TEMPERATURE DEPENDENT TRANSPORT MECHANISMS OF NANOPOROUS ZEOLITE IN GAS DISCHARGE ELECTRONIC DEVICES

机译：纳米多孔沸石在气体放电电子器件中的温度依赖传输机制

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The effect of temperature on the dc conductivity of nanoporous zeolite is described. The resistivity decreased from 2.34×10~(10) to 2.17×10~8 Ω·m when the temperature increased from 28 to 800 K which was associated with the ionic mobility. Ⅰ-Ⅴ characteristics obtained with different experimental methods show that new mixed transport mechanisms occur when zeolites are used as a cathode in gas discharge electronic devices.

机译：描述了温度对纳米沸石DC电导率的影响。当温度从28〜800 k增加时，电阻率从2.34×10〜（10）降至2.17×10〜8Ω·m。 Ⅰ-α用不同实验方法获得的特性表明，当沸石用作气体放电电子器件中的阴极时，发生新的混合传输机制。

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《International conference on physics, chemistry and applications of nanostructures》|2015年|xxiv627p|共4页
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K. KOSEOGLU; I. KARADUMAN; M. DEMIR; S. ACAR; B. G. SALAMOV;
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1. Peculiarities of the charge transport in the gas discharge electronic device with irradiated porous zeolite [J] . Ozturk Sevgul, Koseoglu Kivilcim, Ozer Metin, Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2015,第31期

机译：带有多孔沸石的气体放电电子设备中电荷传输的特殊性
2. Electro-optical properties of porous zeolite cathode in the gas discharge electronic devices for plasma light source applications [J] . Kivilcim Koseoglu, Metin OEzer, Sevgul Ozturk, Japanese journal of applied physics . 2014,第8期

机译：等离子光源用气体放电电子器件中多孔沸石阴极的电光性能
3. Gas discharge electronic device based on the porous zeolite [J] . Optoelectronics and Advanced Materials-Rapid Communications . 2012,第2012期

机译：基于多孔沸石的气体放电电子装置
4. TEMPERATURE DEPENDENT TRANSPORT MECHANISMS OF NANOPOROUS ZEOLITE IN GAS DISCHARGE ELECTRONIC DEVICES [C] . K. KOSEOGLU, I. KARADUMAN, M. DEMIR, International conference on physics, chemistry and applications of nanostructures . 2015

机译：纳米多孔沸石在气体放电电子器件中的温度依赖传输机制
5. Integration of nanoporous zeolite with optical fiber devices for chemical sensing . [D] . Lan, Xinwei. 2013

机译：纳米沸石与化学传感光纤装置的集成。
6. Adsorption Device Based on a Langatate Crystal Microbalance for High Temperature High Pressure Gas Adsorption in Zeolite H-ZSM-5 [O] . Wenjin Ding, Giulia Baracchini, Michael Klumpp, 2016

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7. Valence Band Dependent Charge Transport in Bulk Molecular Electronic Devices Incorporating Highly Conjugated Multi-(Porphinato)Metal Oligomers [O] . Robert C. Bruce, Ruobing Wang, Jeff Rawson, 2016

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TEMPERATURE DEPENDENT TRANSPORT MECHANISMS OF NANOPOROUS ZEOLITE IN GAS DISCHARGE ELECTRONIC DEVICES

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