Jun Namkung scite author profile

Jun Namkung

5Publications

16Citation Statements Received

9Citation Statements Given

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Affiliations

University of Alabama in Huntsville

Publications

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Interference colors of nematic liquid crystal films at different applied voltages and surface anchoring conditions

Zou¹,

Namkung²,

Lin³

et al. 2011

Opt. Express

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This paper presents the calculated and experimental interference colors of liquid crystal (LC) films due to the optical retardation of two orthogonal electromagnetic components at different surface anchoring conditions and applied voltages. We simulate the deformation of LC director using finite element method and convert the calculated colors into sRGB parameters. A gold micro-structure is fabricated and used to control the optical retardation. Polarizing micrographs were collected and compared with the calculated colors.

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Capacitive Techniques to Monitor of Anchoring Energy for Liquid Crystal Sensors

et al. 2010

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Capacitive techniques to monitor anchoring energy in liquid crystal-based sensors

Namkung

Zou

Hassanzadeh

et al. 2009

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Enhanced Chemical and Biological Sensor Based on Liquid Crystal Using a Bias Electric Field

Zou

Namkung

Lin

et al. 2010

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Capacitive Based Liquid Crystal Chemical and Biological Sensors

Abu-Abed

Lindquist

Jovanov

et al. 2007

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This paper demonstrates the principle of capacitive sensing in liquid crystal (LC) based sensors with potential applications to chemical and biological systems. The theory for tracking the average molecular deformation partially disorder LC film via capacitive sensing is investigated. Three capacitance measurements are required to track the average molecular orientation as well as the degree of disorder in the LC film. Sensors' outputs are digitized by involving capacitance to digital converter to be applied to computerized applications. Both the experimental and calculated capacitances of a selected sensor structure are presented.

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Jun Namkung

Interference colors of nematic liquid crystal films at different applied voltages and surface anchoring conditions

Capacitive Techniques to Monitor of Anchoring Energy for Liquid Crystal Sensors

Capacitive techniques to monitor anchoring energy in liquid crystal-based sensors

Enhanced Chemical and Biological Sensor Based on Liquid Crystal Using a Bias Electric Field

Capacitive Based Liquid Crystal Chemical and Biological Sensors

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