Prof. Dr. Vladimir M. Mirsky

Room:	15.305
Phone:	+49-3573-85-917
Fax:	+49-3573-85-809
Email:	vmirskyhs-lausitz.de
WWW:	http://hs-lausitz.mirsky.de Homepage at HS-Lausitz.de
Address:	Lausitz University of Applied Sciences Faculty of natural sciences - Nanobiotechnology Grossenhainer str. 57 01968 Senftenberg, Germany

Professional Experience

2008	Professor for Nanobiotechnology (Lausitz University of Applied Sciences)
2006	Assoc. Professor for Analytical Chemistry (University of Regensburg)
2001	"Habilitation" for Professorship in Analytical Chemistry.
1986	Ph.D. in Physical Chemistry (Electrochemistry) / Biophysics: "Photoelectrical characteristics of bacteriorhodopsin incorporated into planar lipid bilayers."
1981	Diploma in Medical Biophysics from Med.-Biol. Faculty of Moscow Medical University, Department of Biophysics.

since 2008	Lausitz University of Applied Sciences, Germany. Head of Nanobiotechnology
1995 - 2008	University of Regensburg, Institute of Analytical Chemistry, Chemical Sensors and Biosensors (with Prof. O. S. Wolfbeis); Head of the group “Thin Film Electrochemical Chemo- and Biosensors”.
1993 - 1994	Research Fellow of the C.I.E.S.-C.N.R.S. / Axon Concept Ltd., Marseille, France.
1991 - 1993	Research Fellow of the Alexander-von-Humboldt Foundation, University of Regensburg, Germany (with Prof. K. Heckmann).
1981 - 1991	Research associate; Acad. Sci. Frumkin Institute of Electrochemistry (group of Bioelectrochemistry of Interfaces) Moscow, with Prof. Yu. A. Chizmadzhev and V. S. Markin.

Books:

V. M. Mirsky (ed). Ultrathin Electrochemical Chemo- and Biosensors: Technology and Performance Springer, 2004, ISBN: 978-3-540-21285-0.
R. A. Potyrailo and V. M. Mirsky (eds). Combinatorial Methods for Chemical and Biological Sensors Springer, 2009, ISBN: 978-0-387-73712-6.
V.M.Mirsky, A. Yatsimirsky (eds). Artificial receptors for chemical sensors. Wiley VCH, 2011

Publications in scientific journals: over 120
Conference presentations: over 180 (oral and poster)
Invited lectures: over 30
Guest-editor: Special issue of "Mikrochim. Acta" Microanalytical Sensors and Systems (1999).

International Recognition

Editorial boards of scientific journals:


Analytica Chimica Acta (2003 - 2005)	Sensors	Journal of Biological Physics and Chemistry	American Journal of Analytical Chemistry

and "Reports in Electrochemistry", honorary editoral board.

Refereeing of European Projects on Nanotechnology, Biosensors, Chemical Sensors, Biophysics, Medical Engineering.
Member of Scientific board of the German Symposium on Biosensors (Regensburg 2005, Bochum 2007, Freiburg 2009).
Scientific advisor of companies: Affinity Biosystems AG (2000-2001), MIVITEC GmbH (Germany), TimeStrip Ltd. (UK), N.N. (Germany/USA).
Refereeing of manuscripts in Angew. Chemie, J. Am. Chem. Soc., J. Phys. Chem., ChemBioChem, ChemPhysChem, Electroanalysis, Langmuir, Mikrochimica Acta, Sensors and Actuators, Bioelectrochemistry, Anal. Chemistry, Anal. Chim. Acta, J. Electrochem. Soc. and other journals (about 50 manuscripts per year).

Research Activities

Development of new measurement techniques for chemosensing, biosensing and materials science
- Ultrasensitive surface plasmon resonance biosensing and imaging
- Capacitive biosensing
- Separation of bulk and interfacial electrical properties of thin films
- Combinatorial and high-throughput techniques in material science
Development and characterization of new materials
- Conductive polymers and copolymers
- Molecularly-imprinted polymers
- Artificial 2-D receptors
- Nanoparticles and composites of nanoparticles and polymers
- Electrocatalysts for biosensors
Nanotechnology and bionanotechnology
- Self-assembled monolayers
- Electropolymerization
- Layer-by –Layer deposition
- Langmuir-Blodgett techniques, lipid monolayers, liposomes, oil drop / water interface, impregnated filters
- Planar lipid bilayers (BLM)
Analytical applications
- Chemical sensors (herbicides, aminoacids, methabolites, ions)
- Biosensors (antigens, antibodies, bacteriophages, drug-resistance analysis, antibiotics, phospholipases)
- Gas sensors (mercury vapor, NH₃, HCl, O₃)
- DNA-sensors (electrochemical, optical)
Membrane processes (main activity: 1981 . 1995)

active ion transport in model systems (bacterirodopsin, Na,K-ATPase)
membrane electrostatics (phospholipases, adsorption)
lipase action, mechanisms of lypolysis activation
chemical damage of lipid membranes
photodynamic damage of lipid bilayers
drug . membrane interaction

Publications

Monolayers on the gas/liquid interface
- R. Hayessen, V. M. Mirsky, K. D. Heckmann. Alkylguanidines as a base for nitrate ion sensors. In: Sensor-95, AMA, Nürnberg 1995, pp. 841-844.
- R. Hayessen, V. M. Mirsky, K. D. Heckmann. Anion-sensitive properties of alkylguanidines in the membrane electrodes and monomolecular layers. Sensors and Actuators, 1996, 32 (3), 215-220.
- V. M. Mirsky. An effect of the lipid hydrolysis products on the phospholipase A action towards lipid monolayer. Phys. Chem. Lipids, 1994, 70, 75-81.
- V. M. Mirsky. Fatty acids effect on the phospholipase A: electrostatical mechanism of activation. Membr. Cell Biol., 1995, 9, 175-184.
Bilayer lipid membranes (BLM), membrane proteins (bacteriorhodopsin, phospholipases), membrane damage and membrane electrostatics
- V. M. Mirsky, V. S. Sokolov, T. V. Diukova, E.I.Melnik. A study of bacteriorhodopsin-containing proteoliposome incorporation into bimolecular lipid membranes. Bioelectrochem.Bioenerg., 1983, 11, 327-346.
- V. M. Mirsky, V. S. Sokolov. Criteria of bacteriorhodopsin incorporation into bimolecular lipid membrane. Biofizika, 1984, 29, 246-249.
- V. M. Mirsky, V. S. Sokolov, E. I. Melnik, T. V. Diukova. A study of incorporation of bacteriorhodopsin into bimolecular lipid membranes. Biofizika, 1984, 29, 250-253.
- V. M. Mirsky, V. S. Sokolov, V. S. Markin. Reconstitution of bacteriorhodopsin in bilayer lipid membrane by monolayer method. Electrokhimia, 1984, 20, 876.
- V. M. Mirsky, V. S. Sokolov, V. S. Markin, L. N. Chekulaeva. Bilayer ipid membrane formation from bacteriorhodopsin suspension in lipid solution. Biol. membr., 1984,N.1, 1143-1150.
- V. S. Sokolov, V. M. Mirsky, V. S. Markin, V.E.Kazarinov. Automatization of bioelectrochemical experiment. Electrokhimia, 1986, 22, 959-966.
- V. S. Markin, V. M. Mirsky, Y. A. Chizmadzhev. Photoelectrical activity of bacteriorhodopsin in planar lipid bilayer. In: Receptors and Ion channels. Eds.: Y.A.Ovchinnikov, F.Hucho. 1987. Walter de Grueter, Berlin, New York, pp.247-254.
- V. I. Portnov, V. M. Mirsky, V. S. Markin. Current-voltage characteristic of bacteriorhodopsin. Biol. membr., 1988, 5, 198-216.
- V. S. Sokolov, V. M. Mirsky, R. Toth-Boconadi, V. S. Markin, L. Keszthelyi. Bacteriorhodopsin photocycle in decane. Biol. membr., 1988, 5,595-599.
- V. V. Cherny, V. M. Mirsky, V. S. Sokolov, V. S. Markin. BLM as an enzyme-sensitive electrode: determination of the phospholipase activity. Bioelectrochem.Bioenerg., 1989, 21, 373-378.
- V. M. Mirsky, V. V. Cherny, V. S. Sokolov, V. S. Markin. Electrode for determination of the phospholipase activity based on the lipid membrane. Elektrokhimia, 1989, 25, 1336-1340.
- V. V. Cherny, V. M. Mirsky, V. S. Sokolov, V. S. Markin. Determination of the phospholipase A activity: Electrostatic assay. Biokhimia, 1990, 55, N.3, 445-450.
- V. I. Portnov, V. M. Mirsky, V. S. Markin. Bacteriorhodopsin: current-voltage dependence. Bioelectrochem. Bioenerg., 1990, 23, 45-63.
- V. M. Mirsky, V. V. Cherny, V. S. Sokolov, V. S. Markin. Electrostatic assay of phospholipase A activity. J. Biochem. Biophys. Methods, 1991, 21, 277-284.
- V. V. Cherny, E. Donath, V. M. Mirsky, M. Paulitchke, V. S. Sokolov. Modification of lipid bilayer properties due to sodium hypochlorite.. I. Effect on red blood cell membranes. Biol. membr., 1992, 9, N.1, 60-65.
- V. V. Cherny, I. N. Stozhkova, V. M. Mirsky, T. N. Yastrebova, V. S. Sokolov. Modification of lipid bilayer properties due to sodium hypochlorite. II. Effect on model lipid systems. Biol. membr., 1992, 9, N.1, 66-73.
- 24. V. V. Cherny, M. G. Sihuralidze, V. M. Mirsky, V. S. Sokolov. An effect of the phospholipase A2 on the electrical potential distribution through lipid bilayer. Biol. membr., 1992, N.7, 733-740.
- V. M. Mirsky. An effect of the lipid hydrolysis products on the phospholipase A action towards lipid monolayer. Phys. Chem. Lipids, 1994, 70, 75-81.
- V. M. Mirsky. Fatty acids effect on the phospholipase A: electrostatical mechanism of activation. Membr. Cell Biol., 1995, 9, 175-184.
- V. S. Sokolov, V. M. Mirsky. Electrostatic potentials of bilayer lipid membranes: basic research and analytical applications. Invited review for Chemical Sensors and Biosensors: Thin Layer Electrochemical Sensors and Biosensors: Technology and Performance, Springer, 2004, 255-291.
Photodynamic effects
- V. M. Mirsky, I. N. Stozhkova, T. I. Szito. Photosensitized damage of bilayer lipid membrane in the presence of hematoporphyrin dimethylether. J. Photochem. Photobiol. B: 1991, 8, 315-324.
- N. Stozhkova, V. M. Mirsky. Photoradiation therapy stimulation: photosensitized effect of hematoporphyrin dimethylether on planar bilayer lipid membrane. Bullet. Experim. Biol. Medicine, 1990, 109, 898 - 900.
- N. Stozhkova, V. M. Mirsky, T. Szito. Photosensitized by hematoporphyrin dimethylether damage of bilayer lipid membrane. Biol. membr., 1991, 8, N.4, 412-418.
- N. Stozkova, V. M. Mirsky, R. L. Kayushina, V. V. Erokhin, A. F. Mironov. An interaction of hematoporphyrin dimethylether with model lipid membranes. Double bounds of the lipid hydrocarbon chains as a target for photodynamic membrane damage. Biol. membr., 1992, 9, N.1, 74-79.
- N. Stozhkova, V. M. Mirsky, V. S. Sokolov. Stoichiometry of the photochemical reaction leading to the damage of BLM in the presence of hematoporphyrin. Biol. membr., 1993, 10, N.1, 44-49.
Electrocatalysts
- F. Kurniawan, V. Tsakova, V. M. Mirsky. Gold nanoparticles in non-enzymatic electrochemical detection of sugars. Electroanalysis, 2006,18, 1937 - 1942.
