KADIR ASLAN, Ph.D. - Morgan State University

KADIR ASLAN, Ph.D.Morgan State UniversityDepartment of ChemistrySpencer Hall Rm. 302Baltimore, MD 21211 USAVoice: (443) 885 4257, Fax: 443-885-8286E-mail: kadir.aslan@morgan.eduWebpage: http://www.morgan.edu/Kadir_Aslan.htmlEDUCATION:1999 - 2003 Illinois Institute of Technology, Chicago, IL USAPh.D. in Chemical Engineering, Advisor: Dr. Victor H. Pérez-Luna,Dissertation: “Ligand Functionalized Gold Nanoparticles and their Effect on Emission ofFluorescence for Biosensing Applications” May 2003.1995 - 1998 Middle East Technical University, Ankara, TurkeyM.Sc. in Chemical Engineering, Advisor: Dr. Inci Eroglu,Thesis” Continuous Hydrogen Production by Rhodobacter sphaerodies O.U.001”, June 1998.1991 - 1995 Hacettepe University, Ankara, TurkeyB.Sc. in Chemical Engineering, Emphasis on Biochemical Engineering.EMPLOYMENT:2009 - cont’d Associate Professor, Morgan State University, Department of Chemistry, Baltimore, MD.2005 - 2009 Assistant Professor, UMBI, Baltimore, MD.2005 - 2008 Associate Head, The Institute of Fluorescence, UMBI, Baltimore, MD.2006 - 2007 Adjunct Faculty, Towson University, Department of Chemistry, Towson, MD.2006 - 2007 Adjunct Faculty, Morgan State University, Department of Chemistry, Baltimore, MD.2003 - 2005 Research Associate, UMBI, Baltimore, MD.2000 - 2003 Graduate Research Assistant, Illinois Institute of Technology, Chicago, IL.1999 - 2000 Graduate Teaching Assistant, Illinois Institute of Technology, Chicago, IL.1997 - 1998 Graduate Teaching Assistant, Middle East Technical University, Ankara, Turkey.TEACHING EXPERIENCE (FACULTY LEVEL):I. Morgan State University, Department of Chemistry1. Spring 2006: CHEM 101L, General Chemistry I - Laboratory2. Fall 2006: CHEM 105L, General Chemistry II - Laboratory3. Spring 2007: CHEM 101L, General Chemistry I – Laboratory4. Fall 2009: CHEM 106L: General Chemistry II – Laboratory5. Fall 2009: CHEM 603: Physical Chem. in Environmental Sciences – LectureII. Towson University, Department of Chemistry6. Spring 2006: CHEM 111, General Chemistry II - Lecture7. Spring 2006: CHEM 111, General Chemistry II - Laboratory8. Spring 2007: CHEM 110, General Chemistry I – Lecture9. Spring 2007: CHEM 110, General Chemistry I – Laboratory10. Fall 2007: CHEM 110, General Chemistry I – Lecture11. Fall 2007: CHEM 110, General Chemistry I – Laboratory1

AWARDS, SCHOLARSHIPS and PROFESSIONAL SOCIETY MEMBERSHIPS:1998 - 1999 NATO and TUBITAK (The Scientific and Technical Research Council of Turkey)PhD Program Grant in Chemical Engineering (Illinois Institute of Technology)2001 - Present Member of the American Chemical Society (ACS)2004 - Present Member of the Biophysical Society2004 - Present Member of the International Society for Optical Engineering (SPIE)1998 - 2003 Member of the American Institute of Chemical Engineers (AIChE).RESEARCH INTERESTS:Nanotechnology: Plasmonics, Metal-Enhanced Fluorescence, Metallic Nanoparticles,Ultra Fast Surface Chemistry, Ultra Fast Nanoparticle-based Assays.Biotechnology: Medical biotechnology, Biosensors, Plasmon-Enhanced Enzymatic Reactions,Biological Hydrogen Production.RESEARCH GRANTS:1. American Heart Association, Beginning-in-Aid Grant, “Rapid cardiac risk assessment in a clinicalsetting”, $132,000: July 1, 2007 - June 30, 2009 (PI: Aslan).2. National Institutes of Health, K25 Career Award, “Ultra fast and sensitive fluorescence-based clinicalassays”, $535,000: July 1, 2008 - June 30, 2012 (PI: Aslan).CO-SUPERVISED RESEARCHERS:‣ Post-DoctoralDr. Yongxia Zhang‣ Ph.D. Students (Visiting Scientists)Mr. Evgeni Eltzov, Ben-Gurion University of the Negev, Israel (Oct.-Dec 2008)Ms. Daria Priulitsky, Ben-Gurion University of the Negev, Israel (Oct.-Dec 2008)‣ UndergraduateMs. Sarah A. Addae (Morgan State University).Ms. Melissa Pinard (Morgan State University).Mr. Rodd Pribik (UMBI), Jan. 2008-continuedMr. Micah Weisenberg (Towson Unv., MD), Undergraduate, May - Sept. 2008.Ms. Kerri McDonald, (Towson Unv., MD), Sept. 2007 - June 2008.9-month International Undergraduate Student Exchange Program with University of Swansea, UK:Ms. Lydia Davis, Oct 2004 - June 2005Mr. Patrick Holley, Oct 2004 - June 2005Mr. Stuart N. Malyn Oct 2005 - June 2006‣ High School InternsMs. Nina Bondre, July - Dec 2008.Ms. Jill Young, Feb. - Aug. 2008.Mr. Harrison Bloom, Summer 2006.PEER REVIEW / EDITORIAL:‣ Reviewer of Research Proposals‣ American Chemical Society - Petroleum Research Fund (2008-continued).2

