UI Postgraduate College
OPTIMISATION OF A SEMI-EMPIRICAL MODEL FOR ACCURATE DETERMINATION OF EXCITATION ENERGIES AND ABSORPTION SPECTRA OF QUANTUM DOTS
Login
Home
→
Science
→
Physics
→
OPTIMISATION OF A SEMI-EMPIRICAL MODEL FOR ACCURATE DETERMINATION OF EXCITATION ENERGIES AND ABSORPTION SPECTRA OF QUANTUM DOTS
JavaScript is disabled for your browser. Some features of this site may not work without it.
OPTIMISATION OF A SEMI-EMPIRICAL MODEL FOR ACCURATE DETERMINATION OF EXCITATION ENERGIES AND ABSORPTION SPECTRA OF QUANTUM DOTS
Browse by
By Issue Date
Authors
Titles
Subjects
Search within this collection:
All Copyright Reserved
Recent Submissions
OPTIMISATION OF A SEMI-EMPIRICAL MODEL FOR ACCURATE DETERMINATION OF EXCITATION ENERGIES AND ABSORPTION SPECTRA OF QUANTUM DOTS
OYENIYI, EZEKIEL
(
2021-05
)
Quantum dots are nanomaterials that have several potential applications including the production of efficient solar cells. Accurate theoretical studies of excitation energies and absorption spectra of quantum dots are ...
Search DSpace
Search DSpace
This Collection
Advanced Search
Browse
All of DSpace
Communities & Collections
By Issue Date
Authors
Titles
Subjects
This Collection
By Issue Date
Authors
Titles
Subjects
My Account
Login
Register
Discover
Author
OYENIYI, EZEKIEL (1)
Subject
Cluster excitation energies, Cluster absorption spectra, Hamiltonian, High level ab-initio Method, Nanomaterials (1)
... View More
Date Issued
2021 (1)
Statistics
View Usage Statistics
View Search Statistics
RSS Feeds
RSS 1.0
RSS 2.0
Atom