- Z. Zhi, V. Drazan, O. S. Wolfbeis, V. M. Mirsky. Electrochemical activity of single-stranded DNA as indication of hybridization. Bioelectrochemistry, 2006, 68, 1-6.
- N. V. Roznyatovskaya, V. K. Laurinavichute, G. A. Tsirlina, V. M. Mirsky. Electrochemistry and catalytic behavior of immobilized binuclear complexes of copper(II) an nickel(II) with Robson type ligand, J. Solid State Electrochem., 2007, 11 (7), 981-992..
- F. Kurniawan, V. Tsakova, V. M. Mirsky. Electrochemical detection of dopamine in the presence of ascorbic acid by electrode modified with gold nanoparticles. Journal of Nanomaterials and Nanotechnology, 2008, 8, 1-6. DOI: 10.1166/jnn.2008.013.
- S. Ivanov, F. Kurniawan, V. Tsakovaa, V. M. Mirsky. Layer-by-layer deposition of polyelectrolytes in flow mode, Macromolecular Materials and Engineering, 2009, 294. DOI: 10.1002/mame.200800376.
- F. Kurniawan, V. Tsakova, V. M. Mirsky. Analytical applications of electrodes modified by gold nanoparticles: dopamine detection. Journal of Nanoscience and Nanotechnology, 2009, 9, 2407-2412. DOI: 10.1166/jnn.2008.013.
- S. Ivanov, U. Lange, V. Tsakova, V. M. Mirsky. Electrocatalytically active nanocomposite from palladium nanoparticles and polyaniline: Oxidation of hydrazine. Sensors and Actuators, B, 2010, 150, 271-278, doi:10.1016/j.snb.2010.07.004.
- V. Tsakova, S. Ivanov, U. Lange, A. Stoyanova, V. Lyutov, V. M. Mirsky. Electroanalytical applications of nanocomposites from conducting polymers and metallic nanoparticles prepared by layer-by-layer deposition. Pure Appl. Chem., 2010, doi:10.1351/PAC-CON-10-08-01.
- U. Lange, T. Hirsch, V. M. Mirsky, O. S. Wolfbeis. Hydrogen sensor based on graphene - palladium nanocomposite. Electrochimica Acta, doi: 10.1016/j.electacta.2010.10.078.
Chemical sensors
- R. Hayessen, V. M. Mirsky, K. D. Heckmann. Alkylguanidines as a base for nitraate ion sensors. In: Sensor-95, AMA, Nürnberg 1995, pp. 841-844.
- R. Hayessen, V. M. Mirsky, K. D. Heckmann. Anion-sensitive properties of alkylguanidines in the membrane electrodes and monomolecular layers. Sensors and Actuators, 1996, 32 (3), 215-220.
- T. L. Panasyuk, V. M. Mirsky, S. A. Piletsky, O. S. Wolfbeis. Electropolymerized molecularly imprinted polymers as receptor layers in capacitive chemical sensors. Anal. Chemistry, 1999, 71 (20) 4609-4613.
- T. Panasyuk-Delaney, V. M. Mirsky, M. Ulbricht, O. S. Wolfbeis. Impedometric herbicide chemosensors based on molecularly imprinted polymers. Anal. Chim. Acta, 2001, 435, 157-162.
- T. Panasyuk-Delaney, V. M. Mirsky, O. S. Wolfbeis. Capacitive sensors based on photografted molecularly imprinted polymers. Biocybernetics and Biomedical Engineering, 2001, 21, N.3, 43-54.
- V. M. Mirsky, T. Panasyuk-Delaney, O. S. Wolfbeis. Chemical sensors based on ultrathin membranes from molecularly imprinted polymers. Biol. Membr., 2001, 18, 496-501.
- T. Panasyuk-Delaney, V. M. Mirsky, O. S. Wolfbeis. Capacitive creatinine sensor based on molecularly imprinted polymer. Electroanalysis, 2002, 14, 221-224.
- M. Ando, C. Swart, E. Pringsheim, V. M. Mirsky, O. S. Wolfbeis. Optical ozone detection by use of polyaniline film. Solid State Ionics, 2002, 152-152, 819-822.
- T. Hirsch, H. Kettenberger, O. S. Wolfbeis, V. M. Mirsky. A simple strategy for preparation of sensor arrays: Nanostructured monolayers as recognition elements. Chem Com., 2003, 432-433.
- M. Prodramidis, T. Hirsch, O. S. Wolfbeis, V. M. Mirsky. Enantioselective chemosensors based on spreader-bar structures. Electroanalysis,2003, 15, 1-4.
- M. Vasjari, V. M. Mirsky. Calibrated nanoinjections of mercury vapor. Fresenius J. Anal. Chem., 2000, 368, 727-729.
- V. M. Mirsky, M. Vasjari, I. Novotny, V. Rehacek, V. Tvarozek, O. S. Wolfbeis Self-assembled monolayers as selective filters for chemical sensors. Nanotechnology, 2002, 13,1-4.
- F. Kurniawan, V. Tsakova, V. M. Mirsky. Gold nanoparticles in non-enzymatic electrochemical detection of sugars. Electroanalysis, 2006,18, 1937 - 1942.
- V. M. Mirsky, M. Vasjari. Chemical sensors for mercury vapour. In: S. Alegret, A. Merkoci (eds.), Electrochemical Sensor Analysis. Comprehensive Analytical Chemistry, vol. 49, Elsevier 2007, 1065-1069.
- M. Vasjari, V. M. Mirsky. Chemoresistor for determination of mercury vapor. In: S. Alegret, A. Merkoci (eds.), Electrochemical Sensor Analysis. Comprehensive Analytical Chemistry, vol. 49, Elsevier 2007, 233-249.
- M. Krondak, G. Broncová, S. Anikin, A. Merz, V. M. Mirsky. Chemosensitive properties of poly-4,4'-dialkoxy2,2’-bipyrroles. J. Solid State Electrochem., 2006, 10, 185-191.
- M. Ando, C. Swart, E. Pringsheim, V. M. Mirsky, O. S. Wolfbeis. Ozone sensing properties of polyaniline derivates. Chemical Sensors, 2004, 20 (Suppl. B), 534-535.
- M. Ando, C. Swart, E. Pringsheim, V. M. Mirsky, O. S. Wolfbeis. Optical ozone sensing properties of poly(2-chloroaniline), poly(N-methylaniline) and polyaniline films. Sensor and Actuators, 2005, B108, 528-534.
- A. V. Samoylov, V. M. Mirsky, Q. Hao, C. Swart, Y. M. Shirshov, O. S. Wolfbeis. Nanometer-thick SPR sensor for gaseous HCl. Sensors and Actuators, 2005, B106, 369-372.
- S. Ivanov, V. Tsakova, V. M. Mirsky. Conductometric transducing in electrocatalytical sensors: Detection of ascorbic acid. Electrochemistry Communications, 2006,8, 643-646.
- Q. Hao, X. Wang, L. Lu, X. Yang, V. M. Mirsky. Electropolymerized multilayer conducting polymers with response to gaseous hydrogen chloride. Macromol. Rap. Comm., 2005, 26, 1099-1103.
- F. Kurniawan, V. Tsakova, V. M. Mirsky. Gold nanoparticles in non-enzymatic electrochemical detection of sugars. Electroanalysis, 2006, 18, 1937 - 1942.
