The University of Sheffield
Chemical and Biological Engineering

Dr Dmitriy Kuvshinov - Publications

Publications

D. Kuvshinov, M. R. B., J. M. MacInnes, R. W. K. Allen, R. Ge, L. Aldous, C. Hardacre, N. Doy, M. I. Newton and G. McHale.
Thermal Conductivity Measurement of Liquids in a Microfluidic Device.
Microfluidics and Nanofluidics
2011, 10(1), 123-132.

N. Doy, G. McHale, M. I. Newton, C. Hardacre, R. Ge, J. M. MacInnes, D. Kuvshinov, and R. W. Allen.
Small volume laboratory on a chip measurements incorporating the quartz crystal microbalance to measure the viscosity-density product of room temperature ionic liquids
Biomicrofluidics
2010, V. 4(1). P. 014107.

V.V. Shinkarev, A.M. Glushenkov, D.G. Kuvshinov and G.G. Kuvshinov.
Nanofibrous carbon with herringbone structure as an effective catalyst of the H2S selective oxidation.
Carbon
2010, V.48(7), 2004-2012.

Soloyvey, E. A., Kuvshinov D. G., et al
Production of hydrogen and nanofibrous carbon by selective catalytic decomposition of propane.
International Journal of Hydrogen Energy
34(3): 1310-1323 (2009)

Kuvshinov, D. G., Chukanov, I. S., et al
Changes in the properties of fibrous nanocarbons during high temperature heat treatment.
Carbon
47(1): 215-225 (2009)

Shinarev, V. V., Glushenkov, A. M., et al
New effective catalysts based on mesoporous nanofibrous carbon for selective oxidation of hydrogen sulfide.
Applied Catalysis B-Environmental
85(3-4): 180-191 (2009)

Perez-Cabero, M., Kuvshinov, D., et al
Novel strategy for the synthesis of vertically orientated carbon nanofibers.
Materials Research Bulletin
43(7): 1737-1742 (2008)

Asedobega-Nieto, E., Bachiller-Baeza, B., et al
Effect of the carbon support nano-structures on the performance of Ru catalysts in the hydrogenation of paracetamol.
Carbon
46(7): 1046-1052 (2008)

Solov'ev, E. A., Kuvshinov D. G., et al
Hydrogen Production Based on the Selective Catalytic Pyrolysis of Propane.
Theoretical Foundations of Chemical Engineering
42(5): 611-621 (2008)

Perez-Cabero, M.; Kuvshinov, D.; Guerrero-Ruiz, A.; Rodriguez-Ramos, I.
Novel strategy for the synthesis of vertically orientated carbon nanofibers.
Materials Research Bulletin
2008, 43, (7), 1737-1742.

E. Asedegbega-Nieto, B. Bachiller-Baeza, D.G. Kuvshinov, F.R. García-García, E. Chukanov, G.G. Kuvshinov, A. Guerrero-Ruiz, I. Rodríguez-Ramos.
Effect of the carbon support nano-structures on the performance of Ru catalysts in the hydrogenation of paracetamol.
Carbon
Volume 46, Issue 7, June 2008, Pages 1046-1052.

Soloviev EA, Kuvshinov DG, Chukanov ES, Kuvshinov GG, Ermakov DYu.
Technological Peculiarities of the Hydrogen Production by Catalytic Propane Decomposition.
Russian J. of Chemical Technology,
2007, 12, p. 544.

V.E. Stukachev, E.S. Chukanov, A.M. Glushenkov, D.G. Kuvshinov.
Application of Ni-Pd catalysts for hydrogen generation via catalytic methane decomposition.
VolgGTU bulletin. Part Rheology. Processes and apparatuses of chemical technology.
V.1. – 2007. -№11 (37).-p. 83.

E.A. Soloviev, D.G. Kuvshinov, G.G. Kuvshinov.
Investigation of catalytic propane decomposition process aimed the hydrogen and nano fibrous carbon production.
VolgGTU bulletin. Part Rheology. Processes and apparatuses of chemical technology.
V.1. – 2007. -№11 (37).-p. 79.

E.S. Chukanov, D.G. Kuvshinov, Yu.l. Krutskiy, V.V. Ochkov, G.G. Kuvshinov.
Investigation of inert materials influence to the big scale nano structured carbon synthesis process.
VolgGTU bulletin. Part Rheology. Processes and apparatuses of chemical technology.
V.1. – 2007. -№11 (37).-p. 75.

V.V. Shinkarev, D.G. Kuvshinov, G.G. Kuvshinov.
Direct H2S oxidation over different nano fibrous carbon structures. Influence of oxygen-hydro sulfur ratio.
VolgGTU bulletin. Part Rheology. Processes and apparatuses of chemical technology.
V.1. – 2007. -№11 (37).-p. 59.