‣ External Advisory Board:‣ December 17, 2008; NSF-RISE Grant, Morgan State University, Department of Chemistry,Baltimore, MD, USA.‣ Referee for Journal Articles:1. Analytical Biochemistry (2007-continued),2. Analytical Chemistry (2008-continued),3. Applied Physics Letters (2008-continued),4. Biotechnology Progress (2007-continued),5. Canadian Journal of Biosystems Engineering (2007-continued),6. Clinical Chemistry (2005-continued),7. International Journal of Environmental Analytical Chemistry (2008-continued),8. Journal of Biomedical Optics (2008-continued).9. The Journal of Physical Chemistry (2008-continued),10. Langmuir (2005, 2009),11. Modern Physics Letters B (2008-continued),12. Nucleic Acids Research (2008-continued).‣ Editorial Board: Nano Biomedicine and Engineering (2009)‣ Scientific Assistant to the Editor: Plasmonics (2005-2008)‣ Guest Editor to Special Issues:1. Journal of Fluorescence (July 2004 Issue entitled “Plasmonics”),2. Plasmonics (December 2007 Issue entitled” Plasmonic DNA Technology”.OTHER SERVICE2003-2008 Fire Safety Warden, University of Maryland Biotechnology InstitutePATENTS, PEER-REVIEWED PAPERS, BOOK CHAPTERS and CONFERENCE PROCEEDINGS:Patents:1. Geddes, C.D.; Aslan, K.,”Metal-Enhanced Fluorescence from Plastic Substrates”, World IntellectualProperty Organization: WO2006052548; US Provisional Patent Application No. 60/625,212.Peer-Reviewed Journal Papers: (* indicates corresponding author)1999-2004:1. Eroglu*, I.; Aslan, K.; Gunduz, U.; Yucel, M., Turker, L. “Substrate Consumption Rates for HydrogenProduction by Rhodobacter sphaeroides in a Column Photobioreactor”, Journal of Biotechnology (1999),70, 103-113.2. Aslan, K.; Pérez-Luna*, V.H. “Surface Modification of Colloidal Gold by Chemisorption of Alkanethiols inthe Presence of a Nonionic Surfactant”, Langmuir (2002), 18, 6059-6065.3. Aslan, K.; Luhrs, C.C.; Pérez-Luna*, V.H. “Controlled Aggregation of Biotinylated Gold Nanoparticles byStreptavidin”, Journal of Physical Chemistry B (2004), 108(40), 15631-15639.4. Aslan, K.; Pérez-Luna*, V.H. “Quenched Emission of Fluorescence by Ligand Functionalized GoldNanoparticles”, Journal of Fluorescence (2004), 14(4), 401-405.5. Aslan, K.; Lakowicz, J.R.; Szmacinski, H.; Geddes*, C.D. “Metal-Enhanced Fluorescence Solution BasedSensing Platform", Journal of Fluorescence (2004), 14 (6), 677-679.6. Aslan, K.; Zhang, J.; Lakowicz, J.R.; Geddes*, C.D. "Saccharide Sensing using Gold and SilverNanoparticles - A Review", Journal of Fluorescence (2004), 14(4), 391-400.3

7. Aslan, K.; Lakowicz, J.R.; Geddes*, C.D. "Nanogold-Plasmon-Resonance-based Glucose Sensing",Analytical Biochemistry (2004), 330(1), 145-155.8. Aslan, K.; Lakowicz, J.R.; Geddes*, C.D. "Plasmonic Tunable Glucose Sensing based on theDissociation of Con A-Aggregated Dextran-Coated Gold Colloids", Analytica Chimica Acta (2004), 157(1-2), 141-146.9. Lakowicz*, J.R.; Geddes, C.D.; Gryczynski, I.; Malicka, J.; Gryczynski, Z.; Aslan, K.; Lukomska, J.;Matveeva, E.; Zhang, J.; Badugu, R.; Huang, J. "Advances in Surface-Enhanced Fluorescence", Journalof Fluorescence (2004), 14(4), 425-441.2005:10. Aslan, K.; Szmacinski, H.; Lakowicz, J.R.; Geddes*, C.D. "Enhanced Ratiometric pH Sensing usingSNAFL-2 on Silver Island Films: Metal-enhanced Fluorescence Sensing", Journal of Fluorescence(2005), 15(1), 37-40.11. Aslan, K.; Badugu R.; Lakowicz, J.R.; Geddes*, C.D. "Metal-Enhanced Fluorescence from PlasticSubstrates”, Journal of Fluorescence (2005), 15 (2), 99-104. (COVER ARTICLE).12. Aslan, K.; Leonenko, Z.; Lakowicz, J.R.; Geddes*, C.D. "Fast and Slow Deposition of Silver Nanorods onPlanar Surfaces: Application to Metal-Enhanced Fluorescence", Journal Physical Chemistry B (2005),109(8), 3157-3162.13. Aslan, K.; Gryczynski, I.; Malicka, J.; Matveeva, E.; Lakowicz, J.R. Geddes*, C.D. "Metal-EnhancedFluorescence: An Emerging Trend in Biotechnology", Current Opinion in Biotechnology (2005), 16(1). 