Add to ORKGThis thesis aims at investigating size dependence of properties of nanostructures from the point of view of a general scaling theory that smoothly connects properties of the bulk to that of nanostructures. Two different examples of a ``static'' and a ``dynamic'' property are considered in this study. The first example studied is of size dependence of coefficient of thermal expansion (CTE) which a static property of nanostructures. The CTE of nanobars and nanoslabs is studied using equilibrium molecular dynamics and dynamical matrix formulation in an electrically insulating medium. It is found that the fractional change in CTE from the bulk value scales inversely with the size of the nanostructures, thus, showing a simple description in ter...
In this work, we report experimental data on the evolution of the resistance with applied voltage in...
The field of carbon nano tubes (CNT) is an active area of research theoretically as well experimenta...
We developed and implemented a first-principles based theory of the Landauer ballistic conductance, ...
Experimental projection of transport properties of semiconductor devices faces a challenge nowadays....
A theory for the size dependence of the coefficient of thermal expansion (CTE) of nanostructures is ...
Aggressive scaling of CMOS has led to higher and higher integration density, the higher performance ...
We performed a comprehensive scaling study of Schottky barrier carbon nanotube transistors using sel...
Nano-materials are interesting material category with a single unit size between 1 and 1000 nanomete...
Goals. The goal of this NIRT is to investigate the effects of fluctuations in atomic structure or el...
As device sizes shrink towards the nanoscale, CMOS development investigates alternative structures a...
Scaling process of silicon transistor, particularly MOSFET, in the past decades had increased the pe...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
A first approach to engineering problems in nanosized systems requires a thorough understanding of h...
We present an order-N [O(N)] calculation method for the quantum electron transport of huge systems ...
CNTFET, Compact Modeling, Dispersion ImpactThe designs integrating the promising carbon nanotube tra...
In this work, we report experimental data on the evolution of the resistance with applied voltage in...
The field of carbon nano tubes (CNT) is an active area of research theoretically as well experimenta...
We developed and implemented a first-principles based theory of the Landauer ballistic conductance, ...
Experimental projection of transport properties of semiconductor devices faces a challenge nowadays....
A theory for the size dependence of the coefficient of thermal expansion (CTE) of nanostructures is ...
Aggressive scaling of CMOS has led to higher and higher integration density, the higher performance ...
We performed a comprehensive scaling study of Schottky barrier carbon nanotube transistors using sel...
Nano-materials are interesting material category with a single unit size between 1 and 1000 nanomete...
Goals. The goal of this NIRT is to investigate the effects of fluctuations in atomic structure or el...
As device sizes shrink towards the nanoscale, CMOS development investigates alternative structures a...
Scaling process of silicon transistor, particularly MOSFET, in the past decades had increased the pe...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
A first approach to engineering problems in nanosized systems requires a thorough understanding of h...
We present an order-N [O(N)] calculation method for the quantum electron transport of huge systems ...
CNTFET, Compact Modeling, Dispersion ImpactThe designs integrating the promising carbon nanotube tra...
In this work, we report experimental data on the evolution of the resistance with applied voltage in...
The field of carbon nano tubes (CNT) is an active area of research theoretically as well experimenta...
We developed and implemented a first-principles based theory of the Landauer ballistic conductance, ...