A computationally cost-effective interleaving method for atomistic non-equilibrium Green’s function simulation

Simulation of phonon transport across a non-polar nanowire junction using an atomistic Green's function method

A cost effective and sensitive method for the determination of ammonia concentration in nanocrystal mordenite

The reduction capacity of ammonia while present even at ppm level can be demonstrated by the increased encounter probability between ammonia and methylene blue dye (MB+) incorporated in nanomordenite and Na-MOR zeolites. The rate of reduction methylene blue dye by ammonia on the surface nanomordenite zeolite is faster than Na-mordenite (Na-MOR) zeolite.Because nanomordenite zeolite with high si...

A cost effective and sensitive method for the determination of ammonia concentration in nanocrystal mordenite

The reduction capacity of ammonia while present even at ppm level can be demonstrated by the increased encounter probability between ammonia and methylene blue dye (MB+) incorporated in nanomordenite and Na-MOR zeolites. The rate of reduction methylene blue dye by ammonia on the surface nanomordenite zeolite is faster than Na-mordenite (Na-MOR) zeolite.Because nanomordenite zeolite with high si...

The Atomistic Green's Function Method: An Efficient Simulation Approach for Nanoscale Phonon Transport

Cost Effective Computationally Intelligent Control – An Augmented Switching Manifold Approach

In this paper, a novel method for tuning the parameters of a class of intelligent PD controllers is discussed. The aim of the design is to extract a tuning law such that the specifications of the control problem are met and the adjustable parameters evolve bounded. The achievement of these specifications is a challenge in the presence of strong external disturbances, ambiguities in the plant mo...