Projectos
Additive Manufacturing of 3D Microfluidic MEMS for Lab-on-a-Chip applications - M3DLoC (M3DLoC)
Coordenador LocalEuropean Comission
MEDLOC aims at the employment of multi-material 3D printing technologies for the large-scale fabrication of microfluidic MEMS for lab-on-a-chip and sensing applications. The concept is based on the combination of multimaterial direct-ink-writing method and an extrusion-based 3D printing pilot line, in order to fabricate microstructured ...Caracterizacao da conducao termica em nanoescala utilizando metodos de varrimento de sonda para guiar a sintese de ceramicas termoeletricas (NANOCERAMPROBE)
ParticipanteFundação para a Ciência e a Tecnologia
Publicações
In-situ near-field probe microscopy of plasma processing
Tselev, A; Fagan, J; Kolmakov, A
2018, APPLIED PHYSICS LETTERS, 113, 26.
In Aqua Electrochemistry Probed by XPEEM: Experimental Setup, Examples, and Challenges
Nemsak, S; Strelcov, E; Guo, HX; Hoskins, BD; Duchon, T; Mueller, DN; Yulaev, A; Vlassiouk, I; Tselev, A; Schneider, CM; Kolmakov, A
2018, TOPICS IN CATALYSIS, 61, 20, 2195-2206.
Quantification of in-contact probe-sample electrostatic forces with dynamic atomic force microscopy
Balke, N; Jesse, S; Carmichael, B; Okatan, MB; Kravchenko, II; Kalinin, SV; Tselev, A
2017, NANOTECHNOLOGY, 28, 6.
ISBN:
1361-6528
Enhancement of local piezoelectric properties of a perforated ferroelectric thin film visualized via piezoresponse force microscopy
Ivanov, MS; Sherstyuk, NE; Mishina, ED; Khomchenko, VA; Tselev, A; Mukhortov, VM; Paixao, JA; Kholkin, AL
2017, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 50, 42.
ISBN:
1361-6463
Electromechanical properties of electrostrictive CeO2:Gd membranes: Effects of frequency and temperature
Ushakov, AD; Mishuk, E; Makagon, E; Alikin, DO; Esin, AA; Baturin, IS; Tselev, A; Shur, VY; Lubomirsky, I; Kholkin, AL
2017, APPLIED PHYSICS LETTERS, 110, 14.
ISBN:
1077-3118
Quantification of surface displacements and electromechanical phenomena via dynamic atomic force microscopy
Balke, N; Jesse, S; Yu, P; Carmichael, B; Kalinin, SV; Tselev, A
2016, NANOTECHNOLOGY, 27, 42.
Nanoscale Ferroelectricity in Crystalline gamma-Glycine
Heredia, A; Meunier, V; Bdikin, IK; Gracio, J; Balke, N; Jesse, S; Tselev, A; Agarwal, PK; Sumpter, BG; Kalinin, SV; Kholkin, AL
2012, ADVANCED FUNCTIONAL MATERIALS, 22, 14, 2996-3003.
Landau-Ginzburg-Devonshire Theory for domain wall conduction and observation of microwave conduction of domain walls
In Dennis Meier, Jan Seidel, Marty Gregg, and Ramamoorthy Ramesh (Eds.), Domain Walls : From Fundamental Properties to Nanotechnology Concepts
A. Tselev, A. V. Ievlev, R. Vasudevan, S. V. Kalinin, P. Maksymovych, and A. Morozovska
2020, Oxford, United Kingdom : Oxford University Press.
ISBN:
9780198862499
Nanoscale ferroelectric switching: A method to inject and study non-equilibrium domain walls
In Dennis Meier, Jan Seidel, Marty Gregg, and Ramamoorthy Ramesh (Eds.), Domain Walls: From Fundamental Properties to Nanotechnology Concepts
A.V. Ievlev, A. Tselev, R. Vasudevan, S.V. Kalinin, A. Morozovska, and P. Maksymovych
2020, 245, Oxford, United Kingdom: Oxford University Press.
ISBN:
9780198862499
Functional material properties of oxide thin films probed by atomic force microscopy on the nanoscale
In Nini Pryds, Vincenzo Esposito (Eds.), Metal Oxide-Based Thin Film Structures
N.Balke, A.Tselev
2018, 181-201, Elsevier.
ISBN:
978-0-12-811166-6