- M. Vasjari, V. M. Mirsky. Chemoresistor for determination of mercury vapor. In: S. Alegret, A. Merkoci (eds.), Electrochemical Sensor Analysis. Comprehensive Analytical Chemistry, vol. 49, Elsevier 2007, 233-249.
- T. L. Delaney, D. Zimin, M. Rahm, D. Weiss, O. S. Wolfbeis, V. M. Mirsky. Capacitive detection in ultrathin chemosensors prepared by molecularly imprinted grafting photopolymerization. Analyt. Chemistry, 2007, 79, 3220-3225.
- M. Vasjari, A. V. Samoylov, Y. M. Shirshov, V. M. Mirsky. SPR investigation of mercury reduction and oxidation on thin gold electrodes. J. Electroanalyt. Chem., 2007, doi:10.1016/j.jelechem.2007.03.019; 2007, 605, 73-76.
- V. M. Mirsky. Combinatorial development of chemosensitive conductive polymers. In: R. A. Potyrailo, V. M. Mirsky (eds), Combinatorial methods for development of sensing materials, Springer, 2009, 315-330. ISBN: 978-0-387-73712-6.
- F. Kurniawan, V. Tsakova, V. M. Mirsky. Electrochemical detection of dopamine in the presence of ascorbic acid by electrode modified with gold nanoparticles. Journal of Nanomaterials and Nanotechnology, 2008, 8, 1-6. DOI: 10.1166/jnn.2008.013.
- B. Wolpert, M. Leitl, A. Pfitzner, V. M. Mirsky. Chemosensitive properties of conductive Cu(I)-compounds at room temperature, Sensors and Actuators, 2008, B 134, 839.842. DOI: 10.1016/j.snb.2008.06.047.
- B. Wolpert, O. S. Wolfbeis, V. M. Mirsky Gas sensing properties of electrically conductive Cu(I) compounds at elevated temperatures, Sensors and Actuators, B 2009, 142, 446-450.
- F. Kurniawan, V. Tsakova, V. M. Mirsky. Analytical applications of electrodes modified by gold nanoparticles: dopamine detection. Journal of Nanoscience and Nanotechnology, 2009, 9, 2407-2412. DOI: 10.1166/jnn.2008.013.
- S. Ivanov, U. Lange, V. Tsakova, V. M. Mirsky. Electrocatalytically active nanocomposite from palladium nanoparticles and polyaniline: Oxidation of hydrazine. Sensors and Actuators, B, 2010, 150, 271-278, doi:10.1016/j.snb.2010.07.004.
- V. Tsakova, S. Ivanov, U. Lange, A. Stoyanova, V. Lyutov, V. M. Mirsky. Electroanalytical applications of nanocomposites from conducting polymers and metallic nanoparticles prepared by layer-by-layer deposition. Pure Appl. Chem., 2010, doi:10.1351/PAC-CON-10-08-01.
- V. M. Mirsky. Quantitative characterization of affinity properties of immobilized receptors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 1-15.
- A. K. YatsimirskyV. M. Mirsky. Quantitative affinity data on selected artificial receptors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 441-462.
- U. Lange, V. M. Mirsky. Chemosensitive nanocomposite for conductometric detection of hydrazine and NADH. Electrochimica Acta, 2010, doi:10.1016/j.electacta.2010.08.092.
- U. Lange, T. Hirsch, V. M. Mirsky, O. S. Wolfbeis. Hydrogen sensor based on graphene - palladium nanocomposite. Electrochimica Acta, doi: 10.1016/j.electacta.2010.10.078.
- U. Lange, V. M. Mirsky. Chemiresistors based on conducting polymers: A review on measurement techniques. Analytica Chimica Acta, 2011, 687, 105-113, doi: 10.1016/j.aca.2010.11.030.
- U. Lange, V. M. Mirsky. Integrated electrochemical transistor as a fast recoverable gas sensor. Analytica Chimica Acta, 2011, 687, 7-11. doi: 10.1016/j.aca.2010.12.008.
Biosensors
- V. M. Mirsky, V. V. Cherny, V. S. Sokolov, V. S. Markin. Electrostatic assay of phospholipase A activity. J. Biochem. Biophys. Methods, 1991, 21, 277-284.
- V. V. Cherny, V. M. Mirsky, V. S. Sokolov, V. S. Markin. BLM as an enzyme-sensitive electrode: determination of the phospholipase activity. Bioelectrochem.Bioenerg., 1989, 21, 373-378.
- V. M. Mirsky, V. V. Cherny, V. S. Sokolov, V. S. Markin. Electrode for determination of the phospholipase activity based on the lipid membrane. Elektrokhimia, 1989, 25, 1336-1340.
- V. M. Mirsky, C. Krause, K. D. Heckmann. Capacitive detection of adsorption/desorption on hydrophobized gold electrodes: an application for surfactants adsorption and phospholipase assay. Chimica Chronica, New Series, 1996, 25, 179 - 194.
- V. M. Mirsky, M. Riepl, O. S. Wolfbeis. Capacitive monitoring of protein immobilization and antigen-antibody reaction on the monomolecular films of alkylthiols adsorbed on gold electrodes, Biosens. Bioelectronics, 1997, 12, 977-989.
- V. M. Mirsky, C. Krause, K. D. Heckmann. Capacitive sensor for lipolytic enzymes. Thin Solid Films, 1996, 284/285, 939-941.
- V. M. Mirsky, M. Mass, C. Krause, O. S. Wolfbeis. Capacitive approach to determine phospholipase A2 activity towards artificial and natural substrates. Anal. Chemistry, 1998, 70 (18), 3674-3678.
- T. M. Bajari, K. A. Lindstedt, M. Riepl, V. M. Mirsky, J. Nimpf, O. S. Wolfbeis, H. A. Dresel, E. K. F. Bautz, W. J. Schneider. A minimal binding domain of the low density lipoprotein receptor gene family. Biological Chemistry, 379, 1998, 1053-1062.
- V. M. Mirsky, M. Riepl, C. Krause, I. Novotny, M. Splonskowski, V. Rehacek, V. Tvarozek, H. Hummel, O. S. Wolfbeis. Thin film electrodes for capacitive chemo- and biosensors: an optimization of the electrodes geometry. Materials Science Forum, 1998, 287-288, 423-426.
- M. Riepl, V. M. Mirsky, O. S. Wolfbeis. Optimization of capacitive affinity sensors: drift suppression and signal amplification. Anal. Chim. Acta, 1999,392, 77-84.
- N. Wrobel, M. Riepl, M. Schinkinger, V. M. Mirsky, O. S. Wolfbeis. Capacitive thin film biosensors for bacteriophages and nucleic acids. Med. Biol. Engineer. Comput., 1999, 37, suppl. 2, 362-363.
