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Conductivity (electrolytic)
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Related lectures (13)
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Introduction & Conductive Solutions
Introduces bio-nano-chip design and explores the properties of conductive solutions and electrolytes.
Drude Model & DC Circuits: Conductivities, Ohm's Law, EMF
Covers the Drude model for electrical conductivities and introduces DC circuits.
Optical Properties of Free Electron Materials
Explores the relationship between optical and electrical properties in materials with free electrons.
Quantum Computing: Molecular Transistors and Logic Gates
Delves into molecular transistors, logic gates, and their design using molecular technology.
Chemical Sensors: Ionic Balances and Electrochemical Potentiometric Sensors
Explores ionic balances, oxidation-reduction, and electrochemical potentiometric sensors in chemical sensing applications, including oxygen concentration measurement and air/fuel ratio optimization.
Charge Transport in Organic Semiconductors: Mechanisms and Interfaces
Covers charge transport mechanisms in organic semiconductors, focusing on active regions, interfaces, and the influence of disorder on conductivity.
Hot Plate Experiment: Semiconductor Behavior Analysis
Covers the hot plate experiment and the behavior of silicon semiconductors under temperature gradients.
Electrochemistry: Principles and Applications in Thermodynamics
Introduces electrochemistry, covering electrochemical potential, oxidation-reduction reactions, and practical applications in thermodynamics.
Drift Currents and Conductivity: Poisson's Equation in Semiconductors
Covers drift currents, conductivity, and the effects of scattering in semiconductors.
Charge Carriers in Organic Electronics: Solitons and Polarons
Discusses charge carriers in organic materials, focusing on solitons, polarons, and their implications for charge transport and device performance.
Fermi Levels: Temperature Effects on Semiconductor Behavior
Covers the impact of temperature on Fermi levels in doped semiconductors, analyzing behavior at 300 K, 600 K, and 77 K.
Unified View of Charge Transport in Organic Semiconductors
Provides a unified understanding of charge transport mechanisms in organic semiconductors using the generalized Einstein relation.
Quantum Structures: Band Gaps and Heterostructures
Covers the formation and properties of quantum wells and heterostructures in semiconductor materials.
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