In this article, the collection of studies with regard to the modeling of nanomanipulation
based on atomic force microscope (AFM) is discussed. To model the manipulation process …

Determination of the pH value of a medium without the usage of less photostable and toxic
dye molecules or dye incorporated particles still remains a challenging task. Here, we …

Dynamical lumped modeling of Trolling-mode AFM in manipulation of bio-samples is
presented. The combination of high accuracy and compatibility with physiological conditions …

This work incorporates experimental methods based on Atomic Force Microscopy (AFM) in
order to extract the physical and mechanical characteristics of the head and neck cancer …

Background: Natural products and their molecular frameworks have been explored as
invaluable sources of inspiration for drug design by means of structural modification …

The progressive falling of barriers among disciplines is opening unforeseen scenarios in
diagnosis and treatment of cancer diseases. By sharing models and mature knowledge in …

Previous research on biological particles manipulation has taken into account linear cellular
models and spherical geometry, Whereas, particles such as bacteria and cancer cells have …

Due to the softness and vulnerability of biological cells, in manipulation operations, it is not
possible to insert excessive force to move these cells. Also, cells in their living environment …

Manipulation of biological particles including pulling, and holding-and-indenting them, using
the atomic force microscope (AFM) has attracted enormous interests. High deformability and …

Significant capabilities of atomic force microscopy (AFM) such as operating in various
environments and scales made it a useful device in different operations. According to AFM …