Add to ORKGTrabajo presentado en la conferencia Fuerzas y Túnel (FyT2014), celebrada en San Sebastián del 27 al 29 de agosto de 2014.Atomic Force Microscopy (AFM) working in high vacuum (HV) conditions is a valuable technique due to its sensitivity and versatility. In this work we present different experiments in carbon-based materials. We use the HV-AFM to perform different experiments on graphitic surfaces like graphene and graphene oxide (GO). Graphene can be described as one-atom thick layer of graphite. For many applications, the interaction of graphene and GO with the supporting substrate and with adjacent layers plays a relevant role in properties such as adhesion, charge transfer [1], doping level etc. Furthermore, it is important to take into...
Friction characteristics of graphene deposited on different substrates have been studied by atomic f...
Scanning probe microscopes (SPM) are commonly used for characterization of the topographic and elect...
Graphene is the first single-atom-thick two-dimensional material and exhibits a large set of interes...
Graphene is considered as one of the most promising materials for numerous applications such as elec...
Imaging at the atomic scale using atomic force microscopy in biocompatible environments is an ongoin...
We present the design and performance of an ambient-pressure atomic force microscope (AP-AFM) that a...
We mechanically clean graphene devices using an atomic force microscope (AFM). By scanning an AFM ti...
Univocal conclusions around the wettability of graphene exposed to environmental conditions remain e...
© 2015 Elsevier Ltd. Graphene is grown by chemical vapor deposition (CVD) on copper films and transf...
Graphene single-layer films are grown by chemical vapor deposition and transferred onto commercially...
The unique electronic and physical properties of material interfaces provide a never-ending source o...
This thesis examines the mechanical, and adhesive properties of graphene and explores using graphene...
Scanning tunneling microscopy (STM) and atomic force microscopy (AFM) images of graphene reveal eith...
This thesis describes an alternative approach to graphene research. It puts forward that the concept...
Carbon, the backbone material of life on Earth, comes in three modifications: diamond, graphite, and...
Friction characteristics of graphene deposited on different substrates have been studied by atomic f...
Scanning probe microscopes (SPM) are commonly used for characterization of the topographic and elect...
Graphene is the first single-atom-thick two-dimensional material and exhibits a large set of interes...
Graphene is considered as one of the most promising materials for numerous applications such as elec...
Imaging at the atomic scale using atomic force microscopy in biocompatible environments is an ongoin...
We present the design and performance of an ambient-pressure atomic force microscope (AP-AFM) that a...
We mechanically clean graphene devices using an atomic force microscope (AFM). By scanning an AFM ti...
Univocal conclusions around the wettability of graphene exposed to environmental conditions remain e...
© 2015 Elsevier Ltd. Graphene is grown by chemical vapor deposition (CVD) on copper films and transf...
Graphene single-layer films are grown by chemical vapor deposition and transferred onto commercially...
The unique electronic and physical properties of material interfaces provide a never-ending source o...
This thesis examines the mechanical, and adhesive properties of graphene and explores using graphene...
Scanning tunneling microscopy (STM) and atomic force microscopy (AFM) images of graphene reveal eith...
This thesis describes an alternative approach to graphene research. It puts forward that the concept...
Carbon, the backbone material of life on Earth, comes in three modifications: diamond, graphite, and...
Friction characteristics of graphene deposited on different substrates have been studied by atomic f...
Scanning probe microscopes (SPM) are commonly used for characterization of the topographic and elect...
Graphene is the first single-atom-thick two-dimensional material and exhibits a large set of interes...