Analysis of the Temperature and Pressure Dependence of the ^<129>Xe NMR Chemical Shift and Signal Intensity for the Derivation of Basic Parameters of Adsorption as Applied to Zeolite ZSM-5
スポンサーリンク
概要
著者
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Imai Hirohiko
Division Of Medical Physics And Engineering Area Of Medical Technology And Science Course Of Health
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Kimura Atsuomi
Department Of Medical Physics And Engineering Division Of Health Sciences Graduate School Of Medicin
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Fujiwara Hideaki
Department Of Medical Physics And Engineering Division Of Health Sciences Graduate School Of Medicin
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KIMURA Atsuomi
Division of Medical Physics and Engineering, Area of Medical Technology and Science, Course of Healt
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FUJIWARA Hideaki
Division of Medical Physics and Engineering, Area of Medical Technology and Science, Course of Healt
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KAWATA Yoko
Division of Health Sciences, Graduate School of Medicine, Osaka University
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ADACHI Yuko
Division of Health Sciences, Graduate School of Medicine, Osaka University
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HAGA Saori
Division of Health Sciences, Graduate School of Medicine, Osaka University
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FUKUTOMI Junko
Division of Health Sciences, Graduate School of Medicine, Osaka University
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Haga Saori
Division Of Health Sciences Graduate School Of Medicine Osaka University
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Fukutomi Junko
Division Of Health Sciences Graduate School Of Medicine Osaka University
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Adachi Yuko
Division Of Health Sciences Graduate School Of Medicine Osaka University
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Kawata Yoko
Division Of Health Sciences Graduate School Of Medicine Osaka University
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Fujiwara Hideaki
Division Of Medical Physics And Engineering Area Of Medical Technology And Science Course Of Health
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Kimura Atsuomi
Division Of Medical Physics And Engineering Area Of Medical Technology And Science Course Of Health
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Fujiwara Hideaki
Division Of Medical Physics And Engineering Area Of Medical Technology And Science Course Of Health
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Kimura Atsuomi
Division Of Medical Physics And Engineering Area Of Medical Technology And Science Course Of Health
関連論文
- MR Imaging of Mouse Lung Using Hyperpolarized ^He : Image Acquisition and T_1 Estimation under Spontaneous Respiration
- A Simple Method for Quantitative Measurement and Analysis of Hyperpolarized ^Xe Uptake Dynamics in Mouse Brain under Controlled Flow
- Hyperpolarized ^Xe Phase-selective Imaging of Mouse Lung at 9.4T Using a Continuous-flow Hyperpolarizing System
- Analysis of the Temperature and Pressure Dependence of the ^Xe NMR Chemical Shift and Signal Intensity for the Derivation of Basic Parameters of Adsorption as Applied to Zeolite ZSM-5
- Analysis of Hyperpolarized ^Xe Dynamics in Mouse Lungs under Spontaneous Respiration for Separate Determination of Lung Functional Parameters and Relaxation Time
- Improvement of T_1 Determination of Hyperpolarized ^Xe in Mouse Brain under Controlled-Flow
- 3D Hyperpolarized ^Xe MRI of Mouse Lung at Low Xenon Concentration using a Continuous Flow-type Hyperpolarizing System : Feasibility for Quantitative Measurement of Regional Ventilation
- Origin of Dissolved-phase Hyperpolarized ^Xe Signal in the Mouse Chest Based on Experimental Evidence from Extensive Magnetic Resonance Measurements
- Hyperpolarized ^Xe MR Imaging with Balanced Steady-state Free Precession in Spontaneously Breathing Mouse Lungs