ISEPD 2019 Sun Moon University, Korea - Conference Chair, ISEPD 2019
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ISEPD 2019 Sun Moon University, Korea
Anniversary ISEPD 2019
The 20th Interna�onal Symposium on
Eco-Materials Processing and Design
January 4-7, 2019
Sun Moon University, Korea
Organized by www.isepd2019.org
The organizing commi�ee of 20th Interna�onal Symposium of Eco-materials Processing and Design
Sun Moon University, Korea
Nagaoka University of Technology
Sichuan University, China
Global Research Laboratory (GRL) Program, NRF, Korea
ISEPD 2019
The 20th International Symposium on Eco-Materials Processing and Design
January 4-7, 2019
Sun Moon University, Korea
Table of Content Welcome Address 3 Organizing Committee 4 General Information 7 Session List and Presentation Guide 9 Plenary Lectures 10 Theme Lectures 24 Program Overview 28 Chair Person List 30 Technical Program 32 ISEPD2019 20th Anniversary Program Overview ISEPD2019 20th Anniversary Technical Program Details
The 20th International Symposium
Welcome Address
Dear Colleagues
On behalf of the organizing committee, we are delighted to
invite you to the 20th Anniversary of the International Sympo-
sium on Eco-materials Processing and Design (ISEPD2019)
which is going to be held in Sun Moon University, Korea from
January 4-7, 2019.
The ISEPD conference was established by the cooperation of
Korea, Japan, and China and has been expanding to the other
South-East Asian countries. In 2011, we had the first confer-
ence in Chiang Mai, Thailand outside of the core organizing countries: China, Japan and Korea.
After the successful conference in Chiang Mai, it was strongly recommended by the organizing
committee to hold the ISEPD conference in every 4 years in another Asian Country. However,
the ISEPD conference had been held in Hanoi, Vietnam in 2014; Kathmandu, Nepal in 2015;
and Jaipur, India in 2018.
It has been realized that the global challenge for sustainable development and resource-effi-
cient technologies have never been higher before. The international summit on eco-friendly and
sustainable materials technologies is a premium forum for researchers, and engineers to discuss
the most recent innovation, trends, challenges, and solutions adopted for greener technologi-
cal solutions. This event will bring together participants to share their vision on materials and
engineering technologies enabling minimization of the carbon footprint and maximization of
resource efficiency.
The technical program of ISEPD2019 will include the participation of globally renowned
experts, who will deliver plenary, keynote and thematic talks together with oral and poster pre-
sentations over the entire duration of the conference. This symposium, like its previous series,
will provide an opportunity for scientists, researchers, engineers and students to discuss and
cope with numerous issues regarding energy conservation, environment protection, advanced
materials processing, eco-materials and sustainable usage and so on. Hence, the symposium
will offer a valuable opportunity for gaining new knowledge on eco-materials for energy and
environment.
The organizing committee of ISEPD2019 will manage its best to make your participation
memorable and fruitful in all aspects. We look forward to welcome you for the 20th anniversary
of the ISEPD in the Sun Moon University, Asan, “the Hot-Spring City in Korea”.
Sincerely yours,
Prof. Soo Wohn Lee
Conference Chair, ISEPD2019
ISEPD 2019 3ISEPD 2019
Organizing Committee
General Chair:
Koichi Niihara, Nagaoka University of Technology, Japan
Kozo Ishizaki, Nagaoka University of Technology, Japan
Soo Wohn Lee, Sun Moon University, Korea
Yubao Li, Sichuan University, China
Conference Chair:
Soo Wohn Lee Sun Moon University, Korea
International Advisory Committee:
Alfredo-Aguilar Elguezabar, CIMAV, Mexico
Banh Tien Long, Hanoi University of Science and Technology, Vietnam
BoYoung Hur, Kyung Sang National University, Korea
WenBin Cao, University of Science and Technology Beijing, China
Hirotsugu Takizawa, Tohoku University, Japan
Jian-Feng Huang, Shaanxi University of Science and Technology, China
Jian-Feng Yang, Xi'an Jiaotong University, China
Lei Jiang, Beihang University, China
Jun Yang, Xi'an University of Architecture and Technology, China
Junichi Matsushita, Tokai University, Japan
Ke-Zheng Sang, Chang'an University, China
Leticia M. Torres-Martinaz, Univeridad Autonoma De Nuevro Leon, Mexico
Lian Gao, Shanghai Institute of Ceramics, China
ShaoXiong Zhou, Advanced Technology & Materials Co. Ltd, China
Simo-Pekka Hannula, Helsinki University of Technology, Finland
Xianhong Wang, ChangChun Institute of Applied Chemistry, China
Yasuo Uchiyama, Nagasaki University, Japan
ZhengYi Fu, Wuhan University of Technology, China
Hao Wang, Wuhan University of Technology, China
Wei Min Wang, Wuhan University of Technology, China
4 ISEPD 2019The 20th International Symposium
Hao Du, Institute of Metal Research, China
Dongfeng Xue, Changchun Institute of Applied Chemistry, China
Sun Jing, Shanghai Institute of Ceramic Technology, China
Yuhua Wang, Lanzhou University, China
Santi Maensiri, Suranaree University of Technology, Thailand
Ngakan P. G. Suardana, Udayana University, Indonesia
Ni Made Dwidiani MASc., Udayana University, Indonesia
Sanjaya Mathur, University of Cologne, Germany
KyungIl Moon, KITECH, Korea
Xiang Lan, Tsinghua University, China
Academic Committee:
Eiji Tani, Advanced Industrial Science and Technology (AIST), Japan
Feng Pan, Tsinghua University, China
Guan-Jun Qiao, Jiangsu University, China
Hao Wang, Wuhan University of Technology, China
Hojung Chang, DanKuk University, Korea
HyungSun Kim, Inha University, Korea
Jian-Feng Zhu, Shaanxi University of Science and Technology, China
KyungNam Kim, Gangwon University, Korea
Li Fu, Northwest Polytechic University, China
Makoto Nanko, Nagaoka University of Technology, Japan
Ru-Shi Liu, National Taiwan University
Kwang Ho Kim, Pusan National University, Korea
Masaya Matsuoka, Osaka Prefecture University, Japan
Shu Yin, Tohoku University, Japan
Yamato Hayashi, Tohoku University, Japan
Takashi Shirai, Nagoya Institute of Technology, Japan
Tadachika Nakayama, Nagaoka University of Technology, Japan
Takanori Watari, Saga University, Japan
Tohru Sekino, ISIR, Osaka University, Japan
WonYong Kim, KITECH, Korea
Yoshihiro Hirata, Kagoshima University, Japan
Soichiro Sameshima, Kagoshima University, Japan
ISEPD 2019 5ISEPD 2019
YoungHee Kim, KICET, Korea
Zeng Yi, Shanghai Institute of Ceramics, China
Zheng Xuebin, Shanghai Institute of Ceramics, China
Haiqing Yin, University of Science and Technology Beijing, China
Hiroshi Kageyama, Kyoto University, Japan
Katsuro Hayashi, Kyushu University, Japan
Kazuhiko Maeda, Tokyo Institute of Technology, Japan
Hikaru Ogino, Advanced Industrial Science and Technology (AIST), Japan
Kim Jin Jyeok, Chonnam National University, Korea
Hyeongtag Jeon, Hanyang University, Korea
Byungha Shin, Korea Advanced Institute of Science and Technology, Korea
Hyung Mi Lim, Korea Institute of Ceramic Engineering and Technology, Korea
Heon Lee, Korea University, Korea
Geun Young Yeom, Sung Kyunkwan University, Korea
Do-Kyun Kwon, Korea Aerospace University, Korea
Soon-Ku Hong, Chungnam National University, Korea
Li Oi Lun, Pusan national University, Korea
Local Committee:
Tae-Ho Kim, Sun moon University, Korea
Seung-Ho Kim, Sun moon University, Korea
Hak Soo Kim, Sun moon University, Korea
Yuwaraj K Kshetri, Sun Moon University, Korea
Gobinda Gyawali, Sun Moon University, Korea
Ikuo Ono, Sun Moon University, Korea
6 ISEPD 2019The 20th International Symposium
General Information
Symposium Venue:
Sun Moon University, Graduate School, Main Building 4th, 5th and 6th Floors.
Schedule: January 4: Registration, Welcome Party
January 5: Opening Ceremony, Plenary lectures, Technical Program
January 6: Technical Program, Banquet
January 7: Conference Tour
Registration: January 4/16:00-18:00, January 5/8:30-19:00, January 6/8:30-16:30
"Participants can register on-line or pay registration fee by credit card or by cash at the reg-
istration desk at the conference site. Registration fee is US$ 500 for regular participants and
US$ 400 for students. The registration fee includes conference tour.
Each participant will receive name card with receipt. Please set it into the name holder to be
used in all events. Tickets of banquet and tour are separated. A program book will be distribut-
ed on registration desk."
Welcome party:
Date and time: January 4, Friday, 18:00 – 20:00
Place: Diamond Hall, 3rd floor, Onyang Hotspring Hotel
All participants and accompanying persons are invited at the welcome party.
Lunch:
Date and Time: January 5(Saturday) / 12:30 – 14:00, 6(Sunday) / 12:40 – 14:00
Place: Cafeteria, 5th Floor, Graduate School, Main Building, Sun Moon University
Dinner:
Date and Time: January 5(Saturday) / 18:00 – 20:00
Place: Cafeteria, 5th Floor, Graduate School, Main Building, Sun Moon University
Banquet:
Date and Time: January 6(Sunday) / 19:00 – 21:00
Place: Room ZEUS, First floor, Madeleine Buffet, Asan
Conference Tour:
Conference tour to Hyundai Steel Company and Hyundai Motors on January 7, 9:30 – 18:00,
has been planned. Bus will depart from Onyang Hotspring Hotel at 9:30 AM on January 7.
ISEPD 2019 7ISEPD 2019
We will first visit the Hyundai Steel Company till 12:30. Having lunch at the cafeteria of the
company, we will then depart to visit the Hyundai Motors. For detail information please visit
the registration desk of the conference site.
Poster Award:
The distinguished poster papers will be selected and awarded by the academic committee of
the ISEPD 2019. The names of the winners will be displayed on the registration desk and the
award will be distributed during closing ceremony on January 6, 18:30-19:00.
Publication:
The participants who present their work at the ISEPD2019 will have opportunity to submit
their work in the special issue of journal Nanotechnology published by IOP Publishing (http://
iopscience.iop.org/). The paper will be accepted only after a through peer review process.
Time line for the paper submission will be announced during the conference.
Internet access:
Free Wi-Fi will be available in the conference site. Please ask for Login ID and Password in
the registration desk.
Contact:
Prof. Tae Ho Kim
Sun Moon University
Department of Environmental and Bio-Chemical Engineering, Asan-si, 31460 South Korea
Ph: +82-41-530-2882
Fax: +82-41-530-2840
Email: snowman@sunmoon.ac.kr
Conference URL: http://www.isepd2019.org/
8 ISEPD 2019The 20th International Symposium
Session List and Presentation Guide
A. Green processing of eco-materials: environment friendly, resource and energy saving pro-
cesses, etc.
B. Advanced eco-materials: nanostructure, hybrids, porous materials, bio-materials, etc.
C. Energy conversion: batteries, capacitors, solar cells, fuel cells, etc.
D. Environmental protection materials: catalysts, photocatalysts, adsorbents, sensors, etc.
E. Long-term use materials: long durability, high reliability, heat resistance, wear resistance,
coating, self-healing, maintenance free, etc.
S. Special session of "Mixed Anion compounds": oxynitride, oxyhidride etc., toward photo-
catalyst, ionic conductor, fuel cell, thermoelectric material, phosphor, dielectric material
and so on.
Oral Presentation
Time allocation for presentation
Plenary lecture: 50 min (including 5 min for discussion) at large hall.
Theme lecture: 40 min (including 5 min for discussion) at large hall.
Keynote talk: 30 min (including 5 min for discussion) at session rooms.
Invited talk: 25 min (including 5 min for discussion) at session rooms.
General oral talk: 20 min (including 5 min for discussion) at session rooms.
Equipment for presentation
Oral presentation rooms will be equipped with the following items:
- 1 LDC Projector
- 1 Laser Pointer
- 1 Screen
- 1 Microphone
We recommend you to bring your own PC for the presentation.
Poster Presentation
The poster size should be within 150 cm length and 90 cm width. The poster number will be
indicated on the board. The posters are requested to mount and remove as follows:
Mount: by 12:00, January 5, Remove: by 20:30 January 5.
Any posters remaining after 20:00 Jan 5 will be removed and disposed.
