Journal of Physical Chemistry B., 107:9989-9993.
183. Geddes, C.D., Parfenov, A., Gryczynski, I., and Lakowicz, J.R. (2003). Luminescent Blinking of Gold Nanoparticles, Chemical Physics Letters, 380:269-272.
184. Badugu, R., Lakowicz, J.R. and Geddes, C.D.(2003). A Glucose Sensing Contact Lens: A Non-Invasive Technique for Continuous Physiological Glucose Monitoring, Journal of Fluorescence, 13(5):371-374.
185. Geddes, C.D., Parfenov, A., and Lakowicz, J.R. (2003). Photodeposition of Silver Can Result in Metal-Enhanced Fluorescence, Applied Spectroscopy, 57(5):526-531
186. Geddes, C.D., Cao, H., and Lakowicz, J.R. (2003). Enhanced Photostability of ICG in Close Proximity to Gold Colloids, Spectrochimica Acta A 59:2611-2617.
187. Geddes, C.D., Parfenov, A., Roll, D., Fang, J., and Lakowicz, J.R. (2003). Electrochemical and Laser Deposition of Silver for Use in Metal-Enhanced Fluorescence, Langmuir 19(15):6236-6241.
188. Parfenov, A., Gryczynski, I., Malicka, J., Geddes, C.D., and Lakowicz, J.R. (2003). Enhanced Fluorescence from Fluorophores on Fractal Silver Surfaces, Journal of Physical Chemistry B 107(34):8829-8833.
189. Lakowicz, J.R., Malicka, J., Gryczynski, I., Gryczynski, Z., and Geddes, C.D. (2003). Radiative Decay Engineering: The Role of Photonic Mode Density in Biotechnology, Journal of Physics D: Applied Physics 36:R240-R249.
190. Pugh, V.J., Szmacinski, H., Moore, W.E., Geddes, C.D., and Lakowicz, J.R. (2003). Submicrometer Spatial Resolution of Metal-Enhanced Fluorescence, Applied Spectroscopy, 57, 12, 1592-1598.
191. Geddes, C.D., Parfenov, A., Roll, D., Gryczynski, I., Malicka, J., and Lakowicz, J.R. (2003). Silver Fractal-like Structures for Metal-Enhanced Fluorescence: Enhanced Fluorescence Intensities and Increased Probe Photostabilities, Journal of Fluorescence 13(3):267-276.
192. Malicka, J., Gryczynski, I., Geddes, C.D., and Lakowicz, J.R. (2003) Metal-Enhanced Emission From Indocyanine Green: A New Approach to In Vivo Imaging, Journal of Biomedical Optics 8(3), 472-478.
193. Geddes, C.D., Gryczynski, I., Malicka, J., Gryczynski, Z., and Lakowicz, J.R. (2003). Metal-Enhanced Fluorescence: Potential Applications in HTS, Combinatorial Chemistry & High Throughput Screening 6:109-117.
194. Gryczynski, I., Malicka, J., Gryczynski, Z., Geddes, C.D., Lakowicz, J.R. (2002). The CFS engineers the intrinsic radiative decay rate of low quantum yield fluorophores, Journal of Fluorescence, 12, 11-13.
195. Lakowicz, J.R., Gryczynski, I., Malicka, J., Gryczynski, Z., Geddes, C.D. (2002). Enhanced and localized multiphoton excited fluorescence near metallic silver islands: metallic islands can increase probe photostability, Journal of Fluorescence, 12, 299-302.
196. Gryczynski, I., Malicka, J., Gryczynski, Z., Lakowicz, J.R., Geddes, C.D. (2002). Dramatic Increases in Resonance Energy Transfer Have Been Observed Between Fluorophores Bound to DNA Above Metallic Silver Islands: Opportunities for Long- Range Immunoassays and New DNA Arrays, Journal of Fluorescence, 12, 131-133.
197. Geddes, C.D., Lakowicz, J.R. (2002). Metal-enhanced fluorescence, Journal of Fluorescence, 12(2), 121-129.

Additional publications for Dr Geddes can be found at the staff page for Dr. Chris Geddes.

