Add to ORKGThe effects of the environment in nanoscopic materials can play a crucial role in device design. Particularly in biosensors, where the system is usually embedded in a solution, water and ions have to be taken into consideration in atomistic simulations of electronic transport for a realistic description of the system. In this work, we present a methodology that combines quantum mechanics/molecular mechanics methods (QM/MM) with the nonequilibrium Green's function framework to simulate the electronic transport properties of nanoscopic devices in the presence of solvents. As a case in point, we present further results for DNA translocation through a graphene nanopore. In particular, we take a closer look into general assumptions in a previous...
In this dissertation we discuss ab initio studies of quantum transport through single-molecule devic...
This thesis will review my experimental efforts in measuring charge transport using on-chip and scan...
In this paper, we present a full 3-D real-space quantum-transport simulator based on the Green's fun...
DoctorDevices for nanoscale electronics are proposed. First principles computations are used to eval...
Self-assembled nanostructures, composed of inorganic and organic materials, have multiple applicatio...
In this dissertation, I examine ion transport in nanopores, which has been met with increased intere...
THESIS 8084The problem of electronic transport in systems comprising only a handful of atoms is one ...
The following dissertation discusses the theoretical study of water on the nanoscale, often involved...
This thesis presents a rigorous yet practical approach to model quantum transport in nanoscale elect...
The advent of parallelized automated methods for rapid whole-genome analysis has led to an exponenti...
This dissertation presents a generalized quantum chemical approach for electron transport in molecul...
A generalized quantum chemical approach for electron transport in molecular devices is developed. It...
We present a transport model for molecular conduction involving an extended Hückel theoretical treat...
Modern electronics technology has reached a very sophisticated stage. Requirements for smaller and r...
The advent of parallelized automated methods for rapid whole-genome analysis has led to an exponenti...
In this dissertation we discuss ab initio studies of quantum transport through single-molecule devic...
This thesis will review my experimental efforts in measuring charge transport using on-chip and scan...
In this paper, we present a full 3-D real-space quantum-transport simulator based on the Green's fun...
DoctorDevices for nanoscale electronics are proposed. First principles computations are used to eval...
Self-assembled nanostructures, composed of inorganic and organic materials, have multiple applicatio...
In this dissertation, I examine ion transport in nanopores, which has been met with increased intere...
THESIS 8084The problem of electronic transport in systems comprising only a handful of atoms is one ...
The following dissertation discusses the theoretical study of water on the nanoscale, often involved...
This thesis presents a rigorous yet practical approach to model quantum transport in nanoscale elect...
The advent of parallelized automated methods for rapid whole-genome analysis has led to an exponenti...
This dissertation presents a generalized quantum chemical approach for electron transport in molecul...
A generalized quantum chemical approach for electron transport in molecular devices is developed. It...
We present a transport model for molecular conduction involving an extended Hückel theoretical treat...
Modern electronics technology has reached a very sophisticated stage. Requirements for smaller and r...
The advent of parallelized automated methods for rapid whole-genome analysis has led to an exponenti...
In this dissertation we discuss ab initio studies of quantum transport through single-molecule devic...
This thesis will review my experimental efforts in measuring charge transport using on-chip and scan...
In this paper, we present a full 3-D real-space quantum-transport simulator based on the Green's fun...