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Micromotors with asymmetric shape that efficiently convert light into work by thermocapillary effects.3D vertical nanostructures for enhanced infrared plasmonics.Time resolved and label free monitoring of extracellular metabolites by surface enhanced Raman spectroscopyOut-of-Plane Plasmonic Antennas for Raman Analysis in Living Cells.Intracellular and Extracellular Recording of Spontaneous Action Potentials in Mammalian Neurons and Cardiac Cells with 3D Plasmonic Nanoelectrodes.Soft electroporation for delivering molecules into tightly adherent mammalian cells through 3D hollow nanoelectrodes.Formation and dissolution of microbubbles on highly-ordered plasmonic nanopillar arrays.Hollow plasmonic antennas for broadband SERS spectroscopy.Stacked optical antennas for plasmon propagation in a 5 nm-confined cavitySpatially, Temporally, and Quantitatively Controlled Delivery of Broad Range of Molecules into Selected Cells through Plasmonic Nanotubes.Adsorption on Nanopores of Different Cross Sections Made by Electron Beam Nanolithography.Scanning Probe Photonic Nanojet Lithography.3D plasmonic nanoantennas integrated with MEA biosensors.Biofunctionalized 3D Nanopillar Arrays Fostering Cell Guidance and Promoting Synapse Stability and Neuronal Activity in Networks.Long-Range Capture and Delivery of Water-Dispersed Nano-objects by Microbubbles Generated on 3D Plasmonic Surfaces.Selective intracellular delivery and intracellular recordings combined in MEA biosensorsBrain Function: Novel Technologies Driving Novel UnderstandingThe role of oxygen in the one step amination process of nanocrystalline diamond surfaceXPS and UPS in situ study of oxygen thermal desorption from nanocrystalline diamond surface oxidized by different processIn situ thermal treatment of UV-oxidized diamond hydrogenated surfaceXPS and UPS investigation of the diamond surface oxidation by UV irradiationCharacterization of UV irradiated nanocrystalline diamondOn-Demand Intracellular Delivery of Single Particles in Single Cells by 3D Hollow NanoelectrodesCells Adhering to 3D Vertical Nanostructures: Cell Membrane Reshaping without Stable Internalization.Hot electrons in water: injection and ponderomotive acceleration by means of plasmonic nanoelectrodes.Self-Assembly of Micromachining Systems Powered by Janus MicromotorsControlling wetting and self-assembly dynamics by tailored hydrophobic and oleophobic surfacesPlasmonic meta-electrodes allow intracellular recordings at network level on high-density CMOS-multi-electrode arraysAuthor Correction: Plasmonic meta-electrodes allow intracellular recordings at network level on high-density CMOS-multi-electrode arrays
P50
Q35721800-7B72C206-6DF8-48FC-93FE-96776A29587EQ36265740-41E97D0E-2BED-4532-8602-5BFEA310EBC8Q36349681-6AC77A3D-071B-4AA7-A909-C648014207F6Q38859801-0A02C618-895B-4A26-A1D9-905704E35122Q41078174-BDC1CB71-499F-4883-8053-5D2145AE9D0BQ41447601-459063EF-99B0-4744-ADDA-01D2F7C01CC7Q41829774-6592B106-92A4-4F8E-A1E9-0295C4D5C57BQ42096751-1A3F8FF1-2CD2-4FA4-97CB-E2A92BDE9564Q42558292-01B2566C-ACF1-4394-9984-6D4B84A58DE8Q42820055-A18D6918-26C9-4CC2-BC96-898EAA542233Q47277383-9668D054-48E3-4147-BB9C-20CE8B07417CQ48155757-B607A66D-EC7D-4BD5-9D3E-26041D6ACB0AQ48350172-DCD24BFB-F693-4576-955C-F63FD625271DQ55312722-D19B6FF1-2B27-426E-9201-79124A0E2D9EQ55344652-E1103768-5FF4-4AF7-A6DD-25522C80B415Q57281206-575D0562-544D-4FF9-AF8D-55A9025985CCQ57831369-B7A6FD09-20A2-4999-B467-12C57D281A23Q60216447-58D50C6F-151F-4B7D-9D8A-2E7FEAD6793FQ60216449-2070240E-A57B-4F19-B150-A35B91CB7387Q60216458-DA7C5760-53AC-459E-96D3-D330B23114EDQ60216472-23B675B8-3C63-472D-A54A-C76294A8D59FQ60216474-0253185D-752D-49E4-8771-DB789E3066F8Q61811257-2D134DAE-963A-4C81-9D7B-57C6CC2FF5BAQ64921104-CAB7D312-7C9F-487B-8E9D-87F804B4AFFEQ64934703-F603A13E-759E-4C79-91FD-CE8127014324Q86876800-FA6B1F19-A263-4096-A2D6-EC4404CCDF46Q87634867-5C534433-2A19-4244-8660-AB0FF31A9F04Q90928651-720D4C1F-6926-42F4-B8A8-1868D402CEB4Q91184768-6E06B059-CB46-41EE-83E9-9A8BD5A04B6B
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Michele Dipalo
@ast
Michele Dipalo
@en
Michele Dipalo
@es
Michele Dipalo
@nl
Michele Dipalo
@sl
type
label
Michele Dipalo
@ast
Michele Dipalo
@en
Michele Dipalo
@es
Michele Dipalo
@nl
Michele Dipalo
@sl
prefLabel
Michele Dipalo
@ast
Michele Dipalo
@en
Michele Dipalo
@es
Michele Dipalo
@nl
Michele Dipalo
@sl
P214
P1053
D-6708-2014
P106
P1153
14824657500
P214
P2798
P31
P3829
P3835
michele-dipalo
P496
0000-0002-1823-8231
P734
P7859
viaf-313238315