55-62.14. Aslan, K.; Lakowicz, J.R.; Geddes*, C.D. "Nanogold Plasmon-Resonance-Based Glucose Sensing 2:Wavelength-Ratiometric Resonance Light Scattering", Analytical Chemistry (2005), 77(7), 2007-2014.15. Aslan, K.; Lakowicz, J.R.; Geddes*, C.D. "Rapid Deposition of Triangular Silver Nanoplates on PlanarSurfaces: Application to Metal-Enhanced Fluorescence", Journal Physical Chemistry B. (2005), 107(13),6247-6251.16. Aslan, K.; Lakowicz, J.R.; Geddes*, C.D.”Metal-Enhanced Fluorescence Using Anisotropic SilverNanostructures: Critical Progress to Date” Analytical Bioanalytical Chemistry (2005), 382(4), 926-933.(COVER ARTICLE).17. Aslan, K.; Davies, L.; Holley, P.; Lakowicz, J.R.; Geddes*, C.D.”Angular-Ratiometric PlasmonResonance Light Scattering for Bioaffinity Sensing”, Journal of the American Chemical Society (2005),127(34), 12115-12121.18. Aslan, K.; Leonenko, Z.; Lakowicz, J.R.; Geddes*, C.D. “Annealed Silver Island Films for Metal-Enhanced Fluorescence”, Journal of Fluorescence (2005), 15(5), 643-654.19. Aslan, K.; Lakowicz, J.R.; Geddes*, C.D.”Plasmon Light Scattering in Biology and Medicine: NewSensing Approaches, Visions and Perspectives”, Current Opinion in Chemical Biology: AnalyticalTechniques (2005), 9, 538-544.20. Aslan, K.; Geddes*, C.D. “Microwave-Accelerated Metal-Enhanced Fluorescence: A New PlatformTechnology for Ultra-Fast and Ultra-Bright Assays”, Analytical Chemistry (2005), 77(24), 8057-8067.21. Aslan, K.; Lakowicz, J.R.; Geddes*, C.D.”Angular-Dependent Polarization-based Plasmon Light-Scattering for Bioaffinity Sensing”, Applied Physics Letters (2005), 87, 234108.2006:22. Aslan, K.; Huang, J.; Wilson, G.W.; Geddes*, C.D.”Metal-Enhanced Fluorescence-Based RNA Sensing”,Journal of the American Chemical Society (2006), 128(13), 4206-4207.23. Aslan, K.; Geddes*, C.D. “Microwave-Accelerated Metal-Enhanced Fluorescence (MAMEF): Applicationto Fast and Sensitive Clinical Assays”, Journal of Fluorescence (2006), 16(1), 3-8.24. Aslan, K.; Geddes*, C.D. “Microwave Accelerated and Metal Enhanced Fluorescence MyoglobinDetection on Silvered Surfaces: Potential Application to Myocardial Infarction Diagnosis”, Plasmonics(2006), 1(1), 53-59.4

25. Aslan, K.; Holley, P.; Geddes*, C.D. “Microwave-Accelerated Metal-Enhanced Fluorescence (MAMEF)with Silver Colloids in 96-Well Plates: Application to Ultra Fast and Sensitive High Throughput Screeningand Drug Discovery”, Journal of Immunological Methods (2006), 312, 137-147.26. Aslan, K.; Holley, P.; Geddes*, C.D. “Metal-Enhanced Fluorescence from Silver Nanoparticle-DepositedPolycarbonate Substrates”, Journal of Materials Chemistry (2006), 16(27), 2846-2857.27. Aslan, K.; Malyn, S.N.; Geddes*, C.D. “Fast And Sensitive DNA Hybridization Assays Using Microwave-Accelerated Metal-Enhanced Fluorescence”, Biochemical and Biophysical Research Communications(2006), 348(2), 612-617.28. Aslan, K.; Malyn, S.N.; Geddes*, C.D. “Multicolor Microwave Triggered Metal EnhancedChemiluminescence” Journal of the American Chemical Society (2006), 128(41), 13372-13373.29. Aslan*, K.; Pérez-Luna, V.H. “Nonradiative Interactions between Biotin Functionalized GoldNanoparticles and Fluorophore-Labeled Antibiotin” Plasmonics (2006), 1 (2-4), 111-119.30. Chowdhury, M.H.; Aslan, K.; Malyn, S.N.; Lakowicz, J.R.; Geddes*, C.D. “Metal-EnhancedChemiluminescence”, Journal of Fluorescence (2006), 16(3), 295-299 (COVER ARTICLE)..31. Chowdhury, M.H.; Aslan, K.; Malyn, S.N.; Lakowicz, J.R.; Geddes*, C.D. “Metal-EnhancedChemiluminescence: Radiating Plasmons Generated from Chemically Induced Electronic Excited States”,Applied Physics Letters (2006), 88, 173104.32. Zhang, Y.; Aslan, K.; Malyn, S.N.; Geddes*, C.D. “Metal-Enhanced Phosphorescence (MEP)”, ChemicalPhysics Letters (2006), 427, 432-439.33. Previte, M.J.R.; Aslan, K.; Malyn, S.N.; Geddes*, C.D. “Microwave-Triggered