Writers
Data Analysts
Consultants
Product Developers
Researchers
Why Kolabtree
Getting started is quick and easy. No upfront fees
It’s free to request a service and invite bids from experts
Discuss requirements with the expert in detail before accepting statement of work from Kolabtree
Collaborate with the expert directly to get your work done the right way
Fund project when you hire the expert, but approve the deliverables only once work is done
Want to hire this expert for a project? Request a quote for free.
Profile Details
Create Project
★★★★★
☆☆☆☆☆
USD 50 /hr
Hire Oleg N.
United Kingdom
USD 50 /hr

Physics, chemical physics, experimental instrumentation in wide range - from nano- to giga.

Profile Summary
Subject Matter Expertise
Services
Research Fact Checking, Gray Literature Search, Systematic Literature Review, Secondary Data Collection
Consulting Scientific and Technical Consulting
Product Development Formulation
Work Experience

Co-Researcher/Research Assistant

The University of Edinburgh

August 2015 - Present

Research Assistant

University of Edinburgh

September 2007 - Present

Junior researcher, Researcher, Senior Researcher

Institute of Thermophysics, Novosibirsk, Russia

August 1982 - August 2007

Scientific researchers

University of Gothenburg

May 2000 - June 2007

Education

PhD

Institute of Thermophysics

August 1982 - 1995

MSc (Physics)

Novosibirskij gosudarstvennyj universitet

September 1977 - June 1982

Certifications
  • Certification details not provided.
Publications
JOURNAL ARTICLE
Iain J. Prentice, Xiaojiao Liu, Oleg A. Nerushev, Sashi Balakrishnan, Colin R. Pulham, Philip J. Camp(2020). Experimental and simulation study of the high-pressure behavior of squalane and poly-α-olefins . The Journal of Chemical Physics. 152. (7). p. 074504. {AIP} Publishing
Goodfriend, N. T., Starinskiy, S. V., Nerushev, O. A., Bulgakova, N. M., Bulgakov, A. V., Campbell, E. E. B.(2016). Laser pulse duration dependence of blister formation on back-radiated Ti thin films for BB-LIFT . Applied Physics a-Materials Science & Processing. 122. (3).
Nerushev, O. A., Ek-Weis, J., Campbell, E. E. B.(2015). In situ studies of growth of carbon nanotubes on a local metal microheater . Nanotechnology. 26. (50).
Bulgakov, A. V., Goodfriend, N., Nerushev, O., Bulgakova, N. M., Starinskiy, S. V., Shukhov, Y. G., Campbell, E. E. B.(2014). Laser-induced transfer of nanoparticles for gas-phase analysis . Journal of the Optical Society of America B-Optical Physics. 31. (11). p. C15-C21.
Rybtsov, S., Batsivari, A., Bilotkach, K., Paruzina, D., Senserrich, J., Nerushev, O., Medvinsky, A.(2014). Tracing the Origin of the HSC Hierarchy Reveals an SCF-Dependent, IL-3-Independent CD43(-) Embryonic Precursor . Stem Cell Reports. 3. (3). p. 489-501.
Ek-Weis, J., Nerushev, O. A., Campbell, E. E. B.(2012). Optical in situ characterisation of carbon nanotube growth . International Journal of Nanotechnology. 9. (1-2). p. 3-17.
Smovzh, D. V., Nerushev, O. A., Koverznev, M. P., Belikov, A. E., Novopashin, S. A., Sakhapov, S. Z., Zamchii, A. O., Zaikovskii, A. V.(2012). Investigation of products of thermal methane conversion in hydrocarbon mixtures by mass spectrometry . Journal of Engineering Thermophysics. 21. (2). p. 131-135.
Lindahl, Niklas, Midtvedt, Daniel, Svensson, Johannes, Nerushev, Oleg A., Lindvall, Niclas, Isacsson, Andreas, Campbell, Eleanor E. B.(2012). Determination of the Bending Rigidity of Graphene via Electrostatic Actuation of Buckled Membranes . Nano Letters. 12. (7). p. 3526-3531.
Svensson, J., Lindahl, N., Yun, H., Seo, M., Midtvedt, D., Tarakanov, Y., Lindvall, N., Nerushev, O., Kinaret, J., Lee, S., et al.(2011). Carbon Nanotube Field Effect Transistors with Suspended Graphene Gates . Nano Letters. 11. (9). p. 3569-3575.
Angelikopoulos, P., Gromoy, A., Leen, A., Nerushev, O., Bock, H., Campbell, E. E. B.(2010). Dispersing Individual Single-Wall Carbon Nanotubes in Aqueous Surfactant Solutions below the cmc . Journal of Physical Chemistry C. 114. (1). p. 2-9.
Smovzh, D. V., Maltsev, V. A., Dittmer, S., Zaikovsky, V. I., Campbell, E. E. B., Nerushev, O. A.(2010). In-situ Bulk Electrophoretic Separation of Single-Walled Carbon Nanotubes Grown by Gas-Phase Catalytic Hydrocarbon Decomposition . Chemical Vapor Deposition. 16. (7-9). p. 225-230.
Dittmer, S., Ek-Weis, J., Nerushev, O. A., Campbell, E. E. B.(2010). Growth of Aligned MWNT Arrays Using a Micrometer Scale Local-Heater at Low Ambient Temperature . Journal of Nanoscience and Nanotechnology. 10. (6). p. 4015-4022.
Belikov, A. E., Mal'tsev, V. A., Nerushev, O. A., Novopashin, S. A., Sakhapov, S. Z., Smovzh, D. V.(2010). Methane Conversion into Hydrogen and Carbon Nanostructures . Journal of Engineering Thermophysics. 19. (1). p. 23-30.
Belikov, A. E., Zaikovsky, A. V., Mal'tsev, V. A., Nerushev, O. A., Novopashin, S. A., Pakharukova, V. P., Snytnikov, P. V., Sakhapov, C. Z., Smovzh, D. V.(2009). The properties of carbon-carbonic condensate synthesized in the plasma arc . Thermophysics and Aeromechanics. 16. (4). p. 647-650.
Campbell, E. E. B., Nerushev, O. A., Ek-Weis, J., Olofsson, N.(2009). Growth and nanoelectromechanical properties of vertically aligned multiwalled nanotube arrays. Abstracts of Papers of the American Chemical Society. 238.
Nerushev, O. A., Novopashin, S. A., Smovzh, D. V.(2009). Size distribution function for iron clusters formed during the synthesis of carbon nanotubes by Fe(CO)(5) decomposition . Technical Physics Letters. 35. (3). p. 203-206.
DITTMER, S, MUDGAL, S, NERUSHEV, OA, et al.(2008). Local heating method for growth of aligned carbon nanotubes at low ambient temperature. LOW TEMPERATURE PHYSICS. 34. (10). p. 834-837.
DITTMER, S, OLOFSSON, N, WEIS, JE, et al.(2008). In situ Raman studies of single-walled carbon nanotubes grown by local catalyst heating . CHEMICAL PHYSICS LETTERS. 457. (1-3). p. 206-210.
JONSSON, M, NERUSHEV, OA, CAMPBELL, EEB(2007). Dc plasma-enhanced chemical vapour deposition growth of carbon nanotubes and nanofibres: in situ spectroscopy and plasma current dependence . APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING. 88. (2). p. 261-267.
MATTSSON, M, GROMOV, A, DITTMER, S, et al.(2007). Dielectrophoresis-induced separation of metallic and semiconducting single-wall carbon nanotubes in a continuous flow microfluidic system . JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY. 7. (10). p. 3431-3435.
JONSSON, M, NERUSHEV, OA, CAMPBELL, EEB(2007). In situ growth rate measurements during plasma-enhanced chemical vapour deposition of vertically aligned multiwall carbon nanotube films . NANOTECHNOLOGY. 18. (30).
YAO, Y, FALK, LKL, MORJAN, RE, et al.(2007). Nucleation and aligned growth of multi-wall carbon nanotube films during thermal CVD . CARBON. 45. (10). p. 2065-2071.
SVENSSON, J, BULGAKOVA, NM, NERUSHEV, OA, et al.(2006). Marangoni effect in SiO2 during field-directed chemical vapor deposition growth of carbon nanotubes . PHYSICAL REVIEW B. 73. (20).
SVENSSON, J, BULGAKOVA, NM, NERUSHEV, OA, et al.(2006). Field emission induced deformations in SiO2 during CVD growth of carbon nanotubes . PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS. 243. (13). p. 3524-3527.
KABIR, MS, MORJAN, RE, NERUSHEV, OA, et al.(2006). Fabrication of individual vertically aligned carbon nanofibres on metal substrates from prefabricated catalyst dots . NANOTECHNOLOGY. 17. (3). p. 790-794.
DITTMER, S, NERUSHEV, OA, CAMPBELL, EEB(2006). Low ambient temperature CVD growth of carbon nanotubes . APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING. 84. (3). p. 243-246.
YAO, Y, FALK, LKL, MORJAN, RE, et al.(2005). Cross-sectional TEM investigation of nickel-catalysed carbon nanotube films grown by plasma-enhanced CVD. JOURNAL OF MICROSCOPY-OXFORD. 219. p. 69-75.
KABIR, MS, MORJAN, RE, NERUSHEV, OA, et al.(2005). Plasma-enhanced chemical vapour deposition growth of carbon nanotubes on different metal underlayers. NANOTECHNOLOGY. 16. (4). p. 458-466.
GROMOV, A, DITTMER, S, SVENSSON, J, et al.(2005). Covalent amino-functionalisation of single-wall carbon nanotubes . JOURNAL OF MATERIALS CHEMISTRY. 15. (32). p. 3334-3339.
MORJAN, RE, MALTSEV, V, NERUSHEV, O, YAO, Y, FALK, LKL, CAMPBELL, EEB(2004). High growth rates and wall decoration of carbon nanotubes grown by plasma-enhanced chemical vapour deposition . CHEMICAL PHYSICS LETTERS. 383. (3-4). p. 385-390.
MORJAN, RE, NERUSHEV, OA, SVENINGSSON, M, et al.(2004). Growth of carbon nanotubes from C-60 . APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING. 78. (3). p. 253-261.
SVENINGSSON, M, MORJAN, RE, NERUSHEV, OA, et al.(2004). Highly efficient electron field emission from decorated multiwalled carbon nanotube films . APPLIED PHYSICS LETTERS. 85. (19). p. 4487-4489.
MALTSEV, VA, NERUSHEV, OA, NOVOPASHIN, SA, et al.(2004). Magic light source based on 3-D stratified glow discharge. LIGHT SOURCES 2004. (182). p. 353-354.
LEE, SW, LEE, DS, MORJAN, RE, et al.(2004). A three-terminal carbon nanorelay . NANO LETTERS. 4. (10). p. 2027-2030.
MORJAN, RE, KABIR, MS, LEE, SW, et al.(2004). Selective growth of individual multiwalled carbon nanotubes . CURRENT APPLIED PHYSICS. 4. (6). p. 591-594.
YAO, Y, FALK, LKL, MORJAN, RE, et al.(2004). Synthesis of carbon nanotube films by thermal CVD in the presence of supported catalyst particles. Part I: The silicon substrate/nanotube film interface. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS. 15. (8). p. 533-543.
YAO, Y, FALK, LKL, MORJAN, RE, et al.(2004). Synthesis of carbon nanotube films by thermal CVD in the presence of supported catalyst particles. Part II: the nanotube film. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS. 15. (9). p. 583-594.
NERUSHEV, OA, NOVOPASHIN, SA, RADCHENKO, VV, et al.(2004). The role of diffusion current in the formation of spherical striations. TECHNICAL PHYSICS LETTERS. 30. (2). p. 106-108.
MAL'TSEV, VA, NERUSHEV, OA, NOVOPASHIN, SA, et al.(2004). Viscosity of H-2-CO2 mixtures at (500, 800, and 1100) K . JOURNAL OF CHEMICAL AND ENGINEERING DATA. 49. (3). p. 684-687.
SVENINGSSON, M, MORIAN, RE, NERUSHEV, O, CAMPBELL, EEB(2004). Electron field emission from multi-walled carbon nanotubes . CARBON. 42. (5-6). p. 1165-1168.
NERUSHEV, OA, NOVOPASHIN, SA, RADCHENKO, VV, et al.(2003). Glow intensity profile in a spherically stratified gas discharge. PLASMA PHYSICS REPORTS. 29. (9). p. 796-801.
NERUSHEV, OA, DITTMAR, S, MORJAN, RE, et al.(2003). Particle size dependence and model for iron-catalyzed growth of carbon nanotubes by thermal chemical vapor deposition . JOURNAL OF APPLIED PHYSICS. 93. (7). p. 4185-4190.
SVENINGSSON, M, JONSSON, M, NERUSHEV, OA, et al.(2002). Blackbody radiation from resistively heated multiwalled carbon nanotubes during field emission . APPLIED PHYSICS LETTERS. 81. (6). p. 1095-1097.
NERUSHEV, OA, MORJAN, RE, OSTROVSKII, DI, et al.(2002). The temperature dependence of Fe-catalysed growth of carbon nanotubes on silicon substrates. PHYSICA B-CONDENSED MATTER. 323. (1-4). p. 51-59.
SVENINGSSON, M, MORJAN, RE, NERUSHEV, OA, et al.(2001). Raman spectroscopy and field-emission properties of CVD-grown carbon-nanotube films. APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING. 73. (4). p. 409-418.
NERUSHEV, OA, NOVOPASHIN, SA, RADCHENKO, VV, et al.(2001). The spherical stratification of discharge in high-molecular-mass gases. TECHNICAL PHYSICS LETTERS. 27. (2). p. 118-120.
NERUSHEV, OA, SVENINGSSON, M, FALK, LKL, et al.(2001). Carbon nanotube films obtained by thermal chemical vapour deposition. JOURNAL OF MATERIALS CHEMISTRY. 11. (4). p. 1122-1132.
NERUSHEV, OA, NOVOPASHIN, SA, RADCHENKO, VV, et al.(2000). Properties of a spherical stratified gas discharge. PLASMA PHYSICS REPORTS. 26. (1). p. 78-83.
ABORNEV, EM, ZHUKOVSKAYA, VP, NERUSHEV, OA, et al.(1998). Electron-stimulated condensation of carbon dioxide at a electronegative impurity. TECHNICAL PHYSICS LETTERS. 24. (1). p. 10-11.
GORSHKOV, BN, NERUSHEV, OA, NOVOPASHIN, SA(1998). Photoluminescence of fullerenes C-60 and C-70 in gas phase. ASIAN JOURNAL OF SPECTROSCOPY. 2. (1). p. 31-34.
NERUSHEV, OA, NOVOPASHIN, SA, RADCHENKO, VV, et al.(1998). Spherical stratification of a glow discharge. PHYSICAL REVIEW E. 58. (4). p. 4897-4902.
NERUSHEV, OA, SUKHININ, GI(1997). Kinetics of fullerene formation during electroarch evaporation of graphite. ZHURNAL TEKHNICHESKOI FIZIKI. 67. (2). p. 41-49.
NERUSHEV, OA, NOVOPASHIN, SA(1997). Rotational relaxation and transition to turbulence. PHYSICS LETTERS A. 232. (3-4). p. 243-246.
NERUSHEV, OA, NOVOPASHIN, SA, RADCHENKO, VV, et al.(1997). Spherical striations in a glow discharge. JETP LETTERS. 66. (11). p. 711-714.
ABORNEV, EM, NERUSHEV, OA, NOVOPASHIN, SA, et al.(1996). Argon condensation behind the sonic nozzle and membrane. PISMA V ZHURNAL TEKHNICHESKOI FIZIKI. 22. (21). p. 84-87.
