about
Few-Layer Antimonene by Liquid-Phase ExfoliationCutting down the forest of peaks in acoustic dynamic atomic force microscopy in liquid.Variable-field magnetic force microscopy.'Flatten plus': a recent implementation in WSxM for biological research.High resolution atomic force microscopy of double-stranded RNA.Interplay between the mechanics of bacteriophage fibers and the strength of virus-host links.Recent progress in 2D group-VA semiconductors: from theory to experiment.Noncovalent Functionalization and Charge Transfer in Antimonene.Recent Progress on Antimonene: A New Bidimensional Material.High Electrical Conductivity of Single Metal-Organic Chains.One-Pot Preparation of Mechanically Robust, Transparent, Highly Conductive, and Memristive Metal-Organic Ultrathin FilmAnomalously low dielectric constant of confined waterAntimonene: Mechanical Isolation of Highly Stable Antimonene under Ambient Conditions (Adv. Mater. 30/2016)Mechanical Isolation of Highly Stable Antimonene under Ambient ConditionsMagnetic Force Microscopy in LiquidsTailored graphene materials by chemical reduction of graphene oxides of different atomic structureThe effect of the parent graphite on the structure of graphene oxideStrain energy and lateral friction force distributions of carbon nanotubes manipulated into shapes by atomic force microscopyPiezoelectricity in Monolayer Hexagonal Boron NitrideAFM Manipulation of Gold Nanowires To Build Electrical CircuitsCustomized MFM probes based on magnetic nanorods
P50
Q30368445-7C982E51-2EAA-4C62-BE60-C86446E01287Q33397521-E6A6874B-D55F-459B-BDA3-2127BDA33766Q33413483-D3C79B0D-5740-4AB8-A0A3-307408C932A6Q38444123-C2440969-D3C3-40CB-8323-1E5AB52BC3DDQ39997521-E19503F7-3124-49D7-B565-516CB9BF6B13Q41685369-D44E8193-514F-47BC-9744-5FABC226E775Q46001679-8CDF47C3-9DF8-420B-B58A-85162083A3F4Q47131303-65BE796E-5BF3-4053-91B5-D246E54FA799Q47404819-4FC91675-5DB2-4F57-846A-BA52F1EA1853Q52586427-BBC285CE-BEA8-461F-8259-535B41788787Q57155273-0E0BF992-D86F-4A3A-B65B-E975EAD9F5EBQ58337191-E7EFFA7F-F861-48CE-886C-C2946CB3AEC1Q58864917-C3EC3395-5A03-498A-84AA-9AA69AA7C134Q58864922-8CC03074-34B8-43FE-B421-714B69CD906BQ58864937-7EC6969D-A843-49D0-B855-EEB4AC06BC5DQ59921445-0395B6BE-810E-4C50-A538-35E5B3AEC668Q60216617-44CE9617-FE5C-48BA-AE49-B6B8BDF518DAQ84481131-90782833-938F-43C9-BEB3-F3E53346E6A4Q91314220-A20E65C0-95E0-4D91-AEB7-38B8C7AAC3EBQ92338332-C7990AE8-B855-4EE2-A44F-F5EBEBB3A047Q94457763-32CE3720-EB95-4114-A25D-A04BEF0EF8A7
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Pablo Ares
@ast
Pablo Ares
@en
Pablo Ares
@es
Pablo Ares
@nl
Pablo Ares
@sl
type
label
Pablo Ares
@ast
Pablo Ares
@en
Pablo Ares
@es
Pablo Ares
@nl
Pablo Ares
@sl
prefLabel
Pablo Ares
@ast
Pablo Ares
@en
Pablo Ares
@es
Pablo Ares
@nl
Pablo Ares
@sl
P1053
N-2272-2017
P106
P21
P31
P3829
P496
0000-0001-5905-540X