Grishenkov Dmitry
Grishenkov Dmitry
Royal Institute of Technology, KTH and Karolinska Institutet Division of Medical Imaging and
Verified email at - Homepage
Cited by
Cited by
Magnetite nanoparticles can be coupled to microbubbles to support multimodal imaging
TB Brismar, D Grishenkov, B Gustafsson, J Härmark, Barrefelt, ...
Biomacromolecules 13 (5), 1390-1399, 2012
Characterization of acoustic properties of PVA-shelled ultrasound contrast agents: linear properties (part I)
D Grishenkov, C Pecorari, TB Brismar, G Paradossi
Ultrasound in medicine & biology 35 (7), 1127-1138, 2009
Biodistribution, kinetics, and biological fate of SPION microbubbles in the rat
Barrefelt, M Saghafian, R Kuiper, F Ye, G Egri, M Klickermann, ...
International journal of nanomedicine, 3241-3254, 2013
Graphene meets microbubbles: A superior contrast agent for photoacoustic imaging
Y Toumia, F Domenici, S Orlanducci, F Mura, D Grishenkov, P Trochet, ...
ACS applied materials & interfaces 8 (25), 16465-16475, 2016
On the interplay of shell structure with low-and high-frequency mechanics of multifunctional magnetic microbubbles
M Poehlmann, D Grishenkov, SVVN Kothapalli, J Hrmark, H Hebert, ...
Soft Matter 10 (1), 214-226, 2014
Review on acoustic droplet vaporization in ultrasound diagnostics and therapeutics
K Loskutova, D Grishenkov, M Ghorbani
BioMed research international 2019 (1), 9480193, 2019
In vitro contrast-enhanced ultrasound measurements of capillary microcirculation: comparison between polymer-and phospholipid-shelled microbubbles
D Grishenkov, L Kari, L Brodin, TB Brismar, G Paradossi
Ultrasonics 51 (1), 40-48, 2011
MicroBubble activated acoustic cell sorting
MA Faridi, H Ramachandraiah, I Iranmanesh, D Grishenkov, M Wiklund, ...
Biomedical microdevices 19, 1-7, 2017
Characterization of acoustic properties of PVA-shelled ultrasound contrast agents: ultrasound-induced fracture (part II)
D Grishenkov, C Pecorari, TB Brismar, G Paradossi
Ultrasound in medicine & biology 35 (7), 1139-1147, 2009
Intensifying cavitating flows in microfluidic devices with poly (vinyl alcohol)(PVA) microbubbles
M Ghorbani, H Chen, LG Villanueva, D Grishenkov, A Koşar
Physics of Fluids 30 (10), 2018
Facile hydrodynamic cavitation ON CHIP via cellulose nanofibers stabilized perfluorodroplets inside layer-by-layer assembled SLIPS surfaces
M Ghorbani, AS Aghdam, MT Gevari, A Koşar, F Cebeci, D Grishenkov, ...
Chemical Engineering Journal 382, 122809, 2020
Acoustic characterization and contrast imaging of microbubbles encapsulated by polymeric shells coated or filled with magnetic nanoparticles
C Sciallero, D Grishenkov, SVVN Kothapalli, L Oddo, A Trucco
The Journal of the Acoustical Society of America 134 (5), 3918-3930, 2013
Investigation of polymer-shelled microbubble motions in acoustophoresis
SVVN Kothapalli, M Wiklund, B Janerot-Sjoberg, G Paradossi, ...
Ultrasonics 70, 275-283, 2016
Energy harvesting with micro scale hydrodynamic cavitation-thermoelectric generation coupling
MT Gevari, M Ghorbani, AJ Svagan, D Grishenkov, A Kosar
Aip Advances 9 (10), 2019
Ultrasound contrast agent loaded with nitric oxide as a theranostic microdevice
D Grishenkov, A Gonon, E Weitzberg, JO Lundberg, J Harmark, B Cerroni, ...
Drug design, development and therapy, 2409-2419, 2015
A general strategy for obtaining biodegradable polymer shelled microbubbles as theranostic devices
S Capece, E Chiessi, R Cavalli, P Giustetto, D Grishenkov, G Paradossi
Chemical Communications 49 (51), 5763-5765, 2013
Ultrasound contrast agents: Targeting and processing methods for theranostics
G Paradossi, P Pellegretti, A Trucco
Springer Science & Business Media, 2010
Characterization of ultrasound-induced fracture of polymer-shelled ultrasonic contrast agents by correlation analysis
C Pecorari, D Grishenkov
The Journal of the Acoustical Society of America 122 (4), 2425-2430, 2007
Unravelling the acoustic and thermal responses of perfluorocarbon liquid droplets stabilized with cellulose nanofibers
M Ghorbani, K Olofsson, JW Benjamins, K Loskutova, T Paulraj, ...
Langmuir 35 (40), 13090-13099, 2019
Design and fabrication of a vigorous “cavitation-on-a-chip” device with a multiple microchannel configuration
F Rokhsar Talabazar, M Jafarpour, M Zuvin, H Chen, MT Gevari, ...
Microsystems & Nanoengineering 7 (1), 44, 2021
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