NERUSHEV, OA, NOVOPASHIN, SA(1996). Rotation of molecules and the transition to turbulence. JETP LETTERS. 64. (1). p. 47-50.
NERUSHEV, OA, SUKHININ, GI(1995). Dynamics of carbon clusters during fullerene preparation. PISMA V ZHURNAL TEKHNICHESKOI FIZIKI. 21. (13). p. 50-54.
NERUSHEV, OA, NOVOPASHIN, SA, PEREPELKIN, AL(1995). QUADRUPOLAR LIGHT-SCATTERING BY FULLERENE. CHEMICAL PHYSICS LETTERS. 234. (1-3). p. 265-268.
NERUSHEV, OA, NOVOPASHIN, SA(1994). MEASUREMENT OF MOLECULAR POLARIZABILITY BY RAYLEIGH-SCATTERING. INSTRUMENTS AND EXPERIMENTAL TECHNIQUES. 37. (2). p. 247-249.
MALTSEV, VA, NERUSHEV, OA, NOVOPASHIN, SA, et al.(1993). POLARIZABILITY OF FULLERENES. JETP LETTERS. 57. (10). p. 653-657.
BULGAKOVA, NM, KHRAMOV, GA, NERUSHEV, OA, et al.(1993). STUDY OF A DIFFUSION PUMP EJECTOR. VACUUM. 44. (5-7). p. 749-752.
MALTSEV, VA, NERUSHEV, OA, NOVOPASHIN, SA, et al.(1993). ANOMALOUS POLARIZABILITY OF FULLERENE. CHEMICAL PHYSICS LETTERS. 212. (5). p. 480-482.
NERUSHEV, OA, KHRAMOV, GA, YARYGIN, VN(1987). SOURCE OF HIGH-ENTHALPY JETS OF LIQUID VAPORS, GASES, AND THEIR MIXTURES. INSTRUMENTS AND EXPERIMENTAL TECHNIQUES. 30. (4). p. 980-982.
Laser pulse duration dependence of blister formation on back-radiated Ti thin films for BB-LIFT . APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING.
Investigation of products of thermal methane conversion in hydrocarbon mixtures by mass spectrometry . JOURNAL OF ENGINEERING THERMOPHYSICS.
Laser-induced transfer of nanoparticles for gas-phase analysis . JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS.
Optical in situ characterisation of carbon nanotube growth . INTERNATIONAL JOURNAL OF NANOTECHNOLOGY.
Tracing the Origin of the HSC Hierarchy Reveals an SCF-Dependent, IL-3-Independent CD43(-) Embryonic Precursor . STEM CELL REPORTS.
In situ studies of growth of carbon nanotubes on a local metal microheater . NANOTECHNOLOGY.
BOOK CHAPTER
SVENINGSSON, M, MORJAN, R, NERUSHEV, O, SVENSSON, K, OLSSON, E, CAMPBELL, EEB(2003). Electron field emission from multiwalled nanotubes. FULLERENES AND NANOTUBES: THE BUILDING BLOCKS OF NEXT GENERATION NANODEVICES. 2003. p. 340-345.
SVENINGSSON, M, JONSSON, M, NERUSHEV, O, ROHMUND, F, CAMPBELL, EEB(2002). Field emission from multiwalled carbon nanotubes. STRUCTURAL AND ELECTRONIC PROPERTIES OF MOLECULAR NANOSTRUCTURES. 633. p. 548-551.
ROHMUND, F, GROMOV, A, MORJAN, RE, NERUSHEV, O, SATO, Y, SVENINGSSON, M, CAMPBELL, EEB(2001). Production and derivatisation of carbon nanotubes. ELECTRONIC PROPERTIES OF MOLECULAR NANOSTRUCTURES. 591. p. 167-170.
BOOK
MORJAN, RE, MALTSEV, V, GROMOV, A, NERUSHEV, OA, CAMPBELL, EEB, KAMAT, PV, GULDI, DM, DSOUZA, F(2003). Vertically aligned carbon nanotubes synthesized by direct current plasma chemical vapour deposition. Fullerenes and Nanotubes: the Building Blocks of Next Generation Nanodevices. 2003. (15). p. 371-374.
MORJAN, RE, NERUSHEV, OA, SVENINGSSON, M, FALK, LKL, ROHMUND, F, CAMPBELL, EEB, KUZMANY, H, FINK, J, MEHRING, M, ROTH, S(2002). Parametric study of nanotube growth from C2H2 and C-60 on supported iron catalyst particles. Structural and Electronic Properties of Molecular Nanostructures. 633. p. 186-189.
ROHMUND, F, NERUSHEV, OA, SVENINGSSON, M, CAMPBELL, EEB, LARSSON, M(2001). Iron particle catalysed CVD growth of carbon nanotubes. Physics and Chemistry of Clusters. 117. p. 303-306.
NERUSHEV, OA, NOVOPASHIN, SA, PEREPELKIN, AL, OWEN, FK(1997). Rayleigh light scattering as a pulse local probing of non-equilibrium gas flows. Iciasf '97 Record - International Congress on Instrumentation in Aerospace Simulation Facilities. p. 336-342.
ABORNEV, EM, NERUSHEV, OA, KHRAMOV, GA, YARYGIN, VN, BEYLICH, AE(1991). APPLICATION OF H2O VAPORS AS A WORKING MEDIUM IN HIGH-VACUUM DIFFUSION PUMPS. Rarefied Gas Dynamics. p. 1576-1580.