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Review Articles

1. Knoblauch, R. and Geddes, C.D. (2020). Carbon Nanodots in Photodynamic Antimicrobial Therapy: A Review. Materials, 13, 4004.
2. Aslan, K., Baillie, L., and Geddes, C.D. (2010). Ultrafast and Sensitive detection of Biological Threat Agents using Microwaves, Nanoparticles and Luminescence, J. Medical, Chemical, Biological and Radiological Defence, 8, 1-21.
3. Aslan, K. and Geddes, C.D. (2009). Metal-Enhanced Chemiluminescence: Advanced Chemiluminescence Concepts for the 21st Century, Chemical Society Reviews, 38, 2556-2564.
4. Aslan, K. and Geddes, C.D. (2008). New Tools for Rapid Clinical and Bioagent Diagnostics: Microwaves and Plasmonic Nanostructures, Invited Review for the Analyst, 133, 1469-1480.
5. Aslan, K. and Geddes, C.D. (2008). A review of an Ultra Fast and Sensitive Bioassay Platform Technology: Microwave-accelerated Metal-Enhanced Fluorescence, Plasmonics, 3, 89-101.
6. Aslan, K., Lakowicz, J.R., Geddes, C.D. (2005). Metal-enhanced fluorescence using anisotropic silver nanostructures:critical progress to date, Analytical and Bioanalytical Chemistry, 382: 926–933
7. Aslan, K., Lakowicz, J.R. and Geddes, C.D. (2005). Plasmon Light Scattering in Biology and Medicine: New Sensing Approaches, Visions and Perspectives, Current Opinions in Chemical Biology: Analytical Techniques, 9, 538-544
8. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2005). Anion sensing using quinolinum boronic acid probes, Current Analytical Chemistry, 1(2), 157-170
9. Aslan, K., Gryczynski, I., Malicka, J., Matveeva, E., Lakowicz, J.R. and Geddes, C.D. (2005). Metal-enhanced fluorescence: an emerging tool in biotechnology, Current Opinion in Biotechnology, 16:55-62
10. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2005). Glucose sensing contact lens: From bench top to patient, Current Opinion in Biotechnology, 16(1), 100-107
11. Lakowicz, J.R., Geddes, C.D., Gryczynski, I., Malicka, J., Gryczynski, Z., Aslan K., Lukomska J., Matveeva E., Zhang, J., Badugu, R., Huang, J. (2004). Advances in surface-enhanced fluorescence, Journal of Fluorescence, 14(4), 425-441
12. Badugu, R., Lakowicz, J.R. and Geddes, C.D. (2004). Ophthalmic Glucose Monitoring using Disposable Contact Lenses – A Review, Journal of Fluorescence, 14(5), 617-633
13. Aslan K., Zhang, J., Lakowicz, J.R., Geddes, C.D. (2004). Saccharide sensing using gold and silver nanoparticles – a review. Journal of Fluorescence, 14(4), 391-400
14. Lakowicz, J.R., Malicka, J., Gryczynski, I., Gryczynski, Z., and Geddes, C.D. (2003). Radiative Decay Engineering: The Role of Photonic Mode Density in Biotechnology, Journal of Physics D: Applied Physics 36:R240-R249
15. Geddes, C.D. (2002). 1 and 2-photon fluorescence anisotropy decay to probe the kinetic and structural evolution of sol-gel glasses – A Summary, Journal of Fluorescence, 12(3/4), 343- 367.
16. Geddes, C.D. (2001). Optical halide sensing using fluorescence quenching: Theory, simulations and applications – A review, An invited review article commissioned by the Institute of Physics: Measurement Science and Technology, 12(9), R53-R88.

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Encyclopedia Entries

1. Knoblauch, R. and Geddes, C.D. (2020). Carbon Nanodots: Antimicrobial Photosensitizers. In Encyclopedia. Retrieved from: https://encyclopedia.pub/2856.

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Editorials

1. Geddes, C.D. (2020). Opinions in Plasmonics. Plasmonics. 15(1). 1.
2. Geddes, C.D. (2020). Opinions in Fluorescence Spectroscopy. Journal of Fluorescence. 30(1). 1.
3. Geddes, C.D. (2019). "Plasmonics-One of the most Prominent Journals in the Plasmonics Field in the World Today". Plasmonics, 14(5), 1039-1040.
4. Geddes, C.D. (2017). "Lyse-It®: A Single Step, Single platform, Transformational Lysing Technology". Journal of Fluorescence, 27(2), 417.
5. Geddes, C.D., (2016). "25 Years of the Journal of Fluorescence", Journal of Fluorescence, 26(2), 377-378.
6. Geddes, C.D., (2016). "10 Years of the Plasmonics Journal", Plasmonics, 11(2), 351-352.
7. Geddes, C.D., (2014), "30 Years of SPR for Biosensing", Plasmonics, 9(4), 727-727.
8. Geddes, C.D., (2013), "Metal-Enhanced Fluorescence", PCCP, Physical Chemistry Chemical Physics, 15, 19537.
9. Geddes, C.D., (2010), "JoF rejection rates exceeds 55 %", Journal of Fluorescence, 20(1), 1.
10. Geddes, C.D. (2009). "Who's Who in Fluorescence 2009 Volume," Journal of Fluorescence, 19 (3).
11. Geddes, C.D. (2009). "New Regional Editor for India: Professor Amitabha Chattopadhyay," Journal of Fluorescence, 19 (2), 189-190.
12. Geddes, C.D. (2008). "The Journal of Fluorescence moves to a new home," Journal of Fluorescence, 18 (6), 1027.
13. Geddes, C.D. (2008). "Plasmonics moves to a new home," Plasmonics, Vol 3, No 4, 109.
14. Geddes, C.D. (2008). "The Who's Who in Fluorescence Annual Volume Breaks New Ground," Journal of Fluorescence, 18 (5), 761.
15. Geddes, C.D. (2008). "Plasmonics First Impact Factor of 2.765," Plasmonics, 3, 47.
16. Geddes, C.D. (2008). "The Journal of Fluorescence Expands Further with New Regional Editors," Journal of Fluorescence, 18(2), 237.
17. Geddes, C.D. (2008). "Plasmonics can now be found on Thompson's ISI database," Plasmonics, Vol 3, No 1.
18. Geddes, C.D. (2007). "The JoFL impact number increases again to 2.610," Journal of Fluorescence, 17(6), 589.
19. Geddes, C.D. and Ray, K. (2007). "Advances in Single Molecule Spectroscopy," Journal of Fluorescence, 17(6), 591.
20. Aslan, K. and Geddes, C.D. (2007). "Plasmonic DNA Technology," Plasmonics, 2(4), 163.
21. Geddes, C.D. and Chowdhury, M.H. (2007). "Advances in Metal-Molecular Interactions," Plasmonics, 2(3), 95.
22. Geddes, C.D. (2006). "The Journal of Fluorescence Impact Number Climbs for the 5 th Year Running to 2.038," Journal of Fluorescence,16(5), 623.
