[S6] Evaluation, analysis, and prediction of energy related materials performance, (I) -Expectation of advanced technologies-(1) | 日本金属学会 2020年春期(第166回)講演大会

Session Details

Koubo Symposium

[S6]Evaluation, analysis, and prediction of energy related materials performance, (I) -Expectation of advanced technologies-(1)

Wed. Mar 18, 2020 9:00 AM - 5:30 PM JST
Wed. Mar 18, 2020 12:00 AM - 8:30 AM UTC

Rm. Q W935,3rd Flr., West Bldg.9

Chair:Atsushi UNEMOTO

座長時間
9：00～10：00 浅野
10:10～11:10 石川
11:20～12:20 宇根本
13:00～15:00 齋藤
15:10～16:25 木村
16:35～17:30 宮崎
※表示の講演時間には質疑応答時間も含みます。
（質疑応答時間５分、基調講演と外国人特別講演は5～10分）

9:00 AM - 9:20 AM JST(12:00 AM - 12:20 AM UTC)

[S6.1]In-situ synchrotron X-ray diffraction measurements of Nb-TiNi alloys

*ISHIKAWA Kazuhiro¹, WATANUKI Tetsu², MACHIDA Akihiko² (1. Kanazawa Univ., 2. National Institutes for Quantum and Radiological Science and Technology)

9:20 AM - 9:40 AM JST(12:20 AM - 12:40 AM UTC)

[S6.2]Local structural study on hydrogen absorbing alloys under hydrogen gas pressure by synchrotron radiation x-ray total scattering

*MACHIDA Akihiko¹, MAEJIMA Naoyuki², WATANUKI Tetsu¹, SAKAKI Kouji³, KIM Hyunjeong³, NAKAMURA Yumiko³ (1. QST, 2. QST(Present affiliation: Rikkyo Univ.), 3. AIST)

9:40 AM - 10:00 AM JST(12:40 AM - 1:00 AM UTC)

[S6.3]Hydrogenation-kinetics Improvement of Surface-modified Titanium by Milling with Organic Materials and the Microscopic Analysis by Cs-corrected STEM

*NAKAGAWA Yuki¹, SHINZATO Keita², HAMAMOTO So², ISOBE Shigehito¹, SHIBAYAMA Tamaki¹, MIYAOKA Hiroki³, ICHIKAWA Takayuki² (1. Eng. Hokkaido Univ., 2. Eng. Hiroshima Univ., 3. N-BARD Hiroshima Univ.)

10:00 AM - 10:10 AM JST(1:00 AM - 1:10 AM UTC)

Break

10:10 AM - 10:30 AM JST(1:10 AM - 1:30 AM UTC)

[S6.4]Synthesis of low costs Mg based hydrogen storage materials with nanometer-sized structure

*ASANO Kohta¹, Lu Yanshan¹, Charbonnier Véronique¹, Kim Hyunjeong¹, Sakaki Kouji¹, Nakamura Yumiko¹ (1. AIST)

10:30 AM - 10:50 AM JST(1:30 AM - 1:50 AM UTC)

[S6.5]Improved hydrogen desorption temperature of LiBH₄ by the addition of bismuth chalcogenides

*Pal Pratibha¹, Jain Ankur¹, Miyaoka Hiroki¹, Kojima Yoshitsugu¹, Ichikawa Takayuki¹ (1. Hiroshima Univ)

10:50 AM - 11:10 AM JST(1:50 AM - 2:10 AM UTC)

[S6.6]Ammonia Storage Properties of LiBH₄-NaBH₄System

*KANNA Machi¹, SUGINO Seiki¹, YAMAMOTO Keita², MIYAOKA Hiroki³, ICHIKAWA Takayuki^1,3 (1. Hiroshima Univ. Div. eng., 2. KRI, 3. Hiroshima Univ. N-BARD)

11:10 AM - 11:20 AM JST(2:10 AM - 2:20 AM UTC)

Break

11:20 AM - 12:00 PM JST(2:20 AM - 3:00 AM UTC)

[S6.7][Keynote Lecture] Development and Application of Old but New ZrNi-Based Hydrogen Storage Alloy as Nickel-Metal Hydride batteries

*MATSUYAMA Akihiro¹ (1. Aichi steel corporation)

12:00 PM - 12:20 PM JST(3:00 AM - 3:20 AM UTC)

[S6.8]Relation between Crystallite Size and Electrochemical Properties of AB₅ Hydrogen Storage Alloy

*YAMAGUCHI Masakuni¹, SAWA Haruo², MIYAOKA Hiroki^1,3, KOJIMA Yoshitugu^1,3 (1. Graduate school of advanced sciences of matter, Hiroshima Univ., 2. Chemio Corp., 3. N-BARD, Hiroshima Univ.)

12:20 PM - 1:00 PM JST(3:20 AM - 4:00 AM UTC)

Lunch

1:00 PM - 1:40 PM JST(4:00 AM - 4:40 AM UTC)

[S6.9][Keynote Lecture] In-operand measurement of lithium-ion batteries using X-ray and neutron

*Hirano Tatsumi^1,2 (1. Hitachi Ltd., 2. Kyoto Univ.)

1:40 PM - 2:10 PM JST(4:40 AM - 5:10 AM UTC)

[S6.10]Bismuth and Antimony based Materials for All Solid-State Lithium Ion Batteries

*Singh Rini¹, Kumari Pooja², Sharma Khushbu², Kumar Manoj², Jain Ankur¹, Ichikawa Takayuki¹ (1. Hiroshima Univ, 2. Malaviya National Institute of Technology Jaipur)

2:10 PM - 2:35 PM JST(5:10 AM - 5:35 AM UTC)

[S6.11]Investigation on Hydrogen Dissociation Pressure and Strain Energy of Metal Hydrides

*KOJIMA Yoshitsugu¹, YAMAGUCHI Masakuni² (1. N-BARD, Hiroshima Univ., 2. Graduate School of Advanced Sciences of Matter, Hiroshima Univ.)

2:35 PM - 3:00 PM JST(5:35 AM - 6:00 AM UTC)

[S6.12]Nitrogen Dissociation and Pseudo Catalytic Ammonia Synthesis by Lithium Alloy

*MIYAOKA Hiroki¹, SHINZATO Keita², TAGAWA Kentaro², KUMAR　SINGH Pankaj³, GI Hiroyuki², YAMAMOTO Kyohei⁴, KAMISAWA Masahiro⁴, NAKAGAWA Yuki⁴, WANG Yongming⁵, ISOBE Shigehito⁴, ICHIKAWA Takayuki^1,2 (1. Hiroshima Univ. N-BARD, 2. Hiroshima Univ. Eng., 3. Hiroshima Univ. AdSM, 4. Hokkaido Univ. Eng., 5. Hokkaido Univ. CRI)

3:00 PM - 3:10 PM JST(6:00 AM - 6:10 AM UTC)

Break

3:10 PM - 3:50 PM JST(6:10 AM - 6:50 AM UTC)

[S6.13][Keynote Lecture] Issues for development and commercialization of high-temperature thermoelectric power modules

*yonghoon Lee¹, Hirokuni Hachiuma¹, Yoshiharu Horita², Yoshisato Kimura² (1. KELK, 2. Tokyo Institute of Technology)

3:50 PM - 4:10 PM JST(6:50 AM - 7:10 AM UTC)

[S6.14]Prediction of thermal conductivity of half-Heusler-type thermoelectric materials by machine learning

*MIYAZAKI Hidetoshi¹, WATANABE Kosuke¹, KIMURA Koji¹, TAMURA Tomoyuki¹, MIKAMI Masashi², NISHINO Yoichi¹ (1. 名工大、2. 産総研)

4:10 PM - 4:25 PM JST(7:10 AM - 7:25 AM UTC)

[S6.15]Enhanced thermoelectric performance of Ag₂Se through stabilization of the orthorhombic structure

*OHTA Michihiro¹, JOOD Priyanka¹, CHETTY Raju¹ (1. AIST)

4:25 PM - 4:35 PM JST(7:25 AM - 7:35 AM UTC)

Break

4:35 PM - 4:55 PM JST(7:35 AM - 7:55 AM UTC)

[S6.16]Influence of Dislocation in Model Oxides on Electronic and Thermal Conduction

*YOSHIYA Masato¹, NISHIOKA Ryohei², SEKIMOTO Wataru³, WATANABE Naoki², FUJIII Susumu⁴, YOKOI Tatsuya⁵, NAKAMURA Atsutomo⁵, MATSUNAGA Katsuyuki⁵ (1. Osaka Univ., 2. Osaka Univ., 3. Osaka Univ., 4. JFCC, 5. Nagoya Univ.)

4:55 PM - 5:10 PM JST(7:55 AM - 8:10 AM UTC)

[S6.17]Ni-based alloy thermoelectric power generation module: Interlaboratory tests for the reproducibility assessment of power generation characteristics

*Chetty Raju¹, Ziolkowski Pawel³, Nagase Kazuo¹, Aihara Makoto¹, Jood Priyanka¹, Takazawa Hiroyuki^1,2, Blaschkewitz Przemyslaw³, Müller Eckhard^3,4, Ohta Michihiro¹, Yamamoto Atsushi¹ (1. AIST、2. TherMAT、3. DLR、4. Justus Liebig Univ. Giessen4)

5:10 PM - 5:30 PM JST(8:10 AM - 8:30 AM UTC)

[S6.18]Thermoelectric Materials Design and Development Achieved by Comprehension of Multi-Scale Microstructure Control Based on Phase Diagrams

*KIMURA Yoshisato¹, ZHOU Zhifang^1,2, CHAI Yaw　Wang¹, LEE Yonghoon³ (1. Tokyo Inst. of Tech., School of Mat. and Chem. Tech., 2. Tsinghua Univ., 3. KELK Ltd.)

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