Add to ORKGTuning of the electronic properties of semiconductors can be achieved by surface modification with organic molecules. In this work, we study, by periodic density functional theory, the change in work function that occurs upon the modification of nominally hydrogen-terminated Si(100)-2 x 1 by chemisorption of substituted styrene molecules. Our results show that monolayers derived from 4-X-styrene molecules, with X being electron donating groups or hydrogen, decrease the work function of the system. Conversely, monolayers derived from 4-X-styrene molecules, with X being electron withdrawing groups, increase the work function of the system. For the molecules used in the modeling, the calculations indicate that the work function can be substant...
One of the fundamental requirements in the development of silicon-based molecular electronic devices...
Styrene (C2H3-C6H5) is expected to have a more complex reaction process due to active reaction sites...
The ability to covalently attach organic molecules to semiconductor surfaces in a controllable and s...
We present a theoretical study of chemisorption of CH C-CH2-COOH molecules on the H:Si(100) surface...
We present an ab initio study of the electronic properties of styrene molecules adsorbed on the dime...
THESIS 9273Prompted by the limited information that might be harnessed en route to the rational desi...
First-principles calculations of work function tuning induced by different chemical terminations on...
The electronically excited states of the Si(100) surface and acetylene, benzene, and 9,10-phenanthre...
I hereby declare that I am the sole author of this thesis. This is a true copy of the thesis, includ...
The effect of organic adsorbates on the silicon (001) surface is investigated using first-principles...
Advances in hybrid organic/inorganic architectures for optoelectronics can be achieved by understand...
We study chemisorbed configurations of C3H6O2 on the extended H:Si(100) surface, through first-princ...
The adhesion configurations and coverage of self-assembled monolayers (SAMs) of hydroxylated octadec...
For the realization of molecular electronics, one essential goal is the ability to systematically fa...
Using first-principles calculations based on density functional theory, we investigated the effects ...
One of the fundamental requirements in the development of silicon-based molecular electronic devices...
Styrene (C2H3-C6H5) is expected to have a more complex reaction process due to active reaction sites...
The ability to covalently attach organic molecules to semiconductor surfaces in a controllable and s...
We present a theoretical study of chemisorption of CH C-CH2-COOH molecules on the H:Si(100) surface...
We present an ab initio study of the electronic properties of styrene molecules adsorbed on the dime...
THESIS 9273Prompted by the limited information that might be harnessed en route to the rational desi...
First-principles calculations of work function tuning induced by different chemical terminations on...
The electronically excited states of the Si(100) surface and acetylene, benzene, and 9,10-phenanthre...
I hereby declare that I am the sole author of this thesis. This is a true copy of the thesis, includ...
The effect of organic adsorbates on the silicon (001) surface is investigated using first-principles...
Advances in hybrid organic/inorganic architectures for optoelectronics can be achieved by understand...
We study chemisorbed configurations of C3H6O2 on the extended H:Si(100) surface, through first-princ...
The adhesion configurations and coverage of self-assembled monolayers (SAMs) of hydroxylated octadec...
For the realization of molecular electronics, one essential goal is the ability to systematically fa...
Using first-principles calculations based on density functional theory, we investigated the effects ...
One of the fundamental requirements in the development of silicon-based molecular electronic devices...
Styrene (C2H3-C6H5) is expected to have a more complex reaction process due to active reaction sites...
The ability to covalently attach organic molecules to semiconductor surfaces in a controllable and s...