default search action
Oleg Gradov
Person information
- affiliation: Semenov Institute of Chemical Physics, Moscow, Russia
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
2020 – today
- 2020
- [d103]Vladimir Gorshenev, Margaret Gradova, Oleg Gradov:
HAP-PHB samples: films and powders. IEEE DataPort, 2020 - [d102]Oleg Gradov:
Fern stem: detection of radial and circular pecularities using FFTW-based software. IEEE DataPort, 2020 - [d101]Oleg Gradov:
Cusurbits stem: detection of radial and circular pecularities using FFTW-based software. IEEE DataPort, 2020 - [d100]Oleg Gradov:
Tilia stem: detection of radial and circular pecularities using FFTW-based software. IEEE DataPort, 2020 - [d99]Oleg Gradov:
Honeysuckle flower: multiscale nervature detection using FFTW-based sofytware. IEEE DataPort, 2020 - [d98]Oleg Gradov:
Broad bean leaf epidermis: spectrozonal and multi-angle lens-less imaging and image processing. IEEE DataPort, 2020 - [d97]Oleg Gradov:
Epidermis of allium: FFTW-based regulometry case. IEEE DataPort, 2020 - [d96]Oleg Gradov:
Oral mucosa: digital photometric lens-less spectrozonal transmittance testing of thin slices or ultrathin histological sections. IEEE DataPort, 2020 - [d95]Oleg Gradov:
Volvox sp. (Volvox L., 1758) Pfeffer's osmometry: FFTW-based LUCAS-like real time approach. IEEE DataPort, 2020 - [d94]Oleg Gradov:
Simple Squamous Epethelium: Towards Reqularity Estimation using Lens-Less Microscopy? IEEE DataPort, 2020 - [d93]Oleg Gradov:
Towards the connectome-like structure formation in composite polymeric iCHELL-like assemblies (micrographs before 2010). Examples for self-organizing maps applicabilities. IEEE DataPort, 2020 - [d92]Oleg Gradov:
Filopodial rheology modeling using synthetic elastomers. Case of the form made from the monomer (CH2=C(CH3)2) via cationic addition polymerization. IEEE DataPort, 2020 - [d91]Oleg Gradov:
Towards FLIP-like techniques in SEM (including Zigmondi "ultramicroscopic" method implementation using CRT scanning visualization). IEEE DataPort, 2020 - [d90]Oleg Gradov, Margaret Gradova, Andrew I. Sergeev, Yuriy K. Naganovskiy:
Multiresolution electron microscopic, thermogravimetric and NMR relaxometric measurements of the solid state RNA and it's salts. IEEE DataPort, 2020 - [d89]Oleg Gradov, Valery Kalinichenko, Alexander Maltsev:
The "metamery" of carbon nanostructures: from single flakes to stakes and rouleaux phenomena. IEEE DataPort, 2020 - [d88]Oleg Gradov, Irene Maclackova:
Towards the multi-layer and sandwitch converting microfluidics based on artificial leather (artificial skin) composite materials. IEEE DataPort, 2020 - [d87]Oleg Gradov, Irene Maclackova:
Wave-like phenomena and varicose instability detection in acrylonitrile butadiene rubbers. IEEE DataPort, 2020 - [d86]Oleg Gradov, Irene Maclackova:
Towards the machine learning assisted porometry and porosimetry using ESPI software for speckle topology identification. IEEE DataPort, 2020 - [d85]Oleg Gradov, Irene Maclackova:
SEM of fission bubbles with submicropores. IEEE DataPort, 2020 - [d84]Oleg Gradov, Irene Maclackova, Paul Alexandrow:
Technical calibrating images for software laser-diffractometric porometry or porosimetry (JEOL, CRIFAL). IEEE DataPort, 2020 - [d83]Oleg Gradov, Irene Maclackova, Paul Alexandrow:
Thread-based microfluidics under the electron microscope, including ESEM mode: from programmable microstructures to complex functions. Examples for detection of microbuckling, kinking, swelling, turbulence effects etc. using KSA and other techniques. 2. IEEE DataPort, 2020 - [d82]Oleg Gradov, Irene Maclackova, Paul Alexandrow:
Thread-based microfluidics under the electron microscope, including ESEM mode: from programmable microstructures to complex functions. Examples for detection of microbuckling, kinking, swelling, turbulence effects etc. using KSA and other techniques. 1. IEEE DataPort, 2020 - [d81]Oleg Gradov, Irene Maclackova, Paul Alexandrow:
Between fractography and swellography of polymer materials: wave-like phenomena detection using machine learning based on TEM photomicrograph (x 30 000). Example for DST linear styrene-butadiene thermoplastic elastomers. IEEE DataPort, 2020 - [d80]Oleg Gradov, Irene Maclackova, Paul Alexandrow:
Towards wavelet-assisted EM porosimetry. IEEE DataPort, 2020 - [d79]Oleg Gradov, Irene Maclackova, Paul Alexandrow, Margaret Gradova:
Microspheres and coacervates or foams and other high-porosity structures? Model examples of old negative and positive EM scanograms for machine learning. IEEE DataPort, 2020 - [d78]Oleg Gradov, Anna Ratnovskaya:
Laser-assisted multi-angle DIC microscopy of red blood cells. IEEE DataPort, 2020 - [d77]Anatoly Hwatow, Margaret Gradova, Oleg Gradov, Sergey Lomakin:
PLA and PLA+cellulose containing dropelets. IEEE DataPort, 2020 - [d76]Alexey Iordanskii, Margaret Gradova, Oleg Gradov:
PHB-PLA samples: effect of different proportions and conditions. Preliminary raw supplement data. IEEE DataPort, 2020 - [d75]Svetlana Kholuiskaya, Margaret Gradova, Oleg Gradov, Alexey Iordanskii:
PHB + hydroxyethyl methacrylate (CAS 868-77-9, EINECS 212-782-2) [included hydrated and rolled substance samples]. IEEE DataPort, 2020 - [d74]Valentin V. Kochervinskii, Oleg Gradov, Viacheslav B. Morozov, Andrey N. Olenin, Dmitriy V. Yakovlev:
Laser ablation-like effects in segnetoelectric polymers. IEEE DataPort, 2020 - [d73]Valentin V. Kochervinskii, Anatoly Aleksandrovich Olkhov, Margaret Gradova, Irene Maklackova, Oleg Gradov:
PVDF-like segnetoelectric polymer based substances: PVDF MEC-DMF. Some differences between polymer pouring and slectrospinning / electroformation. IEEE DataPort, 2020 - [d72]Anatoly Aleksandrovich Olkhov, Alexey Iordanskii, Margaret Gradova, Irene Maklackova, Valentin V. Kochervinskii, Oleg Gradov:
PVDF-HFP 15%: from electrospinning / electroformation to nonwoven fabric materials. IEEE DataPort, 2020 - [d71]Ludmila S. Shibryaeva, Oleg Gradov:
PHB measurements with DPSSL and incoherent light sources. Experiment C. IEEE DataPort, 2020 - [d70]Ludmila S. Shibryaeva, Oleg Gradov:
PHB measurements with DPSSL and incoherent light sources. Experiment B. IEEE DataPort, 2020 - [d69]Ludmila S. Shibryaeva, Oleg Gradov:
PHB measurements with DPSSL and incoherent light sources. Experiment A. IEEE DataPort, 2020 - [d68]Ivetta Varian, Irene Maclackova, Oleg Gradov, Margaret Gradova:
Some morphological pecularities of the PE + natural rubber (latex [caucho or caoutchouc]) composites. IEEE DataPort, 2020
2010 – 2019
- 2019
- [d67]Paul Alexandrow, Margaret Gradova, Oleg Gradov:
SEM measurements of teeth of Elasmobranchs (Chondrichtyes, Elasmobranchii) [preliminary non-processed raw data]. IEEE DataPort, 2019 - [d66]Vladimir Gorshenev, Margaret Gradova, Oleg Gradov:
Hydroxyapatite and related samples for distinction between biomineralization and abiogenic mineral formation. IEEE DataPort, 2019 - [d65]Oleg Gradov:
Paramecium sp. culture on Daucus carota subsp. sativus in different pH cases. IEEE DataPort, 2019 - [d64]Oleg Gradov:
Lens-less microscopy of a mica plates (phyllosilicates) and similar structures. IEEE DataPort, 2019 - [d63]Oleg Gradov:
Гели СИН-40. IEEE DataPort, 2019 - [d62]Oleg Gradov:
ПОЛИЭТИЛЕН + МЕЛ. IEEE DataPort, 2019 - [d61]Oleg Gradov:
PLASTIC_X ON THE GLASS. IEEE DataPort, 2019 - [d60]Oleg Gradov:
ПИБ-200. IEEE DataPort, 2019 - [d59]Oleg Gradov:
ПИБ-200 + САЖА АЦЕТИЛЛЕНОВАЯ. IEEE DataPort, 2019 - [d58]Oleg Gradov:
ПИБ-200 СТЕКЛО Х 18200. IEEE DataPort, 2019 - [d57]Oleg Gradov:
ПИБ-200 СТЕКЛО Х 10400. IEEE DataPort, 2019 - [d56]Oleg Gradov:
ПВХ - АБС 7-3. IEEE DataPort, 2019 - [d55]Oleg Gradov:
ДСТ-30, 40, 50 ИСТ. IEEE DataPort, 2019 - [d54]Oleg Gradov:
ДСТ-30 [x 82 000]. IEEE DataPort, 2019 - [d53]Oleg Gradov:
ДСТ-30 С ВАЗЕЛИНОВЫМ МАСЛОМ ПОСЛЕ ОБРАБОТКИ ЧЕТЫРЁХОКИСЬЮ ОСМИЯ. IEEE DataPort, 2019 - [d52]Oleg Gradov:
ДСТ-30 ПОСЛЕ ОБРАБОТКИ ЧЕТЫРЕХОКИСЬЮ ОСМИЯ [X 39 000]. IEEE DataPort, 2019 - [d51]Oleg Gradov:
ДСТ-30 +ТРМ Х30000. IEEE DataPort, 2019 - [d50]Oleg Gradov:
ДСТ-30 + ПН-6 Х30000. IEEE DataPort, 2019 - [d49]Oleg Gradov:
Lens-less incoherent pseudo-color detector of anatomic holes. IEEE DataPort, 2019 - [d48]Oleg Gradov:
СПЛ II. IEEE DataPort, 2019 - [d47]Oleg Gradov:
СПЛ V. IEEE DataPort, 2019 - [d46]Oleg Gradov:
СПЛ (конц. дисперсия - генерация ансамблей). IEEE DataPort, 2019 - [d45]Oleg Gradov:
СПЛ - насыщенная дисперсия, принудительный контакт без агрегации. IEEE DataPort, 2019 - [d44]Oleg Gradov:
СПЛ-1. IEEE DataPort, 2019 - [d43]Oleg Gradov:
Дисперсия СПЛ и дисперсия отходов. IEEE DataPort, 2019 - [d42]Oleg Gradov:
НК + СКН 40 + САЖА. IEEE DataPort, 2019 - [d41]Oleg Gradov:
СКН-40-СКД 1-1. IEEE DataPort, 2019 - [d40]Oleg Gradov:
СКН-40 + ТЕРМИЧЕСКАЯ САЖА. IEEE DataPort, 2019 - [d39]Oleg Gradov:
СКН-40 + СКЭПТ-50 (70/50). IEEE DataPort, 2019 - [d38]Oleg Gradov:
СКН-40 + ПЕНОПОЛИУРЕТАН. IEEE DataPort, 2019 - [d37]Oleg Gradov:
СКН-18 [x 5050]. IEEE DataPort, 2019 - [d36]Oleg Gradov:
СКД-СКН-18 3/1. IEEE DataPort, 2019 - [d35]Oleg Gradov:
СКД - СКН-18 1-3 [x5050]. IEEE DataPort, 2019 - [d34]Oleg Gradov:
15 ПЭ + ПА. IEEE DataPort, 2019 - [d33]Oleg Gradov:
ПТХБ + СКД (7/3) Х 10 000. IEEE DataPort, 2019 - [d32]Oleg Gradov:
ПСТ - СКС 85 [8000Х]. IEEE DataPort, 2019 - [d31]Oleg Gradov:
ПС - ПММА. IEEE DataPort, 2019 - [d30]Oleg Gradov:
ПС + ПММА [x 10 400]. IEEE DataPort, 2019 - [d29]Oleg Gradov:
ПС-ПВХ, СМЕСЬ 20-80 ХБ. IEEE DataPort, 2019 - [d28]Oleg Gradov:
ПС-ПВХ СМЕСЬ 50-50 ИЗ ДХЭ. IEEE DataPort, 2019 - [d27]Oleg Gradov:
КОМПОЗИТНЫЕ ВОЛОКНА ПЭ ПЭТФ СРЕЗЫ. IEEE DataPort, 2019 - [d26]Oleg Gradov:
ПЭ + ПА + МЕЛ. IEEE DataPort, 2019 - [d25]Oleg Gradov:
ПЭ + ПА. IEEE DataPort, 2019 - [d24]Oleg Gradov, Paul Alexandrow, Margaret Gradova:
COLA mineral collection samples for on-line PC-assisted 2D diffractometry and correlation-spectral analysis. IEEE DataPort, 2019 - [d23]Oleg Gradov, Margaret Gradova:
The Saffman-Taylor instability (also known as viscous fingering) and reticulation in the sheet of plastic multilayer film base coated on one side with a gelatin emulsion. IEEE DataPort, 2019 - [d22]Oleg Gradov, Margaret Gradova:
Intrinsic quartz glass layer reticularization on the superhigh-pressure mercury vapor lamp surface. IEEE DataPort, 2019 - [d21]Oleg Gradov, Margaret Gradova:
The "LITTORAL" plate experiment. IEEE DataPort, 2019 - [d20]Margaret Gradova, Oleg Gradov:
"Four months later...": the morphology of fully dehydrated or crystallized mineral samples after microwave irradiation. IEEE DataPort, 2019 - [d19]Elena Aleksandrovna Grigorieva, Margaret Gradova, Oleg Gradov:
SEM measurements of biodegradable polymer / composite samples. IEEE DataPort, 2019 - [d18]Elena Aleksandrovna Grigorieva, Anatoliy Anatolevich Popov, Natalia Nikolaevna Kolesnikova, Anatoly Aleksandrovich Olkhov, Oleg Gradov:
DPSSL-microscopy of polymer compositions based on polyethylene [10803-020] and gas-generating agent hydrocerol. IEEE DataPort, 2019 - [d17]Alexander Notchenko, N. Endaltsev, Oleg Gradov:
Supplement to: Notchenko A., Endaltsev N., Gradov O. Novel FRAP techniques... Preprint, 2019. IEEE DataPort, 2019 - [d16]Alexander Notchenko, Oleg Gradov:
NGM software for applied neurogoniometry. IEEE DataPort, 2019 - [d15]Alexander Notchenko, Oleg Gradov:
"EFieldPlotter" Software for Morphometry-Assisted Neural Structure Mapping. IEEE DataPort, 2019 - 2018
- [d14]E. D. Adamovich, Oleg Gradov:
Teraohmmeter-assisted measurements of plant leaf resistance. 4. Accelerated photoinduced kinetics of electric impedance shifting under UV irradiation. IEEE DataPort, 2018 - [d13]E. D. Adamovich, Oleg Gradov:
Teraohmmeter-assisted measurements of plant leaf resistance. 3. Oscillations of plant leaf resistance / impedance. IEEE DataPort, 2018 - [d12]E. D. Adamovich, Oleg Gradov:
Teraohmmeter-assisted measurements of plant leaf resistance. 2. Kinetic registration of plant leaf resistance (10x time-lapse registration). IEEE DataPort, 2018 - [d11]E. D. Adamovich, Oleg Gradov:
Teraohmmeter-assisted measurements of plant leaf resistance. 1. Laborant work before the start of experiment with plant leafs in the Faraday cage. IEEE DataPort, 2018 - [d10]Oleg Gradov:
Spectroreflectometric dactiloscopy. IEEE DataPort, 2018 - [d9]Oleg Gradov, E. D. Adamovich:
Nanovoltampermeter-based bioacoustic carrier wave analyzer. IEEE DataPort, 2018 - [d8]Oleg Gradov, P. A. Nasirov:
Stroboscopic microspectroreflectometry of lens-less on-chip microscope PCB with CCD. IEEE DataPort, 2018 - [d7]Oleg Gradov, P. A. Nasirov:
Modified characteriograph-assisted testings of spectrozonal analog lab-on-a-chip under laser beams. IEEE DataPort, 2018 - [d6]Oleg Gradov, P. A. Nasirov:
LF-module-assisted analog lab-on-a-chip measurements with R- (650 nm), G- (532 nm), B- (405 nm) laser sources for analog lens-less microscopy setups. IEEE DataPort, 2018 - [d5]Oleg Gradov, P. A. Nasirov:
Testings of spectrozonal analog lab-on-a-chip with angle-sensitive pixels (ASP) using diode laser sources in combined nanosecond reflectometric and stroboscopic oscilloscopic measurements. IEEE DataPort, 2018 - [d4]Oleg Gradov, P. A. Nasirov:
Microfluidic Lab-on-a-dish (3D printing). IEEE DataPort, 2018 - [d3]Oleg Gradov, Anatoly Aleksandrovich Olkhov:
SEM-assisted (LVEM-assisted) isopotential mapping of the dielectric charging of the nonwoven fabric structures using Sobel-Feldman operator (Sobel filter). IEEE DataPort, 2018 - [d2]D. Shevchenko, Yu V. Zaytsev, Oleg Gradov:
Videomicroscopic Semi-Shadow Visualization of LoC-Si (Lab-on-a-Chip_[based_on]_Silicone) Test Structures using Binocular Stereoscopic Microscope and Indirect Angular Illumination Scheme (BSI-IAIS). IEEE DataPort, 2018 - [d1]Yu. V. Zhulanov, P. Yu. Makaveev, Oleg Gradov:
Towards the "Aerosol cytometry" and "Hydrosol cytometry" based on laser aerosol spectrometers. IEEE DataPort, 2018
Coauthor Index
aka: Irene Maclackova
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from , , and to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-06-19 20:56 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint