Electronic Properties of Molecular Organic Semiconductor Thin Films

“…Pentacene is a flexible material and has π conjugate [14]. The electronic conductivity in Pentacene opens a new chapter for the semiconductor industry [6], as Pentacene is a simple and basic organic polymer [7]. The results shown in the graphical form have a dot and continuous line in them.…”

“…So, there are a few limitations regarding the employment of organic structure and their manipulation. As electrons are primarily in covalent bonds, the electron mobility in organic materials is nowhere near their mobility in semiconductor materials [6].…”

“…While EF0 and EF1 are Fermi energy levels without and with Vg on, respectively. Let's assume at any injection rate thermal equilibrium developed be-tween free and trap carriers[6]. The number of thermal-ly excited free carriers is given by = ∫ ( )exp ( − )⁄ The conduction band energy Ec upper limit of the integral can be replaced with EF0 in equation(8) as they are approximately the same at room temperature.…”

Computation of Electronic Conductivity of Pentance By Castep As Semiconductor Material

“…Pentacene is a flexible material and has π conjugate [14]. The electronic conductivity in Pentacene opens a new chapter for the semiconductor industry [6], as Pentacene is a simple and basic organic polymer [7]. The results shown in the graphical form have a dot and continuous line in them.…”

“…So, there are a few limitations regarding the employment of organic structure and their manipulation. As electrons are primarily in covalent bonds, the electron mobility in organic materials is nowhere near their mobility in semiconductor materials [6].…”

“…While EF0 and EF1 are Fermi energy levels without and with Vg on, respectively. Let's assume at any injection rate thermal equilibrium developed be-tween free and trap carriers[6]. The number of thermal-ly excited free carriers is given by = ∫ ( )exp ( − )⁄ The conduction band energy Ec upper limit of the integral can be replaced with EF0 in equation(8) as they are approximately the same at room temperature.…”

Computation of Electronic Conductivity of Pentance By Castep As Semiconductor Material

“…Also attempted was a more controlled doping by reactions with halogen molecules like iodine, or organic molecules like ortho -chloranil, tetracyanoquinodimethane, tetrafl uorenone, etc. This work quickly led to the need for a detailed investigation of the electrical properties in the solid state which have been reviewed in great detail earlier [194] and also recently [195] .…”

Electrodeposited Porous ZnO Sensitized by Organic Dyes – Promising Materials for Dye‐Sensitized Solar Cells with Potential Application in Large‐Scale Photovoltaics

“…Recently, considerable interest has been focused on optical and electronic properties of thin films of organic semiconductors, because they have a variety of applications such as organic photoreceptors, solar cells, light emitting devices, thin film transistors [1][2][3][4]. Among many processes that happen in organic semiconductors, carrier generation and transport play important roles to determine the performance of devices.…”

Time-resolved Spectroscopic Study on Photocarrier Generation Process in Layered Organic Photoconductors