ISEPD 2019 9ISEPD 2019
Plenary Lecture 1
Halide Perovskite Photovoltaics: History, Progress and Prospect
Nam-Gyu Park
School of Chemical Engineering, Sungkyunkwan University (SKKU), Suwon 440-746, Korea
E-mail address: npark@skku.edu
Abstract
Since the first report on the high efficiency, stable solid-state perovskite solar cell (PSC) in
2012 by our group, following two seed works on perovskite-sensitized liquid junction solar
cells in 2009 and 2011, PSC demonstrated its power conversion efficiency (PCE) of 22.7% in
2017. According to Web of Science, publications on PSC increase exponentially since 2012
and total number of publications reaches about 9,000 as of May, 2018, which is indicative
of a paradigm shift in photovoltaics. Although high photovoltaic performance was achieved,
current-voltage hysteresis has been issued because it is related to stability of PSC. In this talk,
methodologies to remove hysteresis are described. Interlayers at heterojunction are found to
play important role in reducing hysteresis and improving stability. Manipulation of Frenkel
defect is a universal approach toward hysteresis-free PSC. We have discovered novel meth-
ods for large-area perovskite coating and phase transformation in perovskite, which will be
discussed in detail. In addition to photovoltaics, perovskite can be used to other applications.
Long charge diffusion length and high energy stability of organic-inorganic halide perovskite
are suitable for low-dose, high resolution X-ray imaging. We demonstrated X-ray image using
millimeter thick perovskite film based on multicrystalline perovskite crystal with single-crys-
tal-like optoelectronic properties. For heading toward Shockley–Queisser limit, research
direction in PSC is proposed in this talk.
10 ISEPD 2019The 20th International Symposium
About Professor Nam-Gyu Park
Nam-Gyu Park is professor and SKKU-Fellow at School of
Chemical Engineering, Sungkyunkwan University since 2009.
He received his B.S. M.S. and Ph.D. from Seoul National
University in 1988, 1992 and 1995, respectively. He worked at
ICMCB-CNRS, France, and NREL, USA, from 1996 to 1999.
He was director of solar cell research center at KIST from
2005 to 2009 and principal scientist at ETRI from 2000 to
2005 before joining Sungkyunkwan University. He is a fellow
of Korean Academy of Science and Technology (KAST) since
2017. He is pioneer of solid-state perovskite solar cell, which
was first developed in 2012. He was selected as a New Class
of Nobel Prize-Worthy Scientists in 2017. He awarded Ho-Am
prize in 2018.
ISEPD 2019 11ISEPD 2019
Plenary Lecture 2
Toward the Increasing in Materials Innovation
through Combining Nanocomposite and GIGAKU Concepts
Koichi Niihara
EDI in Nagaoka University of Technology and ISIR in Osaka University
Nagaoka and Osaka, Japan,
Abstract
Nanocomposite concept was first proposed in 1981 by KN when working at Virginia Poly-
tech in USA as visiting professor. After this proposal, the R&D on Nanocomposite has been
continued at Tohoku University, National Defense Academy, Osaka University and Nagaoka
University of Technology (NUT) for over 30 years. According to these researches, the nano-
composite structure and concept was widely applied not only in ceramic materials but also
metal and polymer materials. The controlling level in structure was moved from nano level
to molecular and lattice level, and the function to improve was changed from strong mechan-
ical property to electric and magnetic property, finally targeting the multi functionality. And
various kind of multifunctional materials were successfully developed and industrialized in
various engineering fields. After moved to NUT in 2005, the combining nanocomposite and
GIGAKU concepts made the speeding-up of new materials development based on nanocom-
posite concept.
In the presentation, at first, I would like to give the brief explanation of GIGAKU concept
born and developed at NUT, and introduced some multifunctional ceramic materials success-
fully developed by GIGAKU and Nanocomposite concepts
12 ISEPD 2019The 20th International Symposium
About Professor Koichi Niihara
Koichi Niihara is currently the Honorary Professor of Nagaoka
University of Technology and Osaka University, Japan. He
was the 7th President of Nagaoka University of Technology
(2009-2015). Prior to this, he served for five years as professor
of Nagaoka University of Technology. From 1989 to 2005 he
was professor at Institute of Scientific and Industrial Research
at Osaka University, Japan. He also served as research associ-
ate and associate professor at Tohoku University in 1968-1986.
He was also visiting professor at Materials Science and Engi-
neering of Virginia Tech in 1989 - 1981.