Metal-EnhancedChemiluminescence: Ultra Fast and Sensitive Quantitative Protein Determination” Journal ofFluorescence (2006), 16, 641-647.34. Chowdhury, M.H.; Aslan, K.; Malyn, S.N.; Lakowicz, J.R.; Geddes*, C.D. “Surface Plasmon-CoupledChemiluminescence” Journal of Physical Chemistry B (2006), 110, 22644-22651.35. Previte, M.J.R.; Aslan, K.; Malyn, S.N.; Geddes*, C.D. “Microwave-Triggered Metal-EnhancedChemiluminescence: Ultrafast and Sensitive Quantitative Protein Determination”, Analytical Chemistry(2006), 78, 8020-8027.36. Zhang, Y.; Aslan, K.; Previte, M.J.R.: Malyn, S.N.; Geddes*, C.D. “Metal-Enhanced Phosphorescence(MEP): Interpretation in terms of Triplet-Coupled Radiating Plasmons”, Journal of Physical Chemistry B(2006), 110(49), 25108-25114.37. Previte, M.J.R.; Aslan, K.; Zhang, Y; Geddes*, C.D. “Surface Plasmon Coupled Phosphorescence“,Chemical Physics Letters (2006), 432, 610-615.38. Zhang, Y.; Aslan, K.; Previte, M.J.R.: Geddes*, C.D. “Metal-Enhanced S 2 (MES 2 ) Emission fromAzulene” Chemical Physics Letters (2006), 432, 528-532.2007:39. Aslan, K.; Malyn, S.N.; Geddes*, C.D.” Metal-Enhanced Fluorescence from Large Gold Colloids onPlanar Surfaces: Angular Dependent Emission” Journal of Fluorescence (2007), 17(1), 7-13. (COVERARTICLE).40. Aslan, K.; Wu, M.; Lakowicz, J.R.; Geddes*, C.D. “Fluorescent Core-Shell Ag@SiO 2 Nanocomposites forMetal Enhanced Fluorescence and Single Nanoparticle Sensing Platforms”, Journal of the AmericanChemical Society (2007), 129(6), 1524-1525.41. Aslan, K.; Geddes*, C.D. “Microwave-Accelerated Ultra-Fast Nanoparticle Aggregation Assays usingGold Nanoparticles“, Analytical Chemistry (2007), 79, 2131-2136.42. Aslan, K.; Wu, M.; Lakowicz, J.R.; Geddes*, C.D. “Metal Enhanced Fluorescence Solution-basedSensing Platform 2: Fluorescent Core-Shell Ag@SiO 2 Nanoballs” Journal of Fluorescence (2007), 17(2),127-131.5

43. Aslan, K.; Malyn, S.N.; Geddes*, C.D.”Microwave-Accelerated Surface Plasmon Coupled DirectionalLuminescence: Application to Ultrafast and Sensitive Assays in Serum and Whole Blood”, Journal ofImmunological Methods (2007), 323(1), 55-64.44. Aslan, K.; Malyn, S.N.; Geddes*, C.D. “Angular-Dependent Metal-Enhanced Fluorescence from SilverColloid Deposited Films: Opportunity for Angular-Ratiometric Surface Assays” Analyst (2007), 132, 1112-1121.45. Aslan, K.; Malyn, S.N.; Bector. G.; Geddes*, C.D. “Microwave-accelerated metal-enhanced fluorescence:an ultra-fast and sensitive DNA sensing platform” Analyst (2007), 132, 1122-1129.46. Aslan, K.; Zhang, Y.; Hibbs, S.; Previte. M.J.R.; Baillie, L.; Geddes*, C.D. “Microwave-accelerated metalenhancedfluorescence: application to detection of genomic and exosporium anthrax DNA in

62. Zhang, Y.; Aslan, K.; Previte, M.J.R.; Geddes*, C.D.” Metal-Enhanced E-type Fluorescence”, AppliedPhysics Letters, (2008), 92, 013905.63. Zhang, Y.; Aslan, K.; Previte, M.J.R.; Geddes*, C.D. “Metal-Enhanced Excimer (P-Type) Fluorescence”Chemical Physics Letters, (2008), 458, 147-151.64. Aslan, K.; Previte, M.J.R.; Zhang, Y.; Geddes*, C.D. “Microwave-Accelerated Surface Plasmon-CoupledDirectional Luminescence 2: A platform technology for ultra fast and sensitive target DNA detection inwhole blood” Journal of Immunological Methods, (2008), 331, 103-113.65. Aslan, K.; Malyn, S.N.; Geddes*, C.D.”Angular-Dependent Metal-Enhanced Fluorescence from SilverIsland Films”, Chemical Physics Letters (2008), 453, 222-228.66. Aslan, K.; Malyn, S.N.; Zhang, Y.; Geddes*, C.D.” Conversion of just-continuous metallic films to largeparticulate substrates for metal-enhanced fluorescence”, Journal of Applied Physics, (2008), 103,084307.67. Aslan ‡ , K.; Previte, ‡ M.J.R.; Zhang, Y.; Gallagher, T.; Baillie, L.; Geddes*, C.D.” Extraction and Detectionof Genomic DNA from Anthrax Spores and the Vegetative Organism within 1 minute” AnalyticalChemistry, (2008), 80(11), 4125-4132 ( ‡ contributed equally).68. Aslan, K.; Geddes*, C.D.” A review of an ultrafast and sensitive bioassay platform technology:Microwave-Accelerated Metal-Enhanced Fluorescence”, Plasmonics, (2008), 