- L. Cao, H. Lin,V. M. Mirsky.. Detection of antibiotics in food: Extraction of fluoroquinolones by DNA, Analyt. Bioanalyt. Chem., 2007, in press.
- L. Cao, H. Lin, V. M. Mirsky. DNA-based surface plasmon resonance biosensor for enrofloxacin Analyt. Chim. Acta, 2007, 589, 1-5.
- Z. Zhi, V. Drazan, O. S. Wolfbeis, V. M. Mirsky. Electrochemical activity of single-stranded DNA as indication of hybridization. Bioelectrochemistry, 2006, 68, 1-6.
- L. Cao, H. Lin,V. M. Mirsky.. Detection of antibiotics in food: Extraction of fluoroquinolones by DNA, Analyt. Bioanalyt. Chem., 2007, 388(1), 253-258.
- L. Cao, H. Lin, V. M. Mirsky. DNA-based surface plasmon resonance biosensor for enrofloxacin Analyt. Chim. Acta, 2007, 589, 1-5.
- A. Fassold, W. Falk, S. Anders, T. Hirsch, V. M., Mirsky, R. H. Straub. Soluble neuropilin-2, a nerve repellent receptor, is increased in rheumatoid arthritis synovium and aggravates sympathetic fiber repulsion and arthritis. Arthritis and Rheumatism, 2009, 60 (10), 2892-2901. DOI: 10.1002/art.24860.
- V. M. Mirsky. Quantitative characterization of affinity properties of immobilized receptors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 1-15.
Surface plasmon resonance
- Zybin, D. Boecker, V. M. Mirsky, K. Niemax. Enhancement of the detection power of surface plasmon resonance measurements by optimization of the reflection angle. Analyt. Chemistry, doi: 10.1021/ac070074u, 2007, 79, 4233-4236.
- Zybin, Ch. Grunwald, V. M. Mirsky, J. Kuhlmann, O. S. Wolfbeis, K. Niemax. Double-wavelength technique for surface plasmon resonance measurements: basic concept and applications for single sensors and two-dimensional sensor arrays. Anaytl. Chemistry, 2005, 77, 2393-2399.
- M. Wu, Z. Lin, V. M. Mirsky, O. S. Wolfbeis. Detection of DNA hybridization with surface plasmon resonance biosensor: comparison of immobilization of oligonucleotides by ssDNA and dsDNA. Proc. SPIE, 2001, 4414, 23-26.
- S. A. Zynio, A. V. Samoylov, E. R. Surovtseva, Y. M. Shirshov, V. M. Mirsky. Bimetallic layers increase sensitivity of affinity sensors based on surface plasmon resonance. Sensors, 2002, 2, 62-70.
- M. Vasjari, A. V. Samoylov, Y. M. Shirshov, V. M. Mirsky. SPR investigation of mercury reduction and oxidation on thin gold electrodes. J. Electroanalyt. Chem., 2007, doi:10.1016/j.jelechem.2007.03.019; 2007, 605, 73-76.
- L. Cao, H. Lin, V. M. Mirsky. DNA-based surface plasmon resonance biosensor for enrofloxacin Analyt. Chim. Acta, 2007, 589, 1-5.
- D. Boecker, A. Zybin, C. Grunwald, K. Niemax, V. M. Mirsky. Distributed sensing and referencing spots in microstructured surface plasmon resonance imaging. Rev. Sci. Instr., 2008, 79, DOI: 10.1063/1.2888527.
Self-assembled monolayers, nanotechnology and surface science
- V. M. Mirsky, M. Riepl, O. S. Wolfbeis. Capacitive monitoring of protein immobilization and antigen-antibody reaction on the monomolecular films of alkylthiols adsorbed on gold electrodes, Biosens. Bioelectronics, 1997, 12, 977-989.
- M. Riepl, V. M. Mirsky, O. S. Wolfbeis. Optimization of capacitive affinity sensors: drift suppression and signal amplification. Anal. Chim. Acta, 1999,392, 77-84.
- M. Riepl, V. M. Mirsky, O. S. Wolfbeis. Electrical control of alkanethiols self-assembly on gold surfaces as an approach to preparation of microelectrode arrays. Mikrochimica Acta, 1999, 131, 29 - 34.
- V. M. Mirsky, T. Hirsch, S. A. Piletsky, O. S. Wolfbeis. A spreader-bar approach to molecular architecture: formation of stable artificial chemoreceptors. Angewandte Chemie, Int. Ed. Engl. 1999, 111 (8), 1179-1181.
- V. M. Mirsky, Th. Hirsch, T. L. Panasyuk, S. A. Piletsky, O. S. Wolfbeis. Two- and three-dimensional artificial chemoreceptors: molecular spreader-bar vs. molecular imprinting. Med. Biol. Engineer. Comput., 1999, 37, suppl. 2, 344-345.
- T. Hirsch, H. Kettenberger, O. S. Wolfbeis, V. M. Mirsky. A simple strategy for preparation of sensor arrays: Nanostructured monolayers as recognition elements. Chem Com., 2003, 432-433.
- M. Prodramidis, T. Hirsch, O. S. Wolfbeis, V. M. Mirsky. Enantioselective chemosensors based on spreader-bar structures. Electroanalysis,2003, 15, 1-4.
- M. Vasjari, V. M. Mirsky. Calibrated nanoinjections of mercury vapor. Fresenius J. Anal. Chem., 2000, 368, 727-729.
- N. Wrobel, W. Deininger, P. Hegemann, V. M. Mirsky. Covalent immobilization of oligonucleotides on electrodes. Colloid and Surface. B: Biointerfaces, 2003, 32, 157-162.
- V. M. Mirsky, M. Vasjari, I. Novotny, V. Rehacek, V. Tvarozek, O. S. Wolfbeis Self-assembled monolayers as selective filters for chemical sensors. Nanotechnology, 2002, 13,1-4.
- N. Wrobel, M. Schinkinger, V. M. Mirsky. A novel ultraviolet assay for testing side reactions of carbodiimides. Anal. Biochem., 2002, 305, 135-138.
- T. Hirsch, M. Zharnikov, A. Shaporenko, J. Stahl, D. Weiss, O. S. Wolfbeis, V. M. Mirsky. Size-controlled electrochemical synthesis of metallic nanoparticles on molecular templates. Angewandte Chemie, Intern. Edition, 2005,44, 6775-6778.
- Th. Hirsch, V. M. Mirsky, A. Shaporenko, M. Zharnikov. Self-assembled monolayers from phthalocyanines: formation, characterisation and expelling by alkanethiols. Langmuir, 2007, 23, 4373-4377.
- S. Ivanov, F. Kurniawan, V. Tsakovaa, V. M. Mirsky. Automated layer-by-layer deposition of polyelectrolytes in flow mode, Macromolec. Materials and Engineering, 2009, 294, 441-444, DOI: 10.1002/mame.200800376.
DNA sensors
- N. Wrobel, M. Riepl, M. Schinkinger, V. M. Mirsky, O. S. Wolfbeis. Capacitive thin film biosensors for bacteriophages and nucleic acids. Med. Biol. Engineer. Comput., 1999, 37, suppl. 2, 362-363.
