Publications
PUBLICATIONS
PATENTS
• Ramaraja P. Ramasamy,Heather R. Luckarift,Dmitri Ivnitski,Plamen B. Atanassov,Glenn R. Johnson,Biofuel Cell Electrocatalysts Utilizing Enzyme-Carbon Nanotube Adducts, Pat. Appl, Filling Date: 06/07/2010
• Sitdykov R.A., Ivnitski D. et al., Electrochemical biosensor,Pat. Appl, Filling Date: 08/11/2009
• Dmitri Ivnitski, VladimerShapovalov, Method of producing a multi-microchannel, flow-through element and device using same. Patent Appl # 11/201699 Filling Date: 08/11/2007Pub.No/Pub. Date: 20070034298/ 15-Feb-2007
• Wilkins E., Atanasov P., Abdel-Hamid I., Ivnitski D, Apparatus for detecting contamination in food products, U.S. Patent: 6,180,335 B1, Jun 2001.
• Sitdykov R.A., Ivnitski D., Reifman L.S. and Kurochkin V.E. Flow-injection Immunoassay, No. 1654750, 1991, USSR
REPRESENTATIVE PUBLICATIONS (1991 – present)
1. Maggie Werner-Washburne , Geza Szilvay, Dmitri Ivnitski et al, Engineering of a redox protein for DNA-directed assembly, Chem. Commun., DOI:10.1039/C1CC11951F, 2011 (in press)
2. G. Hong, D. Ivnitski, G. Johnson, P. Atanassov, R. Pachter, Design Parameters for Type 1 Multicopper Oxidase Redox Potential Tuning in Biocathodes: Insight from a Combination of First Principles and Empirical Molecular Dynamics Simulations, J. Am. Chem. Soc., 2011, 133 (13), 4802–4809
3. G. Gupta, C. Lau, B. Branch, V. Rajendran, D. Ivnitski, P. Atanassov, Direct bio-electrocatalysis by multi-copper oxidases: Gas-diffusion laccase-catalyzed cathodes for biofuel cells, ElectrochimicaActa (2011) In press
4. G. Gupta, C. Lau, V. Rajendran, F. Colon, B. Branch, D. Ivnitski, P. Atanassov, Direct electron transfer catalyzed by bilirubin oxidase for air breathing gas-diffusion electrodes, Electrochemistry Communications 13 (2011) 247–249.
5. D. Ivnitski, C. Khripin, H. R. Luckarift, G. R. Johnson, P. Atanassov, Surface characterization and direct bioelectrocatalysis of multicopper oxidases, ElectrochimicaActa, 2010, 55, 7385-7393.
6. R. P. Ramasamy,H. R. Luckarift,D. M. Ivnitski,P. B.Atanassov, G. R. Johnson, High Electrocatalytic Activity of Tethered Multicopper Oxidase-Carbon Nanotube Conjugates, ChemComm., 46 (2010) 6045–6047.
7. H. R. Luckarift, D.Ivnitski, R. Rincon, P.Atanassov, G. R. Johnson, Glucose Oxidase Catalyzed Self-Assembly of Bioelectroactive Gold Nanostructures, Electroanalysis, 22, (2010) 784 – 792.
8. D. Ivnitski, K. Artyushkova and P. Atanassov, Surface characterization and direct electrochemistry of redox copper centers of Bilirubin Oxidase from the Fungi Myrotheciumverrucaria, Bioelectrochemistry, 74 (2008) 101-110.
9. D. Ivnitski, P. Atanassov, B. Branch, C. Apblett, V. Shapovalov, New generation biosensors based on
directbioelectrocatalysis and multi-microchannel technology. In: L.M. Lechuga, F.P. Milanovich, P.Skladal, O. Ignatov (Eds.) Commercial and pre-commercial cell detection technologies for defence against bioterror, , NATO Science Series, p. 38 – 44, 2008.
10. D.Ivnitski, KaterynaArtyuskova, Rosalba A. Rincón, PlamenAtanassov, Heather R. Luckarift and Glenn R. Johnson, “Entrapment of Enzymes and Carbon Nanotubes in Biologically Synthesized Silica: Glucose Oxidase-Catalyzed Direct Electron Transfer”, Small, 4 (2008) 357-364.
11. V. D.Guliy, Bunin, D. O’Neil, D. Ivnitski, O.V. Ignatov, A new electro-optical approach to rapid assay of cell viability, Biosensors and Bioelectronics, 23 (2007) 583-587.
