[HTML][HTML] Coupled multiphysics modelling of sensors for chemical, biomedical, and environmental applications with focus on smart materials and low-dimensional …
Low-dimensional nanostructures have many advantages when used in sensors compared
to the traditional bulk materials, in particular in their sensitivity and specificity. In such …
to the traditional bulk materials, in particular in their sensitivity and specificity. In such …
Flexoelectric enhancement in lead-free piezocomposites with graded inclusion concentrations and porous matrices
Flexoelectricity is the generation of electric fields through strain gradients. It offers
unconventional ways to enhance the electromechanical coupling response of piezoelectric …
unconventional ways to enhance the electromechanical coupling response of piezoelectric …
Lead-free piezocomposites with CNT-modified matrices: Accounting for agglomerations and molecular defects
JA Krishnaswamy, FC Buroni, F Garcia-Sanchez… - Composite …, 2019 - Elsevier
Piezoelectric matrix-inclusion composites based on lead-free ceramics have attracted
attention due to the possibility of manufacturing environmentally friendly devices using …
attention due to the possibility of manufacturing environmentally friendly devices using …
[HTML][HTML] Domain heterogeneity in radiofrequency therapies for pain relief: a computational study with coupled models
The objective of the current research work is to study the differences between the predicted
ablation volume in homogeneous and heterogeneous models of typical radiofrequency (RF) …
ablation volume in homogeneous and heterogeneous models of typical radiofrequency (RF) …
Fractional thermoelasticity model of a 2D problem of mode-I crack in a fibre-reinforced thermal environment
A Zenkour, A Abouelregal - Journal of Applied and Computational …, 2019 - jacm.scu.ac.ir
A model of fractional-order of thermoelasticity is applied to study a 2D problem of mode-I
crack in a fibre-reinforced thermal environment. The crack is under prescribed distributions …
crack in a fibre-reinforced thermal environment. The crack is under prescribed distributions …
Advanced modeling of lead-free piezocomposites: The role of nonlocal and nonlinear effects
Lead-free piezocomposites are an ecofriendly route for sensing and harvesting energy from
mechanical stimuli and it is important to develop accurate models which can capture …
mechanical stimuli and it is important to develop accurate models which can capture …
Nonlocal Models in Biology and Life Sciences: Sources, Developments, and Applications
Nonlocality is important in realistic mathematical models of physical and biological systems
at small-length scales. It characterizes the properties of two individuals located in different …
at small-length scales. It characterizes the properties of two individuals located in different …
Coupled multiphysics, barrier localization, and critical radius effects in embedded nanowire superlattices
The new contribution of this paper is to develop a cylindrical representation of an already
known multiphysics model for embedded nanowire superlattices (NWSLs) of wurtzite …
known multiphysics model for embedded nanowire superlattices (NWSLs) of wurtzite …
Thermodynamic and kinetic properties of mechanical oscillations in nanostructures such as cylindrical quantum dots and thin films
The Green's function method, suitable for analysis of spatially deformed structures, is
developed in this paper. Configuration dependency and density of the diffusion coefficient …
developed in this paper. Configuration dependency and density of the diffusion coefficient …
The Luttinger-Kohn theory for multiband Hamiltonians: A revision of ellipticity requirements
Modern applications require a robust and theoretically solid tool for the realistic modeling of
electronic states in low dimensional nanostructures. The $ k\cdot p $ theory has fruitfully …
electronic states in low dimensional nanostructures. The $ k\cdot p $ theory has fruitfully …