Thermal conductivity of diamond composites SV Kidalov, FM Shakhov Materials 2 (4), 2467-2495, 2009 | 324 | 2009 |
High thermal conductivity composites consisting of diamond filler with tungsten coating and copper (silver) matrix AM Abyzov, SV Kidalov, FM Shakhov Journal of materials science 46, 1424-1438, 2011 | 220 | 2011 |
High thermal conductivity composite of diamond particles with tungsten coating in a copper matrix for heat sink application AM Abyzov, SV Kidalov, FM Shakhov Applied Thermal Engineering 48, 72-80, 2012 | 203 | 2012 |
Rehybridization of carbon on facets of detonation diamond nanocrystals and forming hydrosols of individual particles AT Dideikin, AE Aleksenskii, MV Baidakova, PN Brunkov, ... Carbon 122, 737-745, 2017 | 111 | 2017 |
Thermal conductivity of sintered nanodiamonds and microdiamonds SV Kidalov, FM Shakhov, AY Vul Diamond and Related Materials 17 (4-5), 844-847, 2008 | 97 | 2008 |
Enormously high concentrations of fluorescent nitrogen-vacancy centers fabricated by sintering of detonation nanodiamonds PG Baranov, AA Soltamova, DO Tolmachev, NG Romanov, RA Babunts, ... Small (Weinheim an der Bergstrasse, Germany) 7 (11), 1533-1537, 2011 | 92 | 2011 |
Thermal conductivity of nanocomposites based on diamonds and nanodiamonds SV Kidalov, FM Shakhov, AY Vul Diamond and related materials 16 (12), 2063-2066, 2007 | 80 | 2007 |
Fullerenes as a co-catalyst for high pressure–high temperature synthesis of diamonds VM Davidenko, SV Kidalov, FM Shakhov, MA Yagovkina, VA Yashin, ... Diamond and related materials 13 (11-12), 2203-2206, 2004 | 52 | 2004 |
Grain-boundary heat conductance in nanodiamond composites SV Kidalov, FM Shakhov, AY Vul, AN Ozerin Diamond and related materials 19 (7-9), 976-980, 2010 | 47 | 2010 |
New way of synthesis of few-layer graphene nanosheets by the self propagating high-temperature synthesis method from biopolymers A Voznyakovskii, A Vozniakovskii, S Kidalov Nanomaterials 12 (4), 657, 2022 | 42 | 2022 |
Structure and paramagnetic properties of graphene nanoplatelets prepared from biopolymers using self-propagating high-temperature synthesis AA Vozniakovskii, AP Voznyakovskii, SV Kidalov, VY Osipov Journal of Structural Chemistry 61, 826-834, 2020 | 37 | 2020 |
Fullerenes catalyze the graphite-diamond phase transition AY Vul’, VM Davidenko, SV Kidalov, SS Ordan’yan, VA Yashin Technical Physics Letters 27, 384-386, 2001 | 36 | 2001 |
Boron-doped diamond synthesized at high-pressure and high-temperature with metal catalyst FM Shakhov, AM Abyzov, SV Kidalov, AA Krasilin, E Lähderanta, ... Journal of Physics and Chemistry of Solids 103, 224-237, 2017 | 35 | 2017 |
Filler-matrix thermal boundary resistance of diamond-copper composite with high thermal conductivity AM Abyzov, SV Kidalov, FM Shakhov Physics of the Solid State 54, 210-215, 2012 | 32 | 2012 |
Detection and identification of nitrogen defects in nanodiamond as studied by EPR AA Soltamova, IV Ilyin, PG Baranov, AY Vul, SV Kidalov, FM Shakhov, ... Physica B: Condensed Matter 404 (23-24), 4518-4521, 2009 | 31 | 2009 |
Characteristics and mechanical properties of composites based on nitrile butadiene rubber using graphene nanoplatelets AA Vozniakovskii, AP Vozniakovskii, SV Kidalov, J Otvalko, ... Journal of Composite Materials 54 (23), 3351-3364, 2020 | 30 | 2020 |
New efficient low-pressure gas-discharge source of optical radiation using hydroxyl OH AY Vul’, SV Kidalov, VM Milenin, NA Timofeev, MA Khodorkovskii Technical Physics Letters 25, 4-6, 1999 | 30* | 1999 |
Electron spin resonance detection and identification of nitrogen centers in nanodiamonds PG Baranov, IV Il’in, AA Soltamova, AY Vul’, SV Kidalov, FM Shakhov, ... JETP letters 89, 409-413, 2009 | 29 | 2009 |
A quantitative chemical method for determining the surface concentration of stone–wales defects for 1D and 2D carbon nanomaterials A Voznyakovskii, A Neverovskaya, A Vozniakovskii, S Kidalov Nanomaterials 12 (5), 883, 2022 | 28 | 2022 |
Carbon nanomaterials based on plant biopolymers as radionuclides sorbent A Vozniakovskii, S Kidalov, A Vozniakovskii, A Karmanov, L Kocheva, ... Fullerenes, Nanotubes and Carbon Nanostructures 28 (3), 238-241, 2020 | 28 | 2020 |