12. D. Ivnitski and P. Atanassov, “Electrochemical Studies of Intramolecular Electron Transfer in Laccase from Trametesversicolor” Electroanalysis, 19 (2007) 2307-2313
13. D. Ivnitski, P. Atanassov and C. Apblett, “Direct Bioelectrocatalysis of PQQ-Dependent Glucose Dehydrogenase” Electroanalysis, 19 (2007) 1562-1568
14. Dmitri Ivnitski, Britany Branch, PlamenAtanasov, Christopher Apblett (2006).Glucose Oxidase Anode for Biofuel Cell based on Direct Electron Transfer, Electrochemistry Communications, 8, 1204-1210.
15. Britany Branch, Dmitri Ivnitski, PlamenAtanasov (2006). Enzymatic biofuel cells for micro-power source applications. Technical Digest. The 6 International Workshop on micro and nanotechnology for power generation and energy conversion applications, Berkeley, USA 69-72.
16. Dennis Morrison, Fred Milanovich, Dmitri Ivnitski, and Thomas Austin (eds). (2005). Defense Against Bioterror: Detection Technologies, Implementation Strategies and Commercial Opportunities. NATO Science Series, Kluwer Academic Publishers, Boston/Dordrecht/London, 400 p.
17. Dmitri Ivnitski, Dennis Morrison, D. O’Neil, Critical elements of biological sensor technology for deployment in an environmental network system. In: Dennis Morrison, Fred Milanovich, Dmitri Ivnitski, and Thomas Austin (eds). (2005). Defense Against Bioterror: Detection Technologies, Implementation Strategies and Commercial Opportunities. NATO Science Series, Kluwer Academic Publishers, Boston/Dordrecht/London, 207-220.
18. V. Ignatov, O. I. Guliy, Bunin V. D., A. G. Voloshin., D. O’Neil, D. Ivnitski (2005). Detection of microbial cells with electrooptical analysis. In: Dennis Morrison, Fred Milanovich, Dmitri Ivnitski, and Thomas Austin (eds). (2005). Defense Against Bioterror: Detection Technologies, Implementation Strategies and Commercial Opportunities. NATO Science Series, Kluwer Academic Publishers, Boston/Dordrecht/London, 147-163.
19. Bunin V. D., O. V. Ignatov, O. I. Guliy, A. G. Voloshin., L. A. Dykman, D. O’Neil, D. Ivnitski. (2004). Studies of Listeria Monocytogenes-Antibody Binding Using Electro-orientation. Biosensors & Bioelectronics 19, 1759-1761.
20. Victor D. Bunin, Oleg Ignatov, Olga I. Guliy, Irina Zaitseva, Daniel O’Neil, Dmitri Ivnitski. (2004). Electro-Optical Analysis of the Escherichia coli-Phage Interaction. Analytical Biochemistry, 328, 181-186.
21. D. Ivnitski, R. Sitdikov, N. Ivnitski. (2004). Hand-Held sensor for saliva and other fluid-based diagnostics. Anal. Chim. Acta, 504, 265-269.
22. Bunin V. D., O. V. Ignatov, O. I. Guliy, I. Zaitseva, O’Neil, D. Ivnitski. (2004).
23. Studies of Electrophysical Properties of E. coli-Phage Complexes, Microbiology (Rus), 74, 1, 1-5.
24. D. Ivnitski, R. Sitdikov, N. Ivnitski. (2003). Non-Invasive Electrochemical Hand-Held Biosensor as Diagnostic Indicator of Dental Diseases. Electrochemistry Communications, 5/3, 225 - 229
25. D. Ivnitski, D. O’Neil, D. Morrison. Critical Elements of Remote Point Biodetectors for Deployment in the Environmental Network Systems (2003) Proceedings BTR 2003 Annual Conference: Unified Science & Technology for Reducing Biological Threats & Countering Terrorism19-21 March, 2003Albuquerque.
26. D. Ivnitski, D. O'Neil,A. Gattuso,R. Schlicht, M. Moore, M. Calidonna, R. Fisher. (2003). Nucleic acid approaches for detection and identification of biological warfare and infectious disease agents, BioTechniques, 35, 862-869.
27. Abdel-Hamid I., Atanasov P., Ivnitski D., and E. Wilkins (2002). Flow-through immunoassay system for rapid clinical diagnostics. Ch. 5, pp. 93-120. In W.T. Law, N.Akmal, A.M. Usmani (eds). Biomedical Diagnostic Science and Technology, Marcel Decker, NY.
28. D. Ivnitski, Abdel-Hamid I., Atanasov P., E. Wilkins and Stricker S. (2000). (Review). Application of electrochemical biosensors for detection of food pathogenic bacteria. Electroanalysis, 12, 317-325.
29. D. Ivnitski, E. Wilkins, H.T. Tien, A. Ottova (2000). Electrochemical biosensor based on supported planar lipid bilayers for fast detection of pathogenic bacteria. Electrochemistry Communications, 2(7), 457-460.
30. Abdel-Hamid I., Atanasov P., Ivnitski D. and E. Wilkins (2000). Immunosensor for fast detection of bacterial contamination. In: Chemical and Biological Sensors for Environmental Monitoring. A. Mulchandani and O.A. Sadik (eds), ACS Symp. Series 762, Ch. 17, p. 236-246.
31. S. Vetcha, I. Abdel-Hamid, P. Atanasov, D. Ivnitski, E. Wilkins (2000). Portable Immunosensor for the Fast Amperometric Detection of Anti-Hantavirus Antibodies. Electroanalisis, 12 (#13), 1034-1038.
32. E. Wilkins, M. Carter, J. Voss, D. Ivnitski (2000). A Quantitative Determination of Organophosphate Pesticides in Organic Solvents. Electrochemistry Communications, v.2 (11), 786-790.
33. Abdel-Hamid I., Ivnitski D., Atanasov P. and E. Wilkins (1999). Flow-through immunofiltration assay system for rapid detection of E.coli O157:H7. Biosensors and Bioelectronics, 14, 309-316.
34. Abdel-Hamid I., Ivnitski D., Atanasov P. and E. Wilkins (1999). Highly sensitive flow injection immunoassay system for rapid detection of bacteria. Anal. Chim. Acta, 399, 99-108.
35. D. Ivnitski, Abdel-Hamid I., Atanasov P., and E. Wilkins (1999). (Review). Biosensors for detection of pathogenic bacteria. Biosensors & Bioelectronics, 14, 599-624.
36. D. Ivnitski, T. Wolf, B. Solomon, G. Fleminger and J.Rishpon. (1998). An amperometric biosensor for real time analysis of molecular recognition, Bioelectrochem. Bioenerg., 45 (1), 27-32.
37. Wolf T., B. Solomon, D. Ivnitski, J.Rishponanf G. Fleminger (1998). Interactions of calmodulin with metal ions and with its target proteins revealed by conformation-sensitive monoclonal antibodies, J. Molecular Recognition, 11, 14-19.
38. Abdel-Hamid I., Ivnitski D., Atanasov P. and E. Wilkins (1998). Fast Amperometric Assay for E.coli O157:H7 using partially immersed immunoelectrodes. Electroanalysis, 10 (11), 758-763.
39. Rishpon J. and Ivnitski D. (1997). An amperometric enzyme-channeling immunosensor, Biosensors and Bioelectroncs. 12, 195-204.
40. Rishpon J. and D. Ivnitski. (1997). A disposable electrochemical sensor on a polymer-modified carbon electrode and multi-enzyme amplification, Proc. Am.Chem.Sci, 467-468.
41. D. Ivnitski and J. Rishpon (1997). An amperometric biosensor for real time monitoring of immunological reactions, Proc. of Ass. Chem. Sci, Germany, 3, 305-309.
42. D. Ivnitski and Rishpon J. (1996) A One-Step, Separation-Free Amperometric Enzyme Immunosensor, Biosensors and Bioelectronics. 11, 409-417.
43. Rishpon J. and Ivnitski D. (1996). Amperometric Enzyme-channeling Immunosensor, The Annals of the NY Acad. of Sciences, 799, 508-513, N.Y. Acad. of Science.
44. D. Ivnitskiand Rishpon J. (1994). A potentiometric biosensor for pesticides based on the thiocholinehexacyanoferrate (III) reaction., Biosensors and Bioelectronics, 9, 569-576.
45. D. Ivnitskiand Rishpon J. (1993 ). Biosensor based on direct detection of membrane potential induced by immobilized hydrolytic enzymes, Anal . Chim. Acta, 282, 517-525.
46. D. Ivnitski, Sitdykov R.A. and Kurochkin V.E. (1992). Flow-injection amperometric system for enzyme immunoassay, Anal. Chim. Acta., V.261, N 1/2, 45-52.
47. D. Ivnitski, Kurochkin I.N., Varfolomeev S.D. and YulaevM.F . (1991). Electrochemical biosensor for morphine based on opiate receptors of rat brain, J. Anal. Chem., V.46, 5, 999-1003. USSR.
48. D. Ivnitski, Sitdykov R. and Kurochkin V.E. (1991). High-speed electrochemical analyzer with computer data processing for immunoassay, J. Anal. Chem., V.46, 6, 1239-1244. USSR
49. D. Ivnitski, Kurochkin I.N. and Varfolomeev S.D. (1991). Electrochemical Biosensors - a review, J. Anal. Chem., 46/8, 1059-1072.
50. D. Ivnitski, Yulaev M.F., Kuznetsov A.G. and Kurochkin I.N. (1991). Direct conversion of the morphine opiate receptor complex formation reaction into an electric signal, Soviet Electrochemistry, 27/10, 1148-1153. USSR