- N. Wrobel, W. Deininger, P. Hegemann, V. M. Mirsky. Covalent immobilization of oligonucleotides on electrodes. Colloid and Surface. B: Biointerfaces, 2003, 32, 157-162.
- Z. Lin, M. Wu, S. Ren, M. Gruber, M. Boehmer, V. M. Mirsky, O. S. Wolfbeis. Study of single and dual NIR fluorescently labeled nucleic acid conjugates for nucleic acid detection. . Proc. SPIE, 2001, 4414, 23-26.
- Z. Zhi, V. Drazan, O. S. Wolfbeis, V. M. Mirsky. Electrochemical activity of single-stranded DNA as indication of hybridization. Bioelectrochemistry, 2006, 68, 1-6.
- V. M. Mirsky. Spreader-bar structures as molecular templates for electrochemical synthesis of nanoparticles, In: B. Corain, G. Schmid, N. Toshima (eds.), Metal nanoclusters in catalysis and materials science: the issue of size-control, Elsevier, 2008, 321-325.
- P. Cígler, V. Král, M. Ko.í.ek, J. Konvalinka, V. M. Mirsky. Anomalous adsorptive properties of HIV protease: Indication of two-dimensional crystallization? Colloids and Surfaces: B. Biointerfaces. 2008, 64, 145.149. DOI: org/10.1016/j.colsurfb.2008.01.011.
- F. Hodzhaoglu, F. Kurniawan, V. Mirsky, C. Nanev. Gold nanoparticles induce protein crystallization. Crystal Research and Technology, Cryst. Res. Technol., 2008, 43, 588.593. DOI: 10.1002/crat.200811125.
- U. Lange, V. M. Mirsky Separated analysis of bulk and contact resistance of conducting polymers: comparison of simultaneous 2- and 4-point measurements with impedance measurements. J. Electroanalyt. Chemistry, 2008, 622, 246-251. DOI:10.1016/j.jelechem.2008.06.013.
- S. Ivanov, F. Kurniawan, V. Tsakovaa, V. M. Mirsky. Layer-by-layer deposition of polyelectrolytes in flow mode, Macromolecular Materials and Engineering, 2009, 294. DOI: 10.1002/mame.200800376.
Combinatorial and high-throughput techniques in material science
- V. M. Mirsky, V. Kulikov, O. S. Wolfbeis. Complete system for combinatorial synthesis and functional investigation of conductive polymers. Amer. Chemical Soc. PMSE Preprints 2005, 93, 1053.
- V. M. Mirsky, V. Kulikov. Combinatorial electropolymerization: concept, equipment and applications, in: High Throughput Analysis: A Tool for Combinatorial Materials Science, Kluwer Academic/Plenum Publishers, 2003, 431-446.
- V. Kulikov, V. M. Mirsky. Equipment for combinatorial electrochemical polymerization and high-throughput investigation of electrical proprieties of the synthesized polymers. Meas. Sci. Technol., 2004, 15, 49-54.
- V. M. Mirsky, V. Kulikov, Q. Hao, O. S. Wolfbeis. Multiparameter High Throughput Characterization of Combinatorial Chemical Microarrays of Chemosensitive Polymers. Macromolec. Rap. Comm., 2004, 25, 253-258.
- V. Kulikov, V. M. Mirsky, T. Delaney, D. Donoval, A. W. Koch, O. S. Wolfbeis. High-throughput analysis of bulk and contact conductance of polymer layers prepared by combinatorial electropolymerization. Meas. Sci. Technol., 2005, 16, 95-99.
- V. M. Mirsky, V. Kulikov, Q. Hao, O. S. Wolfbeis. Application of combinatorial electropolymerization to the development of chemical Sensors. Mat. Res. Soc. In: Combinatorial and Artificial Intelligence Methods in Materials Science. 2004, 804, JJ4.1. 1-6.
- V. M. Mirsky. Neue Technologie angewandter Polymerforschung. Hundert mal schneller zu neuen Sensormaterialien. In: HighChem Hautnah. Aktuelles aus Analytischen Chemie. GDCh 2006, p. 98-99 (in German).
- R. A. Potyrailo, V. M. Mirsky. Development of new sensing materials using combinatorial and high-throughput experimentation. In: M. Ryan (ed.), Rational design of sensing materials, Springer, 2009.
Conductive polymers
- M. Ando, C. Swart, E. Pringsheim, V. M. Mirsky, O. S. Wolfbeis. Optical ozone detection by use of polyaniline film. Solid State Ionics, 2002, 152-152, 819-822.
- Q. Hao, M. Rahm, D. Weiss, V. M. Mirsky. Morphology of electropolymerized poly (N-methylaniline) films. Microchimica Acta, 2003, 143, 147-153.
- Q. Hao, V. Kulikov, V. M. Mirsky. Investigation of contact and bulk resistance of conductive polymers by simultaneous two- and four-point technique. Sensors and Actuators, 2003, B94, 352-357.
- V. Kulikov, V. M. Mirsky. Equipment for combinatorial electrochemical polymerization and high-throughput investigation of electrical proprieties of the synthesized polymers. Meas. Sci. Technol., 2004, 15, 49-54.
- V. M. Mirsky, V. Kulikov, Q. Hao, O. S. Wolfbeis. Multiparameter High Throughput Characterization of Combinatorial Chemical Microarrays of Chemosensitive Polymers. Macromolec. Rap. Comm., 2004, 25, 253-258.
- V. Kulikov, V. M. Mirsky, T. Delaney, D. Donoval, A. W. Koch, O. S. Wolfbeis. High-throughput analysis of bulk and contact conductance of polymer layers prepared by combinatorial electropolymerization. Meas. Sci. Technol., 2005, 16, 95-99.
- V. M. Mirsky, V. Kulikov, Q. Hao, O. S. Wolfbeis. Application of combinatorial electropolymerization to the development of chemical Sensors. Mat. Res. Soc. In: Combinatorial and Artificial Intelligence Methods in Materials Science. 2004, 804, JJ4.1. 1-6.
- M. Krondak, G. Broncová, S. Anikin, A. Merz, V. M. Mirsky. Chemosensitive properties of poly-4,4'-dialkoxy2,2’-bipyrroles. J. Solid State Electrochem., 2006, 10, 185-191.
- V. M. Mirsky. Neue Technologie angewandter Polymerforschung. Hundert mal schneller zu neuen Sensormaterialien. In: HighChem Hautnah. Aktuelles aus Analytischen Chemie. GDCh 2006, p. 98-99 (in German).
- M. Krondak, G. Broncová, S. Anikin, A. Merz, V. M. Mirsky. Chemosensitive properties of poly-4,4'-dialkoxy2,2’-bipyrroles. J. Solid State Electrochem., 2006, 10, 185-191.
