Piezo Response Force Microscopy (PFM) enables nanoscale characterization of piezoelectric materials by measuring mechanical deformation under electric fields.
Small angle X-ray scattering, or SAXS, is an experimental method where the intensity of the scattered X-rays is measured as a function of the scattering angle.
By Rebecca Ingle, Ph.D
10 Jan 2023
Kelvin Probe Force Microscopy (KPFM) measures surface potential with improved spatial resolution, crucial for material research. #forceMicroscopy #microscopy
Kelvin probe force microscopy (KPFM) maps surface potential differences, enhancing AFM accuracy by offsetting electrostatic influences.
A novel nanoanalytical technique enables researchers to analyze the composition of a wide range of materials and visualize the elemental distribution in 3D.
By Cvetelin Vasilev
6 Jan 2023
This article from Prior Scientific discusses nanopositioning and how it is used in applications.
AFM excels in analyzing graphene's atomic-scale properties, essential for advancing nanodevices and understanding 2D materials' stacking effects.
In this article, graphene's potential as a commercially viable solution for lab-on-a-chip (LOC) devices is explored.
By Akanksha Urade
5 Jan 2023
AFM enhances virus research by allowing high-resolution imaging and nanomechanical analysis of viral structures and interactions under physiological conditions.
Nanobots, due to their nanoscale, require an equally small yet powerful energy source. Learn about how they are powered in this article.
By Umar Sajjad
28 Dec 2022