For over decades, he has been conducting research in the field
of materials science with focus on ceramics materials. He
authored and co-authored more than 1000 papers in scientific
journals and hold more than 140 patents. He was given numer-
ous awards and recognitions including ECD Bridge Building
Award in 2006, John Jepson Award in 2010 and Distinguished
Life Member Award in 2011 all given by American Ceramic
Society. He was elevated to the grade of Fellow of the Amer-
ican Ceramic Society, a member of the European Academy of
Sciences and an Academician Member of the World Academy
of Ceramics. He was the president of the 3rd International
Congress on Ceramics, the president of the Ceramic Society of
Japan and president of the Asia-Oceania Ceramic Federation.
He was also playing important roles in international meeting
on ceramics. He organized over 40 international meetings
on ceramics and ceramics related materials as a chair. Most
impacted meeting was the 3rd International Congress on Ce-
ramics (ICC3) held from November 14 to 18, 2010 in Osaka,
Japan, in which there were 1864 scientific presentations and 54
exhibition booths by over 2400 participants from 56 countries.
ISEPD 2019 13ISEPD 2019
Plenary Lecture 3
Smart Interfacial Materials from Super-Wettability
to Binary Cooperative Complementary Systems
Lei Jiang
Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190,
China
School of Chemistry and Environment, Beihang University, Beijing 100191, China
* E-mail: jianglei@iccas.ac.cn
Abstract
Learning from nature and based on lotus leaves and fish scale, we developed super-wettability
system: superhydrophobic, superoleophobic, superhydrophilic, superoleophilic surfaces in air
and superoleophobic, superareophobic, superoleophilic, superareophilic surfaces under water
[1]. Further, we fabricated artificial materials with smart switchable super-wettability [2], i.e.,
nature-inspired binary cooperative complementary nanomaterials (BCCNMs) that consisting
of two components with entirely opposite physiochemical properties at the nanoscale, are
presented as a novel concept for the building of promising materials [3-4].
The smart super-wettability system has great applications in various fields, such as self-clean-
ing glasses, water/oil separation, anti-biofouling interfaces, and water collection system [5].
The concept of BCCNMs was further extended into 1D system. Energy conversion systems
that based on artificial ion channels have been fabricated [6]. Also, we discovered the spider
silk’s and cactus's amazing water collection and transportation capability [7], and based on
these nature systems, artificial water collection fibers and oil/water separation system have
been designed successfully [8].
Learning from nature, the constructed smart multiscale interfacial materials system not only
has new applications, but also presents new knowledge: Super wettability based chemistry
including basic chemical reactions, crystallization, nanofabrication arrays such as small mole-
cule, polymer, nanoparticles, and so on [9].
References:
1. (a) Adv. Mater. 2014, 26, 6872-6897.. (b) J. Am. Chem. Soc. 2016, 138, 1727-1748.
2. Adv. Mater. 2008, 20 (15), 2842-2858.
3. Pure Appl. Chem. 2000, 72 (1-2), 73-81.
4. Small. 2015, 11, 1071-1096.
5. Adv. Mater. 2011, 23 (6), 719-734.
6. (a)Chem. Soc. Rev. 2011, 40 (5), 2385-2401; (b) Acc. Chem. Res. 2013, 46 (12), 2834-2846; (c) Adv. Mater. 2010, 22 (9), 1021-
1024. (d) ACS Nano 2009, 3 (11), 3339-3342; (e) Angew. Chem. Int. Ed. 2012, 51 (22), 5296-5307;
7. (a) Nature 2010, 463 (7281), 640-643; (b) Nat Commun 2012, 3, 1247.
8. (a) Nat Commun 2013, 4, 2276; (b) Adv. Mater. 2010, 22 (48), 5521-5525.
9. (a) Chem. Soc. Rev. 2012, 41 (23), 7832-7856; (b) Nat. Commun. 2015, 6, 6737. (c) Adv. Funct. Mater. 2011, 21 (17), 3297-3307;
(d) Adv. Mater. 2012, 24 (4), 559-564; (e) Nano Research 2011, 4 (3), 266-273; (f) Soft Matter 2011, 7 (11), 5144-5149; (g Soft
Matter 2012, 8 (3), 631-635; (h) Adv. Mater. 2012, 24 (20), 2780-2785; (i) Adv. Mater. 2013, 25 (29), 3968-3972; (j) J. Mater.
Chem. A 2013, 1 (30), 8581-8586; (k) Adv. Mater. 2013, 25 (45), 6526-6533
14 ISEPD 2019The 20th International Symposium
About Professor Lei Jiang
Lei Jiang received his B.S. degree in solid state physics (1987),
and M.S. degree in physical chemistry (1990) from Jilin Uni-
versity in China. From 1992 to 1994, he studied in the Uni-
versity of Tokyo in Japan as a China-Japan joint course Ph.D.
student and received his Ph.D. degree from Jilin University of
China with Prof. Tiejin Li. Then, he worked as a postdoctoral
fellow in Prof. Akira Fujishima’s group in the University of
Tokyo. In 1996, he worked as researcher in Kanagawa Acad-
emy of Sciences and Technology, Prof. Hashimoto’s project.
In 1999, he joined Institute of Chemistry, Chinese Academy of
Sciences (CAS). In 2015, he moved to the Technical Institute
of Physics and Chemistry, CAS. Since 2008, he also served as
the dean of School of Chemistry and Environment in Beihang
University. He was elected as members of the Chinese Acade-
my of Sciences and The World Academy of Sciences in 2009
and 2012. In 2016, he also elected as a foreign member of the
US National Academy of Engineering. He has been recognized
for his accomplishments with Humboldt Research Award (Ger-
many, 2017), Nikkei Asia Prize (Japan, 2016), MRS Mid-Ca-
reer Researcher Award (USA, 2014), National Natural Science
Award (China, 2005), and many other honors and awards. He
has published over 500 papers including 3 papers in Nature, 1
paper in Science, 1 paper in Nature Nanotechnology, 1paper in
Nature Reviews Materials, 2 paper in Nature Materials, 6 pa-
pers in Natural Communication, 5 papers in Science Advance,
3 papers in Chem. Rev., 7 papers in Chem. Soc. Rev., 6 papers
in Acc. Chem. Res., 47 papers in Angew. Chem. Int. Ed., 32
papers in J. Am. Chem. Soc., and 129 papers in Adv. Mater.,
the works have been cited more than 60000 times with an H
index of 121.
ISEPD 2019 15ISEPD 2019
Plenary Lecture 4
Research and Development of Ecomaterials in China
NIE Zuoren*, LIU Yu, Sun Boxue
National Engineering Laboratory for Industrial Big-data Application Technology, Beijing
University of Technology
College of Materials Science and Engineering, Beijing University of Technology
zrnie@bjut.edu.cn
Abstract
The traditional research and development of materials focus on the improvement of service
performance, but often neglect the large amount of energy consumption and pollution emis-
sion caused by materials production and related stages (e.g. mining, transportation and so
on). To solve this problem, the word “Eco-materials”, as the abbreviation of environmental
conscious materials or ecological material, was first proposed in Oct. 1990 and had been
widely accepted by society and materials industry in recent year. The concept of Eco-mate-
rials suggests that the development of materials should not only consider the service perfor-
mance, but also try best to decrease the environmental impact during the whole life cycle. In
this presentation, a brief review of the recent advances in the field of Ecomaterials in China
is performed, giving opinions on the current activities and suggesting possible future cours-
es of action. Moreover, as one of the most important basic researches of Eco-material, Life
Cycle Assessment (LCA) is an effective tool that not only gives a detailed information about
environmental profiles of a material or a product, more importantly, the value of life cycle
thinking lies in its ability to provide the decision–making basis for sustainable development,
making the products, industry and even the whole industry chain act more in line with the
principles of sustainable development. This presentation also provides a review of recent de-
velopments of LCA methodology and applications in China, including Chinese materials LCA
database (SinoCenter Database), the characterization models of land use and abiotic resource
depletion, and also several typical case studies in China.
16 ISEPD 2019The 20th International Symposium
About Professor NIE Zuoren
Academician of Chinese Academy of Engineering, Yangtze
River Scholars, gainer of National Science Foundation for Dis-
tinguished Young Scholars, vice president of Beijing Universi-
ty of Technology. He participated in various activities related
to Ecomaterials and Eco-processing development for many
years, including rare-earth refractory metal, electron emit ma-
terials, nonferrous metals materials and recycling, etc. He was
also actively involved in life cycle assessment (LCA) of ma-
terials and products as well as materials flow analysis (MFA).