23. Geddes, C.D. and Badugu, R. (2006). "Celebrating 15 years of Publishing Excellence: No: 3," Journal of Fluorescence, 16 (1), 1.
24. Geddes, C.D. and Lakowicz, J.R. (2006). "Plasmonics – A vision for the Future," Plasmonics, 1 (1), 1-2.
25. Geddes, C.D. and Badugu, R. (2005). "Celebrating 15 years of Publishing Excellence," Journal of Fluorescence, 15 (5), 641.
26. Geddes, C.D. and Badugu, R .(2005). "Celebrating 15 years of Publishing Excellence: No: 2,"Journal of Fluorescence, 15 (6), 827.
27. Geddes, C.D. and Badugu, R.(2005). "Analytical Techniques," Current Opinions in Chemical Biology, 9, 488.
28. Geddes, C.D. and Meng Wu. (2005). "Lanthanides," Journal of Fluorescence, 15(4), 467.
29. Geddes, C.D. (2005). "The Journal of Fluorescence can now be found on PubMed," Journal of Fluorescence, 15(2), 97.
30. Geddes, C.D. (2005). "Celebrating 15 years of the Journal of Fluorescence," Journal of Fluorescence, 15(1), 1.
31. Geddes, C.D. (2004). "The Journal of Fluorescence finds greater impact," Journal of Fluorescence, 14(6), 669.
32. Geddes, C.D. and Lakowicz, J.R. (2004). "Journal of Fluorescence and CFS reception," Journal of Fluorescence, 14(5), 479.
33. Geddes, C.D. (2004). "New On-line Manuscript Submission for the Journal of Fluorescence using the editorial Manager System," Journal of Fluorescence, 14(5), 477.
34. Geddes, C.D. and Lakowicz, J.R. (2004). "Author Impact Measure (AIM): An author publication statistic for the Who's Who in Fluorescence Volume," Journal of Fluorescence, 14(3), 233.
35. Geddes, C.D. and Lakowicz, J.R. (2004). "The Annual reviews in Fluorescence 2003," Journal of Fluorescence, 14(2), 127.
36. Geddes, C.D. and Lakowicz, J.R. (2004). "The Who's Who in Fluorescence 2004," Journal of Fluorescence, 14(2), 125.
37. Geddes, C.D. (2004). "The Journal is Making Good Progress," Journal of Fluorescence, 14(1), 3.
38. Geddes, C.D. and Lakowicz, J.R. (2003). "Who's Who in Fluorescence 2003," Journal of Fluorescence, 13(1), 3.
39. Geddes, C.D.* (2002). "The Changing face of fluorescence: Addressing the changes," Journal of Fluorescence, 12(1), 1-2.
40. Geddes, C.D.* and Lakowicz, J.R. (2002). "Metal-enhanced fluorescence," Journal of Fluorescence, 12(2), 121-129.
41. Geddes, C.D., Lakowicz, J.R. and Mary Rosenfeld. (2002). "Methods and applications of fluorescence," Journal of Fluorescence, 12(2), 119.
42. Geddes, C.D. (2002). "The changing face of fluorescence: One year later," Journal of Fluorescence, 12(3/4), 293.
43. Geddes, C.D. (2002). "The new Society of Fluorescence," Journal of Fluorescence, 12(3/4), 295.

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Journal Covers

1. Knoblauch, R., Harvey, A., Ra, E., Greenberg, K.M., Lau, J., Hawkins, E., and Geddes, C.D. (2021). Antimicrobial carbon nanodots: photodynamic inactivation and dark antimicrobial effects on bacteria by brominated carbon nanodots. Nanoscale, 13, 85-99.
2. Moskowitz, J., Sindi, R., and Geddes, C.D. (2020). Plasmonic Electricity II: The effect of Particle Size, Solvent Permittivity, Applied Voltage, and Temperature on Fluorophore-Induced Plasmonic Current. Journal of Physical Chemistry C., 124(10), 5780-5788.
3. Knoblauch, R., Ben Hamo, J., Marks, R., and Geddes, C.D. (2020). Spectral Distortions in Metal-Enhanced Fluorescence: Experimental evidence for Ultra-Fast and Slow transitions. Journal of Physical Chemistry C., 124(8), 4723-4737.
4. Moskowitz, J. and Geddes, C.D. (2019). Plasmonic Electricity: Fluorohore-Induced Plasmonic Current. Journal of Physical Chemistry C, 123, 27770-27777.
5. Dragan, A and Geddes, C.D. (2014). 5-Color Multiplexed Microwave-Accelerated Metal-Enhanced Fluorescence: Detection and Analysis of Multiple DNA Sequences from within one Sample Well within a few Seconds. J. Fluorescence, 24(6), 1715-1722.
6. Karolin, J and Geddes, CD., (2013). Metal-Enhanced Fluorescence, PCCP, Physical Chemistry Chemical Physics, 15,(45), 2013.
7. Zhang, Y., Mali, B., Aitken, C., and Geddes, CD, (2013). Highly Sensitive Quantitation of Human Serum Albumin in Clinical Samples for Hypoproteinemia using Metal-Enhanced Fluorescence, Journal of Fluorescence, 23(1), 2013.
8. Karolin, J. and Geddes, C.D. Reduced Lifetimes are Directly Correlated with Excitation Irradiance in Metal-Enhanced Fluorescence, Journal of Fluorescence, 22 (6), 1659-1662, 2012.
9. Dragan, A., Pavlovic R., McGivney, J.B., Casas-Finet, J.R., Bishop, E.S., Strouse, R.J., Schenerman, M.A. and Geddes, C.D., SYBER green I: Fluorescence Properties and Interaction with DNA, Journal of Fluorescence, Vol 22,No 5, 2012.
10. Goldberg, K., Elbaz, A., Zhang, Y., Dragan, A., Marks, R., and Geddes, C. D., (2011). Mixed-Metal Substrates for Applications in Metal-Enhanced Fluorescence, Journal of Materials Chemistry, 21, 6179-6185.
11. Geddes, C. D., "JoF rejection rates exceeds 55 %", Journal of Fluorescence, 20(1), 1. 2010.
12. Geddes et al, "Wavelength Ratiometric Plasmon Light Scattering-based Immunoassays", Plasmonics, 4(4), 2009.
13. Geddes, C.D. and Dragan A, "Voltage Gated Metal-Enhanced Fluorescence", Journal of Fluorescence, 19(5), 2009.
14. Geddes, C .D., "The Who's Who in Fluorescence 2009 Volume," Journal of Fluorescence, 19(3), 2009.
15. Geddes, C. D., "The Journal of Fluorescence moves to a new home," Journal of Fluorescence, 18 (6), 2008 - In Press.
16. Geddes, C.D., "The Who's Who in Fluorescence annual Volume breaks new ground," Journal of Fluorescence, (2008), 18(5), 761.
17. Previte, J.R., Geddes, C.D., "Microwave-Triggered Chemiluminescence with Planar Geometrical Aluminum Substrates: Theory, Simulation and Experiment," Journal of Fluorescence (2007) 17:279–287
18. Aslan, K., Malyn, S.N., Geddes, C.D., "Metal-Enhanced Fluorescence from Large Gold Colloids on Planar Surfaces: Angular Dependent Emission," Journal of Fluorescence (2007), 17(1), 7-13
19. Chowdhury, M.H., Aslan, K., Malyn, S.N., Lakowicz, J.R., Geddes, C.D., "Metal-Enhanced Chemiluminescence," Journal of Fluorescence (2006), 16(3), 295-299
20. Aslan, K., Badugu, R., Lakowicz, J.R., Geddes, C.D., "Metal-Enhanced Fluorescence from Plastic Substrates," Journal of Fluorescence (2005), 15(2), 99-104
21. Aslan, K., Lakowicz, J.R., Geddes, C.D., "Metal-Enhanced Fluorescence Using Anisotropic Silver Nanostructures: Critical Progress to Date," Analytical Bioanalytical Chemistry (2005), 382(4), 926-933
22. Geddes, C.D, Gryczynski, I, Malicka, J., Gryczynski, Z, Lakowicz, J.R., "Directional Surface Plasmon Coupled Emission," Journal of Fluorescence (2004), 14 (1), 119-123
23. Lakowicz, J.R., Malicka, J., Gryczynski, Z., Huang, J., Geddes, C.D., Gryczynski, I., "Increased sensitivity of Fluorescence detection," PharmaGenomics (2003), 3(3), 38-44

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Book Chapters

1. Moskowitz, J. and Geddes, C.D., (2019). Metal-Enhanced Chemiluminescence, pgs 245-265, in A Comprehensive Guide to Chemiluminescence, edited by Luis Pinto Da Silva, Nova Publishers, ISBN: 978-1-53616-171-7 (e-book).
2. Knoblauch, R. and Geddes, C.D., (2019). Review of Advances in Metal Enhanced Fluorescence, pgs 253-284, in Reviews in Plasmonics 2017, edited by Chris D. Geddes, Springer Nature, Switzerland, ISBN 97-3-010-18833-7.
3. T.M. Santaus and C.D. Geddes (2019). Microwave-Accelerated Metal-Enhanced Fluorescence (MAMEF): A Rapid, <10 copy Number Detection Platform, in Reviews in Fluorescence 2017, edited by Chris D. Geddes, Springer, New York, pgs 1-20.
4. Santaus, T and Geddes, C.D. (2016). "Lyse-it: A rapid platform for Cellular Lysing and tunable DNA/Protein Fragmentation", in Geddes, C.D. (Ed.), Microwave Effects on DNA and Proteins, Springer, New York, ISBN: 978-3-319-50288-5, pgs 275-296.
5. Geddes, C. D. (2015). "Pathogen detection using spatially focused microwaves and metal-enhanced fluorescence", pgs 201-220. Pan Stanford publishing, ISBN: 978-981-4364-43-0.
6. Aslan, K. and Geddes, C.D. (2010). "Metal-Enhanced Fluorescence: Progress towards a Unified Plasmon Fluorophore description." In Geddes, C.D. (Ed.), Metal-Enhanced Fluorscence. New Jersey: John Wiley and Sons, pgs 1-24, ISBN: 978-0-470-22838-8.
7. Zhang, Y., Aslan, K. and Geddes, C.D. (2010)."Metal-Enhanced Chemiluminescence (MEC)." In Geddes, C.D. (Ed.), Metal-Enhanced Fluorscence. New Jersey: John Wiley and Sons, pgs 439-464,, ISBN: 978-0-470-22838-8.
8. Aslan, K. and Geddes, C.D. (2010)."Microwave-Accelerated Metal-Enhanced Fluorescence." In Geddes, C.D. (Ed.), Metal-Enhanced Fluorscence. New Jersey: John Wiley and Sons, pgs 161-182,, ISBN: 978-0-470-22838-8.
9. Zhang, Y., Aslan, K. and Geddes, C.D. (2010). "Metal-Enhanced Generation of Oxygen Rich species." In Geddes, C.D. (Ed.), Metal-Enhanced Fluorscence. New Jersey: John Wiley and Sons, pgs 277-294,, ISBN: 978-0-470-22838-8.
10. Aslan, K. and Geddes, C.D. (In Press). "Generic Ultra fast and Sensitive Bioassay Platform Technology for Pathogen and Virus Detection using Spatially Focused Microwaves and Metal-Enhanced Fluorescence." In R.M. Marks, L. Lobel, and A.A.Sall (Ed.), ViralCheck. Israel: Neobionics Ltd.
11. Aslan, K., Lakowicz, J.R., Geddes, C.D. (2006). "Plasmonic Glucose Sensing." In C.D. Geddes and J.R. Lakowicz (Eds.), Topics in Fluorescence Spectroscopy (pp. 245-269). New York: Kluwer Academic/Plenum Publishers.
12. Badugu, R., Lakowicz, J.R., Geddes, C.D. (2006). "Development of Smart Contact Lenses for Ophthalmic Glucose Monitoring." In Geddes, C.D. and Lakowicz, J.R. (Eds.), Topics in Fluorescence Spectroscopy, Vol 11, Glucose Sensing (pp. 399 – 429). New York: Springer.
13. Geddes, C.D., Aslan, K., Gryczynski, I., Malicka, J., Lakowicz, J.R. (2005). "Radiative Decay Engineering." In Geddes, C.D. and Lakowicz, J.R. (Eds.), Topics in Fluorescence Spectroscopy (pp. 405-448). New York: Kluwer Academic / Plenum Publishers.
14. Aslan, K., Gryczynski, I., Malicka, J., Lakowicz, J.R., Geddes, C.D. (2005). "Metal-Enhanced Fluorescence: Application to High-Throughput Screening and Drug Discovery." In Shayne Gad (Ed.), Drug Discovery Handbook (pp. 603-666). New Jersey: Wiley & Sons.
15. Geddes, C.D., Aslan, K., Gryczynski, I., Lakowicz, J.R. (2005). "Metal-Enhanced Fluorescence Sensing." In Thompson, R. (Ed.), Fluorescence Sensors and Biosensors (pp. 121-181). Boca Raton, FL: Francis and Taylor Group.
16. Badugu, R., Lakowicz, J.R., Geddes, C.D. (2005). "Ophthalmic glucose monitoring using disposable contact lenses." In Geddes, C.D. and Lakowicz, J.R. (Eds.), Reviews in Fluorescence 2005 (pp. 363-397). New York: Springer.
17. Geddes, C.D., Aslan, K., Gryczynski, I., Malicka, J., Lakowicz, J.R. (2004). "Noble Metal Nanostructures for Metal-Enhanced Fluorescence." In Geddes, C.D. and Lakowicz, J.R. (Eds.), Annual Reviews in Fluorescence 2004 (pp. 365-401). New York: Kluwer Academic/Plenum Publishers.

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Special Journal Issues

1. "Metal-Enhanced Fluorescence", Geddes, CD., - Editor of the Special Issue, PCCP, Physical Chemistry Chemical Physics, 15,(45), 2013.
2. "Advances in Single Molecule Spectroscopy," Ray, K. and Geddes, C.D.*, - Editors of the special issue, Journal of Fluorescence, Vol 17, No 6, 2007.
3. "Plasmonic DNA Technology," Aslan, K. and Geddes, C.D.*, - Editors of the special issue, Plasmonics, Vol 2, No 4, 2007.
4. "Advances in Metal-Molecular Interactions," Chowdhury, M.H. and Geddes, C.D.* - Editors of the special issue, Plasmonics, Vol 2, No 3, 2007.
5. "Progress in Lanthanides as fluorescent probes" Wu, M. and Geddes, C.D.* – Editors of the special issue , Journal of Fluorescence, 15(4), 2005.
6. "15 years of publishing excellence" Geddes, C.D.* and Badugu, R. – Editors of the special Issue Journal of Fluorescence, 15 (5 and 6), 2005.
7. "Analytical Techniques" Geddes, C.D.* and Badugu, R. – Editors of the special issue Current Opinions in Chemical Biology , 9, 2005.
8. "Plasmonics" Aslan, K. and Geddes, C.D.* – Editors of the special issue Journal of Fluorescence, 14 (4), 329, 2004.
9. "Progress in Glucose Sensing" Badugu, R. and Geddes, C.D.* – Editors of the special issue Journal of Fluorescence, 14 (5), 475, 2004.
10. "The nanomorphological and kinetic evolution of soft-solids as probed by fluorescence" Geddes, C.D.* – Editor of the special issue Journal of Fluorescence, 12(3/4), 297, 2002.

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Books

1. "Reviews in Plasmonics 2017"e;, edited by Chris D. Geddes, Springer Nature, Switzerland, 323 pgs, ISBN: 978-3-030-18833-7. (Published in Jan 2019).
2. "Surface Plasmon Enhanced, Coupled and Controlled Fluorescence", edited by Chris D. Geddes, Wiley, Hoboken, New Jersey, USA, 2017, 315 pgs, ISBN:978-1-118-02793-6.
3. "Reviews in Fluorescence 2017", edited by Chris D. Geddes, Springer, New York, ISBN: 978-3-030-01568-8, 320 pages. (Published Jan. 2019).
4. "Reviews in Plasmonics 2016", Edited by Chris D. Geddes, Springer, New York, ISBN: 978-3-319-48080-0, 240 pgs.
5. "Reviews in Fluorescence 2016", Edited by Chris D. Geddes, Springer, New York, ISBN: 978-3-319-48259-0, 360 pgs.
6. "Microwave Effects on DNA and Proteins", Edited by Chris D. Geddes, Springer, New York, ISBN: 978-3-319-50288-5, 298 pgs.
7. "Reviews in Fluorescence 2015". Edited by Chris D. Geddes, Springer, New York, 360 pages, ISBN: 978--3-319-24607-9. (Published Dec 7th 2015).
8. "Reviews in Plasmonics 2015". Edited by Chris D. Geddes, Springer, New York, 453 pgs, ASIN: B01AZ0O8B6.
9. "Reviews in Plasmonics 2010". Edited by Chris D. Geddes, Springer, New York, 350 pgs, ISBN: 978-1-4614-0883-3
10. "Surface Plasmon Enhanced, Coupled and Controlled Fluorescence", Edited by Geddes, C.D., Wiley, NJ, 2016, - In Press..
11. "Reviews in Fluorescence 2010" Edited by Geddes, C.D., Springer, New York, ISBN 978-1-4419-9827-9, 435 pgs, 2011.
12. "Reviews in Fluorescence 2009," Edited by Geddes, C.D., Springer, New York, ISBN 978-1-4419-9671-8, 2011, 390 pgs.
13. "Who's Who in Fluorescence 2009," Edited by Geddes, C.D., Springer, New York, 2009, ISBN: 978-1-4419-0190-3.
14. "Metal-Enhanced Fluorescence," Edited by Geddes, C.D., John Wiley and Sons, New Jersey, June 2010, 625 pgs, ISBN: 978-0-470-22838-8.
15. "Reviews in Fluorescence 2008," Edited by Geddes, C.D., Springer, New York, 2010, ISBN: 978-1-4419-0828-5.
16. "Reviews in Fluorescence 2007," Edited by Geddes, C.D., Springer, New York, ISBN-978-0-387-88721-0, 400 pgs, 2009.
17. "Who's Who in Fluorescence 2008" Edited by Geddes, C.D. Springer, New York, 2008, ISBN: -978-0-387-78176-1.
18. "Who's Who in Fluorescence 2007" Edited by Geddes, C.D. Springer, New York, 2007, ISBN: -10:0-387-69796-9.
19. "Glucose Sensing" - Topics in Fluorescence Spectroscopy Volume 11, Edited by Geddes, C.D. and Lakowicz, J.R., Springer, New York, 2006, 442 pgs, ISBN-10: 0-387-29571-2.
20. "Reviews in Fluorescence 2006" - Edited by Geddes, C.D. and Lakowicz, J.R., Springer, New York, 2006, 604 pgs, ISBN-10: 0-387-29342-6.
21. "Reviews in Fluorescence 2005" – Edited by Geddes, C.D. and Lakowicz, J.R., Kluwer Academic / Plenum, New York, 2005, ISBN: 0-387-23628-7.
22. "Reviews in Fluorescence 2004" – Edited by Geddes, C.D. and Lakowicz, J.R., Kluwer Academic / Plenum, New York, 2004, ISBN: 0-306-48460-9.
23. "Advanced Concepts in Fluorescence Sensing: Macromolecular Sensing" – Topics in Fluorescence Spectroscopy Volume 10, Edited by Geddes, C.D. and Lakowicz, J.R., Springer, New York, 2005. ISBN – 0387236449.
24. "Advanced Concepts in Fluorescence Sensing: Small molecule Sensing" - Topics in Fluorescence Spectroscopy Volume 9, Edited by Geddes, C.D. and Lakowicz, J.R., Springer, New York, 2005. ISBN – 0387233342.
25. "Radiative Decay Engineering" – Topics in Fluorescence Spectroscopy Volume 8, Edited by Geddes, C.D. and Lakowicz, J.R., Springer, New York, 2004. ISBN – 0-387-22662-1.
26. "Who's Who in Fluorescence 2006" Edited by Geddes, C.D. and Lakowicz, J.R. Springer, New York, 2006, 206 pgs, ISBN-10: 0-387-29404-X.
27. "Who's Who in Fluorescence 2005" Edited by Geddes, C.D. and Lakowicz, J.R. Springer, New York, 2005. ISBN: 0-387-23996-0.
28. "Who's Who in Fluorescence 2004" Edited by Geddes, C.D. and Lakowicz, J.R. Kluwer Academic / Plenum, New York, 2004. ISBN – 0306-48423-4.
29. "Who's Who in Fluorescence 2003" Edited by Geddes, C.D. and Lakowicz, J.R. Kluwer Academic / Plenum, New York, 2002. ISBN – 0-306047689-4.

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• Journal Articles
• Review Articles
• Encyclopedia Entries
• Editorials
• Journal Covers
• Book Chapters
• Special Journal Issues
• Books