G.G. Kuvshinov, V.V. Shinkarev, A.M. Glushenkov, M.N. Boyko and D.G. Kuvshinov,
China
Particuology 4
(2006), p. 70-72

S.H. Lee, T.Y. Lee, J.H. Han, D.G. Kuvshinov, J.B. Yoo, C.Y. Park.
The growth of carbon nanotubes using the directional adsorption of SAPO4-5 by Thermal CVD.
Diamond and related materials,
14 (11-12), 2005, p. 1876.

Park JH, Moon JS, Han JH, Berdinskiy AS, Kuvshinov DG, Yoo JB, Park CY, Nam JW, Park JH, Lee CG, Choe DH.
Effects of binders and organic vehicles on the emission properties of carbon nanotube paste.
Diamond and related materials,
14 (9), 2005, p. 1463.

Jae Hong Park, Jong Hyung Choi, Jin-San Moon, D.G. Kushinov, Ji-Beom Yoo, Chong Yun Park, Joong-Woo Nam, Chun Kyu Lee, Jong Hwan Park, D.H.Choe.
Simple approach for the fabrication of carbon nanotube field emitter using conducting paste.
Carbon 43, 2005, p. 698.

Jae-Hong Park, Gil-Hwan Son, Jin-San Moon, Jae-Hee Han, Alexander S. Berdinsky, D. G. Kuvshinov, Ji-Beom Yoo, Chong-Yun Park, Joong-Woo Nam, Jonghwan Park, Chun Gyoo Lee, and Deok Hyeon Choe.
Screen printed carbon nanotube field emitter array for lighting source application. 
J. Vac. Sci. Technol. B 23 (2)
Mar/Apr 2005, p. 749.

Kovalenko GA, Kuvshinov DG, Komova OV, Simakov AV, Rudina NA.
Catalytic filamentous carbons (CFC) and CFC-coated ceramics for immobilization of biologically active substances. NANOENGINEERED NANOFIBROUS MATERIALS 169.
Book Series: NATO SCIENCE SERIES, SERIES II: MATHEMATICS, PHYSICS AND CHEMISTRY, 2004, p. 265.

 Kuvshinov G.G., Glushenkov A.M. and Kuvshinov D.G.
The influence of inert impurities on the catalyst lifetime and properties of nanofibrous carbon produced by utilization of diluted hydrocarbon gases.
J. Chemistry for Sustainable Development
11, 2003, p. 135.

Kovalenko G.A., Kuznetsova E.V., Mogilnykh Yu.I., Andreeva I.S., Kuvshinov D.G. and Rudina N.A.
Catalytic filamentous carbons for immobilizayion of biologically active substances and non-growing bacterial cell. 
Carbon.
V. 39. 2001, p. 1033.

Kuvshinov G.G., Mogilnykh Yu. I., Kuvshinov D.G., Yermakov D.Yu., Yermakova M.A., Salanov A.N. and Rudina N.A. Mechanism of Porous Filamentous Carbon Granule Formation on Catalytic Hydrocarbon Decomposition.
Carbon
1999. V. 37, p. 1239.

Kuvshinov D.G., Razuvaev P.A., Ismagilov F.R.
The technology diagrams of catalytic fibrous carbon production from natural gas.
Science news. NSTU.
1999, № 2 (7), с. 151-157.

Kuvshinov G. G., Mogilnykh Yu. I., Kuvshinov D.G., Yermakov D.Yu., Yermakova M.A., Salanov A.N. and Rudina N.A.
Formation of porous filamentous carbon particles and properties of new materials.
American Chemical Society, Division of fuel chemistry
1998, Volume 43, No 4, p. 946.

Kuvshinov G.G., Mogilnykh Yu.I., Kuvshinov D.G.
Kinetics of carbon formation from CH4-H2 mixtures over a nickel containing catalyst.
Catalysis Today
1998, V. 42, p. 357.

Kuvshinov G. G., Zavaruhin S.G., Mogilnykh Yu. I., Kuvshinov D.G.
Realization of granulated catalytic fibrous carbon production in the pilot rector scale.
J. Chim. Prom.
1998, № 5, p. 300.

Kuvshinov G.G., Mogilnykh Yu.I., Kuvshinov D.G. et al.
Peculiarities of filamentous carbon formation in methane decomposition on Ni - containing catalysts. 
Carbon.
1998. V. 36. No. 1-2, p. 87.

Kuvshinov G.G., Mogilnykh Yu.I., Kuvshinov D.G., Zaikovskii V.I. and Avdeeva L.B.
Kinetic peculiarities of filamentous carbon formation process during methane decomposition on the nickel containing catalysts.
J. Chim. Prom.
1997. No. 4, p. 270.

Conference Articles

E.A. Solovev, D.G. Kuvshinov, D.Yu. Ermakov, G.G. Kuvshinov.
Production of CO-free hydrogen through selective catalytic decomposition of propane and butane.
Abstracts of XVIII International Conference on Chemical Reactors
CHEMREACTOR-18- 2008. – P.448.

E.A Soloviov, D.G. Kuvshinov, D.Yu. Ermakov, G.G. Kuvshinov.
Peculiarities of process of CO-free hydrogen production by catalytic propane decomposition.
Europacat VIII
26-31 August 2007, Turku / Åbo, Finland.

Shinkarev V.V., Kuvshinov D.G., Kuvshinov G.G.
Catalytic properties of nanofibrous carbon in direct oxidation of H2S depending on chemical treatment and process conditions.
Europacat VIII
26-31 August 2007, Turku / Åbo, Finland.

Soloviov E.A., Kuvshinov D.G., Chukanov I.S., Ermakov D.Yu., Kuvshinov G.G.
Selective process of hydrogen production by catalytic pyrolysis of propane
Abstracts of III International Conference
Catalysis: Fundamentals and Application
July 4-8, 2007 Novosibirsk, Russia. V.2. – P. 628.

Kuvshinov Gennadiy G., Shinkarev Vasiliy V., Glushenkov Aleksey M., Boyko Maksim N. and Kuvshinov Dmitriy G. Catalytic Properties of Nanofibrous Carbon in Selective Oxidation of Hydrogen Sulfide.
China, PARTICUOLOGY 4(2), 70-72, 2006

G.G. Kuvshinov, E.A. Soloviov, D.J. Ermakov, D.G. Kuvshinov.
Peculiarities of propane decomposition into nanofibrous carbon and hydrogen on Ni-containing catalysts
IX International Conference, ICHMS 2005
Sevastopol – Crimea – Ukraine, September 5-11, 2005.
Kiev, Ukraine, 2005. –p.1216-1217

S.H. Lee, T.Y. Lee, J.H. Han, D.G. Kuvshinov, A.S. Berdinsky, Y.U. Kwon, J.B. Yoo, C.Y. Park.
The growth of carbon nanotubes through catalyst control with support using chemical vapor deposition
The Nanotube (NT’05) Conference Series
Sixth International Conference on the Science and Application of Nanotubes
June 26 – July 1, 2005, Gothenburg, Sweden, p.84.

Kuvshinov G.G., Lebedev M.Yu., Seleznev A.N. and Kuvshinov D.G.
Catalytic production of nanofibrous carbon in the pilot reactor scale.
Third International conference “Carbon: fundamental problems of science, science of material, technology”
13 of October, Moscow, Lomonosov’s Moscow State University, Russia, 2004, p. 142.

Kuvshinov G.G., Glushenkov A.M., Kuvshinov D.G.
Texture operation of nano-fibrous carbon obtained via methane decomposition by high-loaded Ni-contained catalysts.
Third International conference “Carbon: fundamental problems of science, science of material, technology”
13 of October, Moscow, Lomonosov’s Moscow State University, Russia, 2004, p. 141.

Glushenkov A.M., Kuvshinov D.G., Kuvshinov G.G.
The dependency of carbon nanofibers diameters on catalytic synthesis temperature and Ar/CH4 ratio in gas mixture
An International Conference on Carbon “Carbon’03”
July 6-10, 2003, Oviedo, Spain. P.153

Kuvshinov G.G., Kuvshinov D.G.
Basis of granulated nano-fibrous carbon materials production and application.
Second International conference “Carbon: fundamental problems of science, science of material, technology”
15 of October, Moscow, Lomonosov’s Moscow State University, Russia, 2003, p. 89.

Glushenkov A.M., Kuvshinov D.G., Kuvshinov G.G.
The dependency of carbon nanotubes diameter on synthesis conditions.
“Tenth APAM topical seminar and Third conference “Materials of Siberia” and “Nanoscience and Technology”, devoted to 10th anniversary of APAM.
2 of June, Novosibirsk, Russia, 2003, p. 322.

Kuvshinov D.G., Kuvshinov G.G. and Glushenkov A.M.
The influence of inert impurities on the catalyst lifetime and properties of nanofibrous carbon produced by utilization of diluted hydrocarbon gases.
Proceedings of R’02, 6th World Congress on Integrated Resources Management.
12 of February, Geneva, Switzerland, 2002, p. 329.

Kuvshinov D.G., Kuvshinov G.G. and Glushenkov A.M.
The influence of inert impurities on the catalyst lifetime and properties of nanofibrous carbon produced by utilization of diluted hydrocarbon gases.
Abstracts of Russian-Dutch Workshop “Catalysis for Sustainable Development”
22 of June, Novosibirsk, Russia, 2002, p. 277.