3, 2-3, 89-101.69. Aslan, K.; Previte, M.J.R.; Zhang, Y.; Geddes*, C.D. “Surface Plasmon Coupled Fluorescence in theUltra-Violet and Visible Spectral Regions using Zinc Thin Films” Analytical Chemistry, (2008), 80, 7304-7312.70. Aslan, K.; McDonald, K.; Previte, M.J.R.; Zhang, Y.; Geddes*, C.D. “Silver Island Nanodeposits toEnhance Surface Plasmon Coupled Fluorescence from Copper Thin Films”, Chemical Physics Letters,(2008), 464, 216-219.71. Aslan, K.; Geddes*, C.D. “New Tools for Rapid Clinical and Bioagent Diagnostics: Microwaves andPlasmonic Nanostructures”, Analyst, (2008), 133, 1469-1480 (HIGHLIGHT ARTICLE).72. Aslan, K.; Previte, M.J.R.; Zhang, Y.; Geddes*, C.D. “Metal-Enhanced Fluorescence from ZincParticulate Films” The Journal of Physical Chemistry C, (2008), 112 (47), 18368-18375.73. Pribik, R.; Aslan, K.; Zhang, Y.; Geddes*, C.D.” Metal-Enhanced Fluorescence from ChromiumNanodeposits”, Journal of Physical Chemistry C, (2008), 112(46), 17969-17973.2009:74. Zhang, Y.; Aslan, K.; Geddes*, C.D.”Voltage-Gated Metal-Enhanced Fluorescence”, Journal ofFluorescence, (2009), 19(2), 363-367.75. Weisenberg, M.; Aslan, K.; Hortle, E.; Geddes*, C.D. “Directional Surface Plasmon CoupledChemiluminescence from Nickel Thin Films: Fixed Angle Emission” Chemical Physics Letters. (2009),473, 120-125.76. Aslan, K.; Geddes*, C.D. “Surface Plasmon Coupled Chemiluminescence from Zinc Substrates:Directional Chemiluminescence” Applied Physics Letters, (2009), 94, 073104.77. Aslan, K.; Zhang, Y.; Geddes*, C.D.” Surface Plasmon Coupled Fluorescence in the Visible to Near-Infrared Spectral Regions using Thin Nickel Films: Application to Whole Blood Assays”, AnalyticalChemistry, (2009), 81 (10), 3801-3808.78. Aslan, K.; Zhang, Y.; Geddes*, C.D.” Sonication-Assisted Metal-Enhanced Fluorescence (SAMEF)-based Bioassays” Analytical Chemistry (2009), 81, 4713-4719.79. Aslan, K.; Weisenberg, M.; Hortle, E.; Geddes*, C.D.” Surface Plasmon Coupled Chemiluminescencefrom Iron Thin Films: Directional and Approaching Fixed Angle Observation” Journal of Applied Physics,(2009), 106, 014313.80. Aslan, K.; Geddes*, C.D. “Metal-Enhanced Chemiluminescence: Advanced ChemiluminescenceConcepts for the 21st Century” Chemical Society Reviews, (2009), 38, 2556-2564 (TUTORIAL REVIEW).81. Aslan, K.; Geddes*, C.D. “Directional Surface Plasmon Coupled Luminescence: Which Metal, WhatWavelength, What Angle? Analytical Chemistry, (2009), 81, 6913-6922.7

82. Aslan, K.; Geddes*, C.D. “Wavelength-Ratiometric Plasmon Light Scattering-Based Immunoassays”Plasmonics, (2009), 4(4), 267-272.83. Aslan, K.; Weisenberg, M.; Hortle, E.; Geddes*, C.D.” Fixed-Angle Observation of Surface PlasmonCoupled Chemiluminescence from Palladium Thin Films”, Applied Physics Letters, (2009), 95, 123117.84. Aslan, K.; Zhang, Y.; Geddes*, C.D. “Directional, Broad and Fixed Angle Surface Plasmon CoupledFluorescence from Iron Thin Films, Journal of Physical Chemistry C, (2009), 113 (48), pp 20535–20538.85. Aslan, K.; Baillie, L.; Geddes*, C.D.” Ultra Fast and Sensitive Detection of Biological Threat Agents usingMicrowaves, Nanoparticles and Luminescence”, Journal of Medical Chemical, Biological and RadiologicalDefense,Manuscripts in Peer-Review:Book Chapters:86. Eroglu, I.; Aslan, K.; Gunduz, U.; Yucel, M.; Turker, L. “Continuous Hydrogen Production Rhodobactersphaeroides O.U.001” in Biohydrogen, Ed by Zaborsky R.O, Plenum Press, NY, (1998), pp. 143-149.87. Turkarslan, S.; Yigit, D.; Aslan, K.; Gunduz, U.; Eroglu, I.; Yucel, M.; Turker, L. “PhotobiologicalHydrogen Production Rhodobacter sphaeroides O.U.001 by Utilisation of Waste from Milk Industry”, inBiohydrogen, Edited by Zaborsky R. O, Plenum Press, NY, (1998), pp. 151-156.88. Pérez-Luna, V.H.; Aslan, K.; Betala, P. “Colloidal Gold”, in Encyclopaedia of Nanoscience andNanotechnology, Ed. H. S. Nalwa, American Scientific Publishers, California USA, Vol. 2., pp. 27-49,2004.89. Geddes, C.D.; Aslan, K.; Gryczynski, I.; Malicka, J.; Lakowicz, J.R. "Noble Metal Nanostructures forMetal-Enhanced Fluorescence", in Annual Reviews in