Nonlinear modeling of nanoscale interaction forces between atomic force microscope and carbon nanotubes
This paper introduces a non-linear non-classical model of nanoscale interaction forces
between atomic force microscope and carbon nanotubes in a manipulation process. To …
between atomic force microscope and carbon nanotubes in a manipulation process. To …
A coarse-grained–Atomistic multi-scale method to study the mechanical behavior of heterogeneous FCC nano-materials
In this paper, a multi-scale method is developed to couple the atomistic domain with the
coarse-grained system to model the mechanical properties of materials with defects and …
coarse-grained system to model the mechanical properties of materials with defects and …
Non-linear non-classical modeling of microparticles manipulation based on finite element method
A comprehensive model was presented using the finite element method to analyze the
dynamics of cylindrical microparticles, considering non-linear and size effects. The …
dynamics of cylindrical microparticles, considering non-linear and size effects. The …
Nanosurgical manipulation of titin and its m-complex
Titin is a multifunctional filamentous protein anchored in the M-band, a hexagonally
organized supramolecular lattice in the middle of the muscle sarcomere. Functionally, the M …
organized supramolecular lattice in the middle of the muscle sarcomere. Functionally, the M …
Noncalssical multiscale modeling of ssDNA manipulation using a CNT-nanocarrier based on AFM
Nanocarriers are useful tools in biological and medical research fields. In nanomanipulation,
a nondestructive and successful process can be achieved by using nanocarriers. In this …
a nondestructive and successful process can be achieved by using nanocarriers. In this …
Development of rough viscoelastic contact theories and manipulation by AFM for biological particles: any geometry for particle and asperities
Researchers are interested in simulating the manipulation of biological micro/nanoparticles
by the atomic force microscope. However, there are many obstacles practically, and there …
by the atomic force microscope. However, there are many obstacles practically, and there …
Simulating the AFM-based biomanipulation of cylindrical micro/nanoparticles in different biological environments
Although remarkable attempts have already been made to automate the AFM-based
manipulation of biological cells, there are still many ambiguous points regarding the …
manipulation of biological cells, there are still many ambiguous points regarding the …
Investigation of geometrical effects in the carbon allotropes manipulation based on AFM: multiscale approach
Carbon allotropes are used as nanocarriers for drug and cell delivery. To obtain an accurate
result in the nanoscale, it is important to use a precise model. In this paper, a multiscale …
result in the nanoscale, it is important to use a precise model. In this paper, a multiscale …
Simulating the manipulation of various biological micro/nanoparticles by considering a crowned roller geometry
Nowadays, many researchers have become interested in simulating the manipulation of
biological micro/nanoparticles by means of the atomic force microscope. However, in …
biological micro/nanoparticles by means of the atomic force microscope. However, in …
Molecular dynamic modeling of bioparticles nanomanipulation based on AFM: investigating substrate effects
Nowadays, precise study of biological cells is a necessary demand to investigate the effects
of drugs on viruses, understanding interactions between proteins and inserting desirable …
of drugs on viruses, understanding interactions between proteins and inserting desirable …