Analysis of thickness dependent forward bias conduction mechanism in organic diodes

Yıldız, Dilber Esra
Toppare, Levent Kamil
Çırpan, Ali


Analysis of Thickness Dependent Forward Bias Conduction Mechanisms in Organic Diodes
Yıldız, Dilber Esra; Toppare, Levent Kamil; Çırpan, Ali (2016-02-27)
Analysis of Reverse Bias Transport Mechanisms in Conjugated Copolymer Based Diodes
Yıldız, Dilber Esra; Apaydın, Doğukan; Toppare, Levent Kamil; Çırpan, Ali (2016-05-17)
Analysis of single phase convective heat transfer in microchannels with variable thermal conductivity and variable viscosity
Gözükara, Arif Cem; Güvenç Yazıcıoğlu, Almıla; Department of Mechanical Engineering (2010)
In this study simultaneously developing single phase, laminar and incompressible flow in a micro gap between parallel plates is numerically analyzed by including the effect of variation in thermal conductivity and viscosity with temperature. Variable property solutions for continuity, momentum and energy equations are performed in a coupled manner, for air as a Newtonian fluid. In these analyses the rarefaction effect, which is important for the slip flow regime, is taken into account by imposing slip veloc...
Analysis of thermomechanical cyclic behavior of unidirectional metal matrix composites
Çöker, Demirkan; Nicholas, Theodore (1993-01-01)
An analytical tool is developed to determine the three-dimensional stress state in a unidirectional composite subjected to axial loading and changes in temperature. A finite difference method is used to analyze a representative volume element of the composite which consists of concentric cylinders. The constituents are assumed to be elastic-plastic materials having temperature dependent properties. An iterative technique using the Prandtl-Reuss flow rule to determine incremental plastic strains is implement...
Analysis of single phase convective heat transfer in microtubes and microchannels
Çetin, Barbaros; Yüncü, Hafit; Department of Mechanical Engineering (2005)
Heat transfer analysis of two-dimensional, incompressible, constant property, hydrodynamically developed, thermally developing, single phase laminar flow in microtubes and microchannels between parallel plates with negligible axial conduction is performed for constant wall temperature and constant wall heat flux thermal boundary conditions for slip flow regime. Fully developed velocity profile is determined analytically, and energy equation is solved by using finite difference method for both of the geometr...
Citation Formats
D. E. Yıldız, L. K. Toppare, and A. Çırpan, “Analysis of thickness dependent forward bias conduction mechanism in organic diodes,” 2016, Accessed: 00, 2021. [Online]. Available: