Add to ORKGSurface energy characterization is important to design the fabrication process of reliable electronic devices. Surface energy is influenced by various factors such as surface functionality and morphology. Owing to the high surface-to-volume ratio, surface energy at the nanoscale can be different from that of the bulk. However, the conventional methods for characterization of surface energy such as a sessile drop or Washburn methods cannot be used for nanoscale samples, owing to the limited volume for characterization. Recently, surface energy characterization on the nanoscale using atomic force microscopy (AFM) with Peak Force-Quantitative Nanomechanical Mapping (PF-QNM) imaging mode has been proposed. The nanoscale AFM tips measure the adh...
The main hypothesis of this work is that silicon dioxide nanofluids can reduce the work of adhesion ...
Nanotechnology is currently a very promising field of materials science. One of the most recent dir...
Engineering the next generation of smart materials will require new methods of surface characterizat...
Surface energy characterization is important to design the fabrication process of reliable electroni...
Abstract Surface Free Energy (SFE) has become a relevant design parameter to produce...
"Surface free energy (SFE) is a property which depends on the chemical state and roughness of the su...
Towards the validation of the atomic force microscopy-based approach to the determination of surface...
An atomic force microscope (AFM) fundamentally measures the interaction between a nanoscale AFM prob...
Surface science, which spans the fields of chemistry, physics, biology and materials science, requir...
Nanoscience is a booming field incorporating some of the most fundamental questions concerning struc...
Atomic Force Microscopy (AFM) has become an indispensable tool for imaging the properties of surface...
Nanomaterials are very important materials for energy applications. For utilizing them for different...
International audienceApplications based on Single Walled Carbon Nanotube (SWNT) are good example of...
Two dimensional nanomaterials exhibit novel and superlative properties, as such; the last...
AbstractQuantitative Nanomechanical Peak Force® (PF-QNM) TappingModeTM atomic force microscopy measu...
The main hypothesis of this work is that silicon dioxide nanofluids can reduce the work of adhesion ...
Nanotechnology is currently a very promising field of materials science. One of the most recent dir...
Engineering the next generation of smart materials will require new methods of surface characterizat...
Surface energy characterization is important to design the fabrication process of reliable electroni...
Abstract Surface Free Energy (SFE) has become a relevant design parameter to produce...
"Surface free energy (SFE) is a property which depends on the chemical state and roughness of the su...
Towards the validation of the atomic force microscopy-based approach to the determination of surface...
An atomic force microscope (AFM) fundamentally measures the interaction between a nanoscale AFM prob...
Surface science, which spans the fields of chemistry, physics, biology and materials science, requir...
Nanoscience is a booming field incorporating some of the most fundamental questions concerning struc...
Atomic Force Microscopy (AFM) has become an indispensable tool for imaging the properties of surface...
Nanomaterials are very important materials for energy applications. For utilizing them for different...
International audienceApplications based on Single Walled Carbon Nanotube (SWNT) are good example of...
Two dimensional nanomaterials exhibit novel and superlative properties, as such; the last...
AbstractQuantitative Nanomechanical Peak Force® (PF-QNM) TappingModeTM atomic force microscopy measu...
The main hypothesis of this work is that silicon dioxide nanofluids can reduce the work of adhesion ...
Nanotechnology is currently a very promising field of materials science. One of the most recent dir...
Engineering the next generation of smart materials will require new methods of surface characterizat...