Lebedev M.Yu., Kuvshinov D.G., Shinkarev V.V. and Kuvshinov G.G.
Peculiarities of direct oxidation of hydrogen sulphide into sulphur in oxygen excess on the filamentous carbon.
5th European Congress on Catalysis, University of Linerick, EUROPCAT, Ireland, 2001

Kovalenko G.A., Kuznetsova E.V., Andreeva I.S., Rudina N.A., Kuvshinov D.G., Simakov A.V.
Immobilization of rhodococcus jn carbon-containing supports for heterogeneous bioepoxidation of propene.
Proceedings of the World Congress on Biotechnology Biotechnology’2000
3 of September, 2000. ICC, Berlin. Vol.4, p. 512

G.G. Kuvshinov, D.G.Kuvshinov
Effect of inert admixtures on the production of filamentory carbon from methane.
EUROCARBON 2000,
9-13 July 2000, Berlin, pp. 53-54.

Kuvshinov G.G., Mogilnykh Yu.I. and Kuvshinov D.G.
Uninterrupted process of filamentous carbon production in the luidized bed reactor.
Proceedings of the 14th International Conference of Chemical Reactors “Chemreactor-XIV”, Tomsk
23 of June, Russia, 1998, p. 86.

Kuvshinov G.G., Mogilnykh Yu.I., Kuvshinov D.G., Zavarukhin S.G. and Avdeeva L.B.
Peculiarities of formation of granulated porous filamentous carbon in methane decomposition on Ni-containing catalysts.
Extended abstracts and Program CARBON’97 23rd Biennial Conference on Carbon
18 of July, 1997. P. 336.

Kuvshinov G.G., Mogilnykh Yu.I., Kuvshinov D.G., Zaikovskii V.I., and Avdeeva L.B.
Kinetic peculiarities of filamentous carbon formation at methane decomposition by Ni-contained catalysts.
Proceedings of the 13th International Conference of Chemical Reactors “Chemreactor-XIII”
Novosibirsk city, 18 of June, Russia, 1996, part #1, p. 86.

Kuvshinov G.G., Mogilnykh Yu.I., Kuvshinov D.G., Zavarukhin S.G. and Parmon V.N.
New ecologically sound technology to produce hydrogen and new carbon material via low temperature catalytic pyrolysis.
Proceedings of the 11th World Hydrogen Energy Conference Stuttgart (Germany). 1996. P. 655.

G.G. Kuvshinov, Yu.I. Mogilnykh, D.G. Kuvshinov, V.I. Zaikovskii.
Peculiarities of catalytic filamentous carbon formation over nickel-containing catalyst.
Proceedings of the 12th International Congress of Chemical and Process Engineering “Chisa’96”
Praha, 1996, summaries 2, B5.5, p. 33.

Avdeeva L.B., Zavaruhin S.G., Kuvshinov G.G., Kuvshinov D.G., Mogilnykh Yu.I., Liholobov.
Ecologically friendly process of oil gases conversion with new carbon materials and hydrogen production.
Proceedings of Second International Conference of Oil Chemistry
27th of September, 1994, Tomsk city, Russia, p. 168.

Patents

Authors: E.A. Soloviev, D.G. Kuvshinov, D.Yu. Ermakov, G.G. Kuvshinov.
Title: Method of hydrogen and nano-fibrous carbon production.
Number: 2312059
Country: Russia
Priority of invention: 03.04.2006
Patentee Boreskov Institute of Catalysis and Novosibirsk State Technical University, Novosibirsk city, Russia.

Authors: G.G. Kuvshinov, Yu.I. Mogilnikh, S.G. Zavaruhin, D.G. Kuvshinov, M. Yu. Lebedev.
Title: Method of the sulfur production.
Number: 97103804 Country: Russia
Priority of invention: 12.03.1997
Patentee Boreskov Institute of Catalysis, Novosibirsk city, Russia.

Authors: G.G. Kuvshinov, Yu.I. Mogilnikh, S.G. Zavaruhin, D.G. Kuvshinov, V.N. Parmon.
Title: Method of the carbon material production.
Number: 96108774
Country: Russia
Priority of invention: 06.05.1996
Patentee Boreskov Institute of Catalysis, Novosibirsk city, Russia.

Authors: G.G. Kuvshinov, Yu.I. Mogilnikh, L.G. Avdeeva, S.G. Zavaruhin, V.N. Korotkih, D.G. Kuvshinov, V.A. Liholobov.
Title: Method of the carbon material and hydrogen production.
Number: 95102674
Country: Russia
Priority of invention: 28.02.1995
Patentee Boreskov Institute of Catalysis, Novosibirsk city, Russia.