has been cited by the following article(s):
[1]
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Design principles in continuous inkjet electrohydrodynamic printing from discretized modeling and image analysis
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2020 |
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[2]
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Printing Conductive Paths for Electronic Functional Devices
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2019 |
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[3]
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Prototyping of a Surface-integrated Mechano-optical Microsensor System for 3D Traction Force Measurements by DHM/DIC
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2019 |
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[4]
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МАТЕРИАЛЫ С УЛУЧШЕННЫМИ СВОЙСТВАМИ ДЛЯ АДДИТИВНОГО ПРОИЗВОДСТВА НОВОГО ПОКОЛЕНИЯ
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2018 |
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[5]
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Advanced material strategies for next-generation additive manufacturing
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Materials,
2018 |
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[6]
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Inkjet printing metals on flexible materials for plastic and paper electronics
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Journal of Materials Chemistry C,
2018 |
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[7]
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Electrohydrodynamic Printing of Microscale PEDOT: PSS-PEO Features with Tunable Conductive/Thermal Properties
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ACS Applied Materials & Interfaces,
2018 |
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[8]
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Silver nanoparticle ink technology: state of the art
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Nanotechnology, science and applications,
2016 |
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[9]
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Printing conductive ink tracks on textile materials
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2015 |
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[10]
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Temperature and doping effect on thermal conductivity of copper–gold icosahedral bimetallic nanoclusters and bulk structures
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The Journal of Physical Chemistry C,
2015 |
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[11]
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Temperature and Doping Effect on Thermal Conductivity of Copper-Gold? Icosahedral Bimetallic Nanoclusters and Bulk Structures
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The Journal of Physical Chemistry C,
2015 |
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[12]
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Electrohydrodynamic atomization: A two-decade effort to produce and process micro-/nanoparticulate materials
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Chemical Engineering Science,
2014 |
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[13]
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Nanoparticles of Gold and Copper: Sintering and Supramolecular Assembly Investigations
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2014 |
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[14]
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Versatile resistive switching (memristive) behavior in an ITO/ZRO2/AG sandwich fabricated using electrohydrodynamic printing
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Journal of the Korean Physical Society,
2012 |
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[15]
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Inkjet-Printed Gold Electrodes on Paper: Characterization and Functionalization
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ACS Applied Materials & Interfaces,
2012 |
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[16]
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Versatile resistive switching (memristive) behavior in an ITO/ZRO 2/AG sandwich fabricated using electrohydrodynamic printing
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2012 |
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[1]
|
Advanced Material Strategies for Next-Generation Additive Manufacturing
Materials,
2018
DOI:10.3390/ma11010166
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[2]
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Electrohydrodynamic Printing of Microscale PEDOT:PSS-PEO Features with Tunable Conductive/Thermal Properties
ACS Applied Materials & Interfaces,
2018
DOI:10.1021/acsami.8b04051
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[3]
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Electrohydrodynamic Printing of Microscale PEDOT:PSS-PEO Features with Tunable Conductive/Thermal Properties
ACS Applied Materials & Interfaces,
2018
DOI:10.1021/acsami.8b04051
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