Fluorescence 2004, Eds. C.D. Geddes and J.R.Lakowicz, Kluwer Academic/Plenum Publishers, New York, USA, pp. 365-401, 2004.90. Geddes, C.D.; Aslan, K.; Gryczynski, I.; Malicka, J.; Lakowicz, J.R. "Radiative Decay Engineering", inTopics in Fluorescence Spectroscopy, Eds. C.D. Geddes and J.R. Lakowicz, Kluwer Academic / PlenumPublishers, New York, USA, pp. 405-448, 2005.91. Aslan, K.; Gryczynski, I.; Malicka, J.; Lakowicz, J.R.; Geddes, C.D. "Metal-Enhanced Fluorescence:Application to High-Throughput Screening and Drug Discovery", in Drug Discovery Handbook, Ed.Shayne Gad., Wiley&Sons, New Jersey, pp. 603-666, 2005.92. Geddes, C.D.; Aslan, K.; Gryczynski, I.; Lakowicz, J.R. "Metal-Enhanced Fluorescence Sensing", inFluorescence Sensors and Biosensors, Ed. Thompson, R. Francis and Taylor Group, Boca Raton, FL,pp. 121-181, 2005.93. Aslan, K.; Lakowicz, J.R.; Geddes, C.D. “Plasmonic Glucose Sensing” in Topics in FluorescenceSpectroscopy, Eds. C.D. Geddes and J.R. Lakowicz, Kluwer Academic/Plenum Publishers, New York,USA, pp. 245-269, 2006.94. Aslan, K.; Geddes, C.D. “Generic Ultra fast and Sensitive Bioassay Platform Technology for Pathogenand Virus Detection using Spatially Focused Microwaves and Metal-Enhanced Fluorescence” inViralCheck, Ed. Robert M Marks, Leslie Lobel, Amadou A. Sall, Neobionics Ltd. Israel, pp.126-139, 2009.95. Aslan, K.; Geddes, C.D. “Microwave-Accelerated Metal-Enhanced Fluorescence” in The Role ofPlasmonic Engineering In Surface-Enhanced Fluorescence, Ed. Chris D. Geddes, Wiley/BlackwellPublishers, New Jersey, USA, 2009.96. Aslan, K.; Geddes, C.D. “Metal-Enhanced Fluorescence: A New Paradigm in FluorescenceSpectroscopy” in The Role of Plasmonic Engineering In Surface-Enhanced Fluorescence, Ed. Chris D.Geddes, Wiley/Blackwell Publishers, New Jersey, USA, 2009.97. Zhang, Y.; Aslan, K.; Geddes, C.D. “Metal-Enhanced Chemiluminescence” in The Role of PlasmonicEngineering In Surface-Enhanced Fluorescence, Ed. Chris D. Geddes, Wiley/Blackwell Publishers, NewJersey, USA, 2009.8

98. Zhang, Y.; Aslan, K.; Geddes, C.D. “Metal-Enhanced Chemiluminescence” in Annual Reviews inFluorescence 2008, Ed. C.D. Geddes, Springer, New York, USA, 2009 (In Press).Conference proceedings:99. Geddes, C.D.; Gryczynski, I.; Parfenov, A.; Aslan, K; Lakowicz, J.R. "Luminescent blinking from silver,gold and copper nanostructures: A new class of probes for imaging and localization Proceedings - Spiethe International Society for Optical Engineering, 2004, vol. 5329, pp. 276-286.100. Geddes, C.D.; Aslan, K.; Zhang, J.; Lakowicz, J.R., "Plasmonic Glucose Sensing based on theAggregation of Nanometer-sized Noble-Metal Colloids", Proceedings - Spie the International Society forOptical Engineering, 2004, vol. 5327, pp. 106-114.101. Szmacinski, H.; Pugh, V.; Moore, W.E.; Geddes, C.D.; Aslan, K.; Lakowicz, J.R. "Enhanced ChemicalFluorescence-based Sensing using Metallic Nano-Composites", Proceedings - Spie the InternationalSociety for Optical Engineering, 2004, vol. 5318, pp. 66-75.102. Lakowicz, J.R. et al., Aslan, K.; "Advances in Metal-Enhanced Fluorescence", Proceedings - Spie theInternational Society for Optical Engineering, 2004, vol. 5327, pp. 10-28.103. Gryczynski, Z. et al., Aslan, K.; “Metal-enhanced fluorescence: novel approach to ultrasensitivefluorescence sensing assay platforms”, Proceedings - Spie the International Society for OpticalEngineering, 2004, vol. 5321, pp. 275-282.104. Lakowicz, J.R. et al., Aslan, K. “Plasmon-controlled fluorescence: A new detection technology,Proceedings - Spie the International Society for Optical Engineering, 2006.105. Aslan, K.; Previte, M.J.R.; Zhang, Y.; Geddes, C.D. “Microwave-Accelerated Plasmonics: Application toUltra Fast and Sensitive Clinical Sensing”, Proceedings - Spie the International Society for OpticalEngineering, 2007, vol. 6450, 645007.CONFERENCES:Oral presentations with abstracts:1. Eroglu, I.; Aslan, K.; Gunduz, U.; Yucel, M.; Turker, L. “Hydrogen Production Rhodobacter sphaeroidesO.U.001, International Hydrogen Energy Congress (Stuttgart, Germany, June 1996).2. Perez-Luna, V.H.; Aslan, K. “Surface modification of colloidal metallic particles by chemisorption of thiolsin the presence of a nonionic surfactant”, American Institute of Chemical Engineers (Reno, 4-9 Nov.2001).3. Perez-Luna, V.H.; Aslan, K.”Utilization of colloidal gold in fluorescence-based detection”, AmericanChemical Society (Boston, 18-22 Aug. 2002).4. Perez-Luna, V.H.; Aslan, K. “Interactions of ligand functionalized gold nanoparticles with fluorescentlylabeled proteins”, American Chemical Society (New York City, 7-11 Sept. 2003).5. Perez-Luna, V.H.; Aslan, K. “Controlled and reversible aggregation of biotinylated gold nanoparticles withstreptavidin”, American Chemical Society (New York City, 7-11 Sept. 2003).6. Geddes, C.D.; Aslan, K.; Zhang, J.; Lakowicz, J.R., "Plasmonic Glucose Sensing based on theAggregation of Nanometer-sized Noble-Metal Colloids", The International Society for Optical Engineering,SPIE (San Jose, 12-14 Jan. 20047. Szmacinski, H. et al.; Aslan, K. "Enhanced Chemical Fluorescence-based Sensing using Metallic Nano-Composites", The International Society for Optical Engineering, SPIE (San Jose, 12-14 Jan. 2004)8. Lakowicz, J.R. et al., Aslan, K. "Advances in Metal-Enhanced Fluorescence", The International Societyfor Optical Engineering, SPIE (San Jose, 12-14 Jan. 2004)9. Gryczynski, Z. et al., Aslan, K. “Metal-enhanced fluorescence: novel approach to ultra-sensitivefluorescence sensing assay platforms”, The International Society for Optical Engineering, SPIE (SanJose, 12-14 Jan. 2004)10. Aslan, K.; Geddes, C.D. “Plasmonic small molecule sensing”, Particles 2004 (Orlando, 6-9 March 2004).9

11. Aslan, K.; Lakowicz, J.R.; Geddes, C.D. “Microwave-accelerated metal-enhanced fluorescence(MAMEF): A new technology for ultra fast and ultra bright immunoassays”, American Chemical Society(Washington, 28 Aug - 1 Sept. 2005):12. Aslan, K.; Lakowicz, J.R.; Geddes, C.D. “Advanced surfaces for metal-enhanced fluorescence”,Biophysical Society (Long Beach, 12-16 Feb. 2005):13. Lakowicz, J.R. et al; Aslan, K. “Plasmon-controlled fluorescence: A new detection technology”, TheInternational Society for Optical Engineering, SPIE (San Jose, 21-26 Jan. 2006).14. Aslan, K.; Previte, M.J.R.; Zhang, Y.; Geddes, C.D.”Microwave-Accelerated Plasmonics: Application toUltra-Fast and Ultra-Sensitive Clinical Assays”, The International Society for Optical Engineering, SPIE(San Jose, 20-25 Jan. 2007).15. Aslan, K.; Previte, M.J.R.; Zhang, Y.; Geddes, C.D.”Ultra-Fast and Sensitive DNA Hybridization Assays:Application to Genomic Anthrax detection in 30 seconds”, Biophysical Society (Baltimore, 3-7 March2007).16. Geddes, C.D.; Aslan, K.; Previte, M.J.R.; Zhang, Y. “Metal-Enhanced Fluorescence (MEF): Progresstowards a Unified Plasmon-Fluorophore Theory”, Biophysical Society (Baltimore, 3-7 March 2007).17. Aslan, K; Gaydos, C.A.; Agreda, P.; Quinn, N.; Jett-Goheen, M.; Barnes, M.; Geddes, C.D. “Sex in thecity, safe or not? 100 genome copy- 30 second std sensing platform” The International Society forSexually Transmitted Diseases Research (London, UK, 28 Jun.-1 Jul 2009).Posters with abstracts:18. Geddes, C.D.; et al.; Aslan, K; "Luminescent blinking from silver, gold and copper nanostructures: A newclass of probes for imaging and localization, “The International Society for Optical Engineering, SPIE (SanJose, 12-14 Jan. 2004).19. Geddes, C.D.; Aslan, K.; Badugu, R.; Lakowicz, J.R. “Novel glucose and anion organic and plasmonicprobes for physiological monitoring and safeguard”, Biophysical Society (Baltimore, 14-18 Feb. 20020. Aslan, K.; Geddes, C.D. “Novel metallic rod and triangular nanostructures for metal-enhancedfluorescence”, Particles 2004 (Orlando, 6-9 March 2004).21. Previte, M.J.R.; Aslan, K.; Zhang, Y.; Geddes, C.D. “Microwave-Accelerated Plasmon-EnhancedLuminescence: Platform Technology for Ultra Fast and Ultra Sensitive assays”, Biophysical Society(Baltimore, 3-7 March 2007).22. Zhang, Y.; Aslan, K.; Previte, M.J.R.; Geddes, C.D. “Plasmon-Enhanced Singlet Oxygen Generation“,Biophysical Society (Baltimore, 3-7 March 2007).23. Aslan, K.; Zhang, Y.; Geddes, C.D.” Optimization of Silver Colloid-Deposited High-Throughput ScreeningPlates for Rapid and Sensitive Cardiac Risk Assessment“, Biophysical Society (Long Beach, 2-6February, 2008)24. Aslan, K.; Previte, M.J.R.; Zhang, Y.; Geddes, C.D. “Release and Detection of Anthrax DNA within aMinute using Focused Microwaves and Metal-Enhanced Fluorescence”, Biophysical Society (LongBeach, 2-6 February, 2008)25. Aslan, K.; Zhang, Y.; Previte, M.J.R.; Geddes, C.D.”Plasmon-Controlled Fluorescence”, BiophysicalSociety (Long Beach, 2-6 February, 2008)26. Zhang, Y.; Aslan, K.; Previte, M.J.R.; Geddes, C.D. “Metal-Fluorophore Interactions: Progress Towards AUnified Description of Metal-enhanced Fluorescence (MEF)”, Biophysical Society (Long Beach, 2-6February, 2008).27. Zhang, Y.; Aslan, K.; Geddes, C.D. “Metal-enhanced Fluorescence (MEF)”, Biophysical Society (Boston28 February-4 March, 2009).28. Aslan, K.; Zhang, Y.; Geddes, C.D. “Rapid Detection of Troponin I from Serum usingMicrowave‐Accelerated Metal‐Enhanced Fluorescence”, Biophysical Society (Boston 28 February-4March, 2009).10

29. Zhang, Y.; Aslan, K.; Dragan, A.; Geddes, C.D. “Metal-enhanced Fluorescence (MEF)”, AmericanChemical Society (Washington, 16-20 Aug, 2009).30. Aslan, K.; Zhang, Y.; Geddes, C.D. “Directional surface plasmon coupled luminescence: Which metal,what wavelength, what angle? American Chemical Society (Washington, 16-20 Aug, 2009).Research Highlights:1. National Cancer Institute, Nanotechnology News, January 2006, “Microwaves + Nanoparticles = Ultrafast, Ultra sensitive Assays”.2. Baltimore Sun Daily Newspaper, January 20, 2006, “Detecting heart attack in a matter of seconds”3. Biophotonics International, February 2006, “Microwaves make faster and brighter fluorescent assays”, pp.59-61.4. Biophotonics International, December 2006, “Chemiluminescence gets a boost from microwaves”, p. 20.5. Analytical Chemistry, January 1, 2007,” Plasmon resonance boosts output of chemiluminescence”, p.4.Invited Talks:1. University of Maryland at Baltimore, School of Medicine, Department of Biochemistry and MolecularBiology, Baltimore, MD. USA. “3-D Plasmonic Sensing Platforms”, October 6, 2003.2. University of Maryland Biotechnology Institute, Annual Retreat 2004, Baltimore, MD. USA. “Noble MetalNanoparticles and their use in Biotechnological Applications” April 23 2004.3. University of Maryland Biotechnology Institute, Annual Retreat 2005, Baltimore, MD. USA. “Metal-Enhanced Fluorescence: an Emerging Tool in Biotechnology, April 14, 2005.4. Towson University, Department of Chemistry, Towson, MD, USA. “Metal-Enhanced Fluorescence usingSilver Nanostructures”, October 13, 2005.5. Morgan State University, Department of Chemistry, Baltimore, MD. USA. “Metal-EnhancedFluorescence”, February 2, 2006.6. University of California, Riverside, Department of Chemical and Environmental Engineering, Riverside,CA, USA. “Nanostructured Materials and Their Applications in Biotechnology”, February 26, 2008.7. University of Utah, Department of Chemical Engineering, Salt Lake City, UT, USA. “Engineering ofNanostructured Materials and Their Applications in Biotechnology”, February 28, 2008.8. Campbell University, The Department of Pharmaceutical Sciences, Buies Creek, NC, USA. “New Tools inLuminescence Spectroscopy: Metal Nanostructures and Microwaves”, July 8, 2008.9. Campbell University, The Department of Pharmaceutical Sciences, Buies Creek, NC, USA. “Introductionto Fluorescence Theory and Methods”, July 9, 2008.10. Bilkent University, Nanotechnology Research Center, Ankara TURKEY, “New Tools for Rapid Clinicaland Bioagent Diagnostics: Microwaves and Plasmonic Nanostructures” September 3, 2008.11. University of Nebraska, Lincoln, Department of Chemical and Biomolecular Engineering, Lincoln,Nebraska, “Nanostructured Materials and Their Applications in Biotechnology”, May 11, 2009.12. University of Nebraska, Lincoln, Department of Chemical and Biomolecular Engineering, Lincoln,Nebraska, “Introduction to Fluorescence Theory and Methods”, May 12, 2009.11