- M. Ando, C. Swart, E. Pringsheim, V. M. Mirsky, O. S. Wolfbeis. Ozone sensing properties of polyaniline derivates. Chemical Sensors, 2004, 20 (Suppl. B), 534-535.
- M. Ando, C. Swart, E. Pringsheim, V. M. Mirsky, O. S. Wolfbeis. Optical ozone sensing properties of poly(2-chloroaniline), poly(N-methylaniline) and polyaniline films. Sensor and Actuators, 2005, B108, 528-534.
- A. V. Samoylov, V. M. Mirsky, Q. Hao, C. Swart, Y. M. Shirshov, O. S. Wolfbeis. Nanometer-thick SPR sensor for gaseous HCl. Sensors and Actuators, 2005, B106, 369-372.
- S. Ivanov, V. Tsakova, V. M. Mirsky. Conductometric transducing in electrocatalytical sensors: Detection of ascorbic acid. Electrochemistry Communications, 2006,8, 643-646.
- Q. Hao, X. Wang, L. Lu, X. Yang, V. M. Mirsky. Electropolymerized multilayer conducting polymers with response to gaseous hydrogen chloride. Macromol. Rap. Comm., 2005, 26, 1099-1103.
- V. M. Mirsky. Combinatorial development of chemosensitive conductive polymers. In: R. A. Potyrailo, V. M. Mirsky (eds), Combinatorial methods for development of sensing materials, Springer, 2009, 315-330. ISBN: 978-0-387-73712-6.
- U. Lange, N. V. Roznyatovskaya, V. M. Mirsky. Conducting polymers in chemical sensors and arrays, Analytica Chimica Acta, 2008, 614, 1-26. DOI: 10.1016/j.aca.2008.02.068.
- U. Lange, V. M. Mirsky Separated analysis of bulk and contact resistance of conducting polymers: comparison of simultaneous 2- and 4-point measurements with impedance measurements. J. Electroanalyt. Chemistry, 2008, 622, 246-251. DOI:10.1016/j.jelechem.2008.06.013.
- S. Ivanov, F. Kurniawan, V. Tsakovaa, V. M. Mirsky. Layer-by-layer deposition of polyelectrolytes in flow mode, Macromolecular Materials and Engineering, 2009, 294. DOI: 10.1002/mame.200800376.
- U. Lange, N. V. Roznyatovskaya, Q. Hao, V. M. Mirsky. Conducting polymers as artificial receptors in chemical sensors. In: A. Yatsimirsky, V. M. Mirsky (eds.), Artificial receptors for chemical sensors, Wiley 2009.
- S. Ivanov, F. Kurniawan, V. Tsakovaa, V. M. Mirsky. Automated layer-by-layer deposition of polyelectrolytes in flow mode, Macromolec. Materials and Engineering, 2009, 294, 441-444, DOI: 10.1002/mame.200800376.
- U. Lange, V. M. Mirsky. Potential and pH-dependencies of bulk and contact resistances of conducting polymers. In: S.A.Hashmi, A.Chandra, A. Chandra. (ed.). Electroactive polymers: Materials and devices. Vol. 3. Macmillan Publisher 2009, New Delji, pp. 37-46.
- U. Lange, S. Ivanov, V. Lyutov, V. Tsakova, V. M. Mirsky. Voltammetric and conductommetric behaviour of self assembled multilayer nanocomposites of polyaniline and gold nanoparticles, J. Solid. State Electrochem. 2010, 14, 1261-1268, DOI 10.1007/s10008-009-0922-2.
- G. Broncova, S. Anikin, U. Lange. P. Matejka, M. Krondak, V. Kral, V. M. Mirsky. Electrochemical and spectroscopic properties of poly-4,4'-dialkoxy-2,2'-bipyrroles. J. Sol. State Electrochem., 2010, 14, 1035-1044, DOI 10.1007/s10008-009-0911-5.
- V. Tsakova, S. Ivanov, U. Lange, A. Stoyanova, V. Lyutov, V. M. Mirsky. Electroanalytical applications of nanocomposites from conducting polymers and metallic nanoparticles prepared by layer-by-layer deposition. Pure Appl. Chem., 2010, doi:10.1351/PAC-CON-10-08-01.
- U. Lange, N. V. Roznyatovskaya, Q. Hao, V. M. Mirsky. Conducting polymers as artificial receptors in chemical sensors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 363-392.
- U. Lange, T. Hirsch, V. M. Mirsky, O. S. Wolfbeis. Hydrogen sensor based on graphene - palladium nanocomposite. Electrochimica Acta, doi: 10.1016/j.electacta.2010.10.078.
- U. Lange, V. M. Mirsky. Chemiresistors based on conducting polymers: A review on measurement techniques. Analytica Chimica Acta, 2011, 687, 105-113, doi: 10.1016/j.aca.2010.11.030.
- U. Lange, V. M. Mirsky. Integrated electrochemical transistor as a fast recoverable gas sensor. Analytica Chimica Acta, 2011, 687, 7-11. doi: 10.1016/j.aca.2010.12.008.
Molecularly imprinted polymers
- V. M. Mirsky, T. Hirsch, S. A. Piletsky, O. S. Wolfbeis. A spreader-bar approach to molecular architecture: formation of stable artificial chemoreceptors. Angewandte Chemie, Int. Ed. Engl. 1999, 111 (8), 1179-1181.
- V. M. Mirsky, Th. Hirsch, T. L. Panasyuk, S. A. Piletsky, O. S. Wolfbeis. Two- and three-dimensional artificial chemoreceptors: molecular spreader-bar vs. molecular imprinting. Med. Biol. Engineer. Comput., 1999, 37, suppl. 2, 344-345.
- T. L. Panasyuk, V. M. Mirsky, S. A. Piletsky, O. S. Wolfbeis. Electropolymerized molecularly imprinted polymers as receptor layers in capacitive chemical sensors. Anal. Chemistry, 1999, 71 (20) 4609-4613.
- T. Panasyuk-Delaney, V. M. Mirsky, M. Ulbricht, O. S. Wolfbeis. Impedometric herbicide chemosensors based on molecularly imprinted polymers. Anal. Chim. Acta, 2001, 435, 157-162.
- T. Panasyuk-Delaney, V. M. Mirsky, O. S. Wolfbeis. Capacitive sensors based on photografted molecularly imprinted polymers. Biocybernetics and Biomedical Engineering, 2001, 21, N.3, 43-54.
- V. M. Mirsky, T. Panasyuk-Delaney, O. S. Wolfbeis. Chemical sensors based on ultrathin membranes from molecularly imprinted polymers. Biol. Membr., 2001, 18, 496-501.
- T. Panasyuk-Delaney, V. M. Mirsky, O. S. Wolfbeis. Capacitive creatinine sensor based on molecularly imprinted polymer. Electroanalysis, 2002, 14, 221-224.
- T. L. Delaney, D. Zimin, M. Rahm, D. Weiss, O. S. Wolfbeis, V. M. Mirsky. Capacitive detection in ultrathin chemosensors prepared by molecularly imprinted grafting photopolymerization. Analyt. Chemistry, 2007, 79, 3220-3225.
- A. K. YatsimirskyV. M. Mirsky. Quantitative affinity data on selected artificial receptors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 441-462.
Adsorption of proteins and surfactants
- C. Krause, V. M. Mirsky, K. D. Heckmann. Capacitive detection of surfactant adsorption on hydrophobized gold electrodes. Langmuir, 1996, 12, 6059-6064.
- R. Schweiss, V. M. Mirsky, O. S. Wolfbeis. Capacitive study od self-assembled alkylthiol monolayers: surface charge effects and kinetics of surfactants adsorption. Materials Science Forum, 1998, 287-288, 427-430.
- P. Cígler, V. Král, M. Ko.í.ek, J. Konvalinka, V. M. Mirsky. Anomalous adsorptive properties of HIV protease: Indication of two-dimensional crystallization? Colloids and Surfaces: B. Biointerfaces. 2008, 64, 145.149. DOI: org/10.1016/j.colsurfb.2008.01.011.
- F. Hodzhaoglu, F. Kurniawan, V. Mirsky, C. Nanev. Gold nanoparticles induce protein crystallization. Crystal Research and Technology, Cryst. Res. Technol., 2008, 43, 588-593. DOI: 10.1002/crat.200811125.
- A. V. Shishkov, E. N. Bogacheva, A. A. Dolgov, A. L. Chulichkov, D. G. Knyazev, N. V. Fedorova, A. L. Ksenofontov, L. V. Kordyukova, E. V. Lukashina, V. M. Mirsky, L. A. Baratova. The in situ structural characterization of the influenza A virus matrix M1 protein within a virion. Protein and Peptide Letters, 2009, 16 (11) 1407-1413. DOI: 10.2174/092986609789353682.
Reviews
- V. M. Mirsky, M. Riepl, M. Mass, T. Hirsch, R. Schweiss, O. S. Wolfbeis. Capacitive detection of analyte binding in thin film chemo- and biosensors. In: Solid State Chemical and Biochemical Sensors, ed. P. Vinceni, Techna Publisher, Faenza, 1999.
- V. Rehacek, I. Novotny, V. Tvarozek, M. Riepl, T. Hirsch, M. Mass, R. Schweiss, V. M. Mirsky, O. S. Wolfbeis. Capacitive detection in thin film chemical sensors and biosensors. In: Advanced Semiconductor Devices and Microsystems, ed. J. Breza, D. Donoval, V. Drobny, F. Uherek. IEEE 1998.
- V. M. Mirsky, N. Wrobel, M. Riepl, T. Hirsch, O. S. Wolfbeis. Intelligente Nanostrukturen für Biosensoren und Sensor-Arrays. BioTec 1999 (4), 28-32.
- V. M. Mirsky. New applications of self-assembled monolayers. Trends in Analyt. Chem., 200221, 439-450
- V. M. Mirsky, V. Kulikov, Q. Hao, O. S. Wolfbeis. Application of combinatorial electropolymerization to the development of chemical Sensors. Mat. Res. Soc. In: Combinatorial and Artificial Intelligence Methods in Materials Science. 2004, 804, JJ4.1. 1-6.
- V. S. Sokolov, V. M. Mirsky. Electrostatic potentials of bilayer lipid membranes: basic research and analytical applications. Invited review for Chemical Sensors and Biosensors: Thin Layer Electrochemical Sensors and Biosensors: Technology and Performance, Springer, 2004, 255-291.
- M. Vasjari, V. M. Mirsky. Chemoresistor for determination of mercury vapor. In: S. Alegret, A. Merkoci (eds.), Electrochemical Sensor Analysis. Comprehensive Analytical Chemistry, vol. 49, Elsevier 2007, 233-249.
- V. M. Mirsky, M. Vasjari. Chemical sensors for mercury vapour. In: S. Alegret, A. Merkoci (eds.), Electrochemical Sensor Analysis. Comprehensive Analytical Chemistry, vol. 49, Elsevier 2007, e105 (1065-1069).
- V. M. Mirsky. Spreader-bar structures as molecular templates for electrochemical synthesis of nanoparticles, In: B. Corain, G. Schmid, N. Toshima (eds.), Metal nanoclusters in catalysis and materials science: the issue of size-control, Elsevier, 2008, 321-325.
- R. A. Potyrailo, V. M. Mirsky. Combinatorial and high-throughput development of sensing materials. Chemical Reviews, 2008, 108, 770-813. DOI: 10.1021/cr068127f.
- V. M. Mirsky. Combinatorial development of chemosensitive conductive polymers. In: R. A. Potyrailo, V. M. Mirsky (eds), Combinatorial methods for development of sensing materials, Springer, 2009, 315-330. ISBN: 978-0-387-73712-6.
- R. A. Potyrailo, V. M. Mirsky. Introduction to combinatorial methods for chemical and biological sensors. In: R. A. Potyrailo, V. M. Mirsky (eds), Combinatorial methods for development of sensing materials, Springer, 2009, 3 - 24. ISBN: 978-0-387-73712-6.
- R. A. Potyrailo, V. M: Mirsky. Combinatorial methods for chemical and biological sensing: Outlook. In: R. A. Potyrailo, V. M. Mirsky (eds), Combinatorial methods for development of sensing materials, Springer, 2009, 483-489. ISBN: 978-0-387-73712-6.
- U. Lange, N. V. Roznyatovskaya, V. M. Mirsky. Conducting polymers in chemical sensors and arrays, Analytica Chimica Acta, 2008, 614, 1-26. DOI: 10.1016/j.aca.2008.02.068.
- R. A. Potyrailo, V. M. Mirsky. Development of new sensing materials using combinatorial and high-throughput experimentation. In: M. Ryan (ed.), Rational design of sensing materials, Springer, 2009.
- U. Lange, N. V. Roznyatovskaya, Q. Hao, V. M. Mirsky. Conducting polymers as artificial receptors in chemical sensors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 363-392.
- R. A. Potyrailo, V. M. Mirsky. Development of new sensing materials using combinatorial and high-throughput experimentation. In: M. Ryan (ed.), Rational design of sensing materials, Springer, 2009.
- V. M. Mirsky. Quantitative characterization of affinity properties of immobilized receptors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 1-15.
- A. K. YatsimirskyV. M. Mirsky. Quantitative affinity data on selected artificial receptors. In: V. M. Mirsky, A. Yatsimirsky (eds.), Artificial receptors for chemical sensors, Wiley 2011, pp. 441-462.
- U. Lange, V. M. Mirsky. Chemiresistors based on conducting polymers: A review on measurement techniques. Analytica Chimica Acta, 2011, 687, 105-113, doi: 10.1016/j.aca.2010.11.030.

last modified, 2011, April 06.