He currently serves on the editorial boards of many journals
including The International Journal of Life Cycle Assessment,
Transaction of Nonferrous Metal Society of China, etc.
Professor NIE was the Chairman of Ecomaterials Division of
C-MRS. He was awarded twice the second prize of National
Award for Technological Invention, the first prize of National
Award for Progress in Science and Technology and also twice
the second prize, and the second prize of National level teach-
ing achievement. He was LCA scientists invited to work with
Japanese institutions for NEDO project, JSPS-RFTF project,
etc. LCA scientist for the first LCA projects in China --Nation-
al High-Tech. R&D (863) Program. He was Academic board
Committee of International Conferences on Ecomaterials,
International Conferences on EcoBalance, IUMRS-ICAM, etc,
and was invited speaker at these international conferences.
ISEPD 2019 17ISEPD 2019
Plenary Lecture 5
Electrochemical and Molecular Approaches for Artificial Photosynthesis
Kyung Byung Yoon
Korea Center for Artificial Photosynthesis, Department of Chemistry, Sogang University,
Seoul 04107, Korea
Abstract
The ultimate goal of artificial photosynthesis research is to develop methods to produce
carbon-based gaseous and liquid fuels such as carbon monoxide, methane, and methanol
from carbon dioxide and water using solar energy as the energy source. In particular for the
methods to be commercially viable the overall costs for the production processes should be
low enough so that the processes can compete with the current fossil fuel based processes.
The fastest and the most feasible approach would be to combine solar cells and electrochem-
istry. In other words to electrochemically reduce CO2 to CO, CH4, C2H4, and alcohols such
as methanol, ethanol, propanol, and others using the electricity produced by solar cells. For
this, to be economically feasible, two electrode systems should be used, the electrochemical
reaction should be stable for months, and the electrical energy to chemical energy conversion
efficiency (ECCE) should be over high (>70%). Our recent results arising from our efforts to
address the above issues will be presented. Another simplest strategy to commercialize arti-
ficial photosynthesis is to develop artificial molecular enzymes which can carry out artificial
photosynthesis by merely dissolving them into the water pool placed under the sunlight. To
make this strategy to be feasible the effective molecular water oxidation catalysts and CO2
reduction catalysts should be developed and the molecular system consisting of a water oxi-
dation catalyst, a photopump (photosensitizer), and a CO2 reduction catalyst should be devel-
oped. Our recent efforts to address this issue will also be presented
18 ISEPD 2019The 20th International Symposium
About Professor Kyung Byung Yoon
Kyung Byung Yoon earned his PhD (1989) in the field of inor-
ganic chemistry. Since 1998, he is a full professor of Sogang
University. Since 2009, he has been the Director of the Korea
Center for Artificial Photosynthesis (KCAP) supported by the
Ministry of Science and Technology. He is also serving as a
member of the Editorial Board of Energy and Environmental
Science (EES), Section Editor of Current Opinion in Colloid
and Interface Science. He is currently Fellow of Royal Society
of Chemistry and Global Fellow of American Chemical Soci-
ety.
ISEPD 2019 19ISEPD 2019
Plenary Lecture 6
Development of Metal-dispersed Ceramic-based Composites Tuned for
Multi-task Application
Shengfang Shi1 and Tohru Sekino1*
1
The Institute of Scientific and Industrial Research, Osaka University, Ibaraki 567-0047,
Osaka, Japan
*sekino@sanken.osaka-u.ac.jp
Abstract
We have focused on fabrication of fine-titanium (Ti) dispersed alumina (Al2O3) ceramic
composites by using conventional but controlled powder-metallurgical method. To realize
fine-Ti dispersion into Al2O3 homogeneously, we selected TiH2 as the source of metallic Ti
dispersion. Fine-grained TiH2 particles could be obtained by atmosphere-controlled ball-mill-
ing process together with Al2O3 powder. Obtained mixtures were hot-press sintered under
the vacuum condition that makes “in-situdispersion” of Ti within Al2O3 host during sintering
process. The interfacial reaction in obtained Al2O3/0~30vol%Ti composites was minimized
by this in-situ hot-pressing. Particle size of Ti was varied depending on the amount, and the
composites contained small amount of nano-sized Ti particles as well as single-micronmeter
Ti. Fracture toughness was enhanced by dispersing Ti due mainly to the crack deflection and
bridging by Ti. Electrical resistivity was drastically decreased above 15vol% of Ti due to
the percolation of conductive Ti phase1,2. As the reuslt, electro-discharge machining for the
composites could be possible. In addition, composites surface could be modified to establish
nanostructured titania, which realized the addition photocatalytic propertis on the Al2O3-based
composites3.4. Further, room-temperature crack-healing has been successfully demonstrated
for the composite at the first time5. From these results, it can be considered that the fine-Ti
dispersion into Al2O3 ceramic realized multifunctional composite that can be utilized for mult-
task applications including nobel eco-application of structural components. Detailed relation-
ships between processes, micro/nano/interface structure, mechanical, electrical, photocatalytic
properties will be discussed.
