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"Lifetime"

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"Lifetime"

Insulation Materials : Thermal Analysis and Equivalent Lifetime Prediction of Insulation Material for Nuclear Power Cable
Ji Yeon Kim, Jong Suk Yang, Kyeung Heum Park, Baek Yong Seong, Jeong Hwan Bang, Dae Hee Park
J Electr Electron Mater 2016;29(1):17-22.   Published online January 1, 2016
The activation energy of a material is an important factor that significantly affects the lifetime and can be used to develop a degradation model. In this study, a thermal analysis was carried out to evaluate and collect quantitative data on the degradation of insulation materials like EPR and CSP used for nuclear power plant cables. The activation energy was determined from the relationship between log β and 1/T based on the Flynn-Wall-Ozawa method, by a TGA test. The activation energy was also derived from the relationship between ln(t) and 1/T based on isothermal analysis, by an OIT test. The activation energy of EPR derived from thermal analysis was used to calculate the accelerated aging time corresponding to the number of years of use, employing the Arrhenius equation, and determine the elongation corresponding to the accelerated aging time.
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Energy Materials : Feasibility Test of One-Dimensional Sodium Hexatitanate as an Anode Material in Dye-Sensitized Solar Cells
Badema, Kwang Joong, Kuk Cho
J Electr Electron Mater 2015;28(5):338-343.   Published online May 1, 2015
Dye sensitized solar cells (DSSCs), which is one of the contending renewable energy sources, have the problem of low efficiency. To improve the efficiency, the fast electron transport and long electron lifetime are required. In this study, one-dimensional sodium hexatitanate, which is expected to have an advantageous structure for electron transports, was synthesized and the feasibility of the material on DSSC was tested. Its physical properties were characterized by the SEM, XRD, and BET method. The dye adsorption and solar cell properties were also characterized. In addition to the expectation of fast electron transport, sodium hexatitanate showed longer electron lifetime: This means sodium hexatitanate can improve the DSSC efficiency. However, it showed low current and voltage because of the low surface area leading to the low amount of dye adsorbed. Therefore, it should be mixed with titanium oxide with high surface area for the optimal performance.
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Luminescent Properties of OLED Devices with Various Substrate Temperatures
Jung Taek Kim, Kyeong Kap Paek, Sung Hoo Ju
J Electr Electron Mater 2009;22(11):956-960.   Published online November 1, 2009
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Carrier Lifetime Analysis of Proton Irradiated SOI Wafer with Pseudo MOSFET Technology
Sung Hoon Jung, Yong Hyun Lee, Jae Sung Lee, Young Kyu Kwon, Young Ho Bae
J Electr Electron Mater 2009;22(9):732-736.   Published online September 1, 2009
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Degradation and Failure Analysis of Lead-free Silver Electrodes with Thermal Cycling
Jung Woo Kim, Dong Chul Yoon, Hee Soo Lee, Min Seok Jeon, Jun Kwang Song
J Electr Electron Mater 2008;21(5):434-439.   Published online May 1, 2008
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Improving the Efficiency for Hybrid Battery Combining Super Capacitor
J Electr Electron Mater 2007;20(5):410-414.   Published online May 1, 2007
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The Aging Diagnostic Technology for Predicting Lifetime of Thyristor Devices
J Electr Electron Mater 2007;20(3):197-201.   Published online March 1, 2007
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improvement of Turn-off Switching Characteristics of the PT-IGBT by Proton Irradiation
J Electr Electron Mater 2006;19(12):1073-1077.   Published online December 1, 2006
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Switching Characteristics Enhancement of PT Type Power Diode using Proton Irradiation Technique
J Electr Electron Mater 2006;19(3):216-221.   Published online March 1, 2006
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Current-voltage Characteristics of Proton Irradiated NPT Type Power Diode
J Electr Electron Mater 2006;19(1):7-12.   Published online January 1, 2006
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Fabrication of a Fast Switching Thyristor by Proton Irradiation Method
J Electr Electron Mater 2004;17(12):1264-1270.   Published online December 1, 2004
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