Gari Arutinov
Gari Arutinov
Researcher, Holst Centre
Dirección de correo verificada de tno.nl
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Capillary self-alignment of mesoscopic foil components for sensor-systems-in-foil
G Arutinov, ECP Smits, M Mastrangeli, G Van Heck, J van den Brand, ...
Journal of micromechanics and microengineering 22 (11), 115022, 2012
272012
Method and apparatus capable of transferring very high data rates across a midplane or backplane
JM Schriel, MR Megarity
US Patent 7,327,725, 2008
212008
In-plane mode dynamics of capillary self-alignment
G Arutinov, ECP Smits, P Albert, P Lambert, M Mastrangeli
Langmuir 30 (43), 13092-13102, 2014
192014
Modeling capillary forces for large displacements
M Mastrangeli, G Arutinov, ECP Smits, P Lambert
Microfluidics and Nanofluidics 18 (4), 695-708, 2015
152015
Foil-to-foil system integration through capillary self-alignment directed by laser patterning
G Arutinov, M Mastrangeli, ECP Smits, G Van Heck, JMJ den Toonder, ...
Journal of microelectromechanical systems 24 (1), 126-133, 2014
122014
Capillary gripping and self-alignment: a route toward autonomous heterogeneous assembly
G Arutinov, M Mastrangeli, G Van Heck, P Lambert, JMJ Den Toonder, ...
IEEE Transactions on Robotics 31 (4), 1033-1043, 2015
112015
Dynamics of capillary self-alignment for mesoscopic foil devices
G Arutinov, M Mastrangeli, ECP Smits, HFM Schoo, J Brugger, A Dietzel
Applied Physics Letters 102 (14), 144101, 2013
112013
Self-Assembling of polystyrene microsphere monolayers by spin-coating
G Arutinov, SB Brichkin, VF Razumov
Nanotechnologies in Russia 5 (1-2), 67-72, 2010
52010
Pico-to nanosecond pulsed laser-induced forward transfer (LIFT) of silver nanoparticle inks: a comparative study
J Mikšys, G Arutinov, G Römer
Applied Physics A 125 (12), 814, 2019
32019
Photonic Flash Soldering on Flex Foils for Flexible Electronic Systems
G Arutinov, R Hendriks, J van den Brand
2016 IEEE 66th Electronic Components and Technology Conference (ECTC), 95-100, 2016
32016
Response to “Comment on ‘The origin of non-Drude terahertz conductivity in nanomaterials”’ [Appl. Phys. Lett. 102, 096101 (2013)]
K Shimakawa, T Itoh, H Naito, SO Kasap
Applied Physics Letters 102 (9), 096101, 2013
22013
High speed laser printing and sintering of flexible RFID antennas and fingerprint sensors
I Theodorakos, F Zacharatos, M Makrygianni, A Kalaitzis, O Koritsoglou, ...
Laser Applications in Microelectronic and Optoelectronic Manufacturing …, 2020
2020
Composition Suitable for Application with Laser Induced Forward Transfer (LIFT)
I van der Meulen, G Dreezen, J Wijgaerts, G Arutinov, M Giesbers
US Patent App. 16/434,543, 2019
2019
Method and system for bonding a chip to a substrate
G Arutinov, ECP Smits, J van den Brand
US Patent App. 16/320,180, 2019
2019
Method and system for forming a patterned structure on a substrate
RJ Hendriks, G Arutinov, ECP Smits
US Patent 10,338,473, 2019
2019
Method and system for applying a patterned structure on a surface
G Arutinov
US Patent App. 16/327,458, 2019
2019
Time-resolved shadowgraphy imaging of LIFT ejections, induced by pico-and nanosecond UV laser pulses
J Miksys, G Arutinov, GW Römer
Сборник трудов конференции «International Conference on Advanced Laser …, 2019
2019
Integration with Light
G Arutinov, M Giesbers, SW van Doorn, F Chiappini, R Kusters, ...
2018 7th Electronic System-Integration Technology Conference (ESTC), 1-5, 2018
2018
Method and apparatus for assembling a component with a flexible foil, as well as the assembled product
G Arutinov, GT Van Heck, ECP Smits
US Patent 9,918,392, 2018
2018
Hybrid integration on low-cost flex foils using photonic flash soldiering
SK Pakazad, M Barink, G Arutinov, R Hendriks, R Kusters, M Cauwe, ...
2016 6th Electronic System-Integration Technology Conference (ESTC), 1-5, 2016
2016
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