References:
(1) S. Shi, S. H. Cho, T. Goto, T. Sekino, J. Am. Ceram. Soc., 101 (2018) 3181-3190.
(2) S. Shi, S. H. Cho, T. Goto, T. Kusunose, T. Sekino, Ceram. Int., 44 (2018) 18382–18388.
(3) S. Shi, T. Goto, S. H. Cho, H. Hashimoto, S. Yin, S.W. Lee, T. Sekino, J. Ceram. Soc.
Japan, 126[10] (2018) 847-851.
(4) S. Shi, T. Goto, S. H. Cho, T. Sekino, J. Ceram. Soc. Japan, 126[11] (2018) 877-884
(5) S. Shi, S. H. Cho, T. Goto, T. Sekino, J. Am. Ceram. Soc., (2018), In Press.
Keywords: alumina, titanium, nanocomposite, mechanical properties, electrical conductivity,
percolation, multifunctions
20 ISEPD 2019The 20th International Symposium
About Professor Tohru Sekino
Personal
Given Name: Tohru Sekino
Nationality: Japanese
E-mail: sekino@sanken.osaka-u.ac.jp
Positions:
The Institute of Scientific and Industrial Research (ISIR), Osaka
University, Professor
Mailing address: Mihogaoka 8-1, Ibaraki, Osaka 567-0047, Japan
Telephone: +81-6-6879-8435
Education
B.S.: Department of Applied Chemistry, Faculty of Engineering,
Tohoku University (March 1988)
M.S.: Department of Materials Chemistry, Faculty of Engineering,
Tohoku University (March 1990)
Dr. of Engineering, Osaka University (May 1997)
Work Experience
1990.4 ~ 1999.3: Research Associate, ISIR, Osaka University
1999.4 ~ 2007.10: Associate Professor, ISIR, Osaka University
2007.11~2014.3: Associate Professor, IMRAM, Tohoku University
2008.4~2013.9: Part-time Lecturer, Sendai National College of
Technology
2013.4 ~ 2013.9: Lecturer (Part-time), Nagasaki University
2014.4 ~ present: Professor, ISIR, Osaka University
ISEPD 2019 21ISEPD 2019
Plenary Lecture 7
Designing Catalysts for Water-Splitting Reactions: Oxide-Oxide Bilayers
as High Efficiency Photoelectrocatalysts Through Electronically Coupled
Phase Boundaries
Sanjay Mathur
Chair, Inorganic and Materials Chemistry
University of Cologne, Greinstrasse 6, D-50939 Cologne, Germany
E-mail: sanjay.mathur@uni-koeln.de
Abstract
Metal oxide nanostructures with hetero-contacts and phase boundaries offer unique platform
for designing materials architectures for energy harvesting applications. As viable alternative
to water electrolysis, photoelectrochemical (PEC) water splitting has emerged as a competi-
tive technology being capable of converting solar energy directly into chemical energy using
stable and efficient photocatalysts for solar hydrogen production. Nanostructured metal oxides
and composite materials are promising candidates for effective photoanodes, which are fab-
ricated using CVD, PE-CVD and ALD techniques for producing multilayered electrodes as
oxygen evolution reaction catalysts.
Besides the size and surface effects, the modulation of electronic behaviour due to junction
properties leads to modified surface states that promote selective decomposition of analytes
and adsorbates. The growing possibilities of engineering nanostructures in various composi-
tions (pure, doped, composites, heterostructures) and forms has intensified the research on the
integration of different functional material units in a single architecture to obtain new pho-
tocatalytic materials. In addition, new concepts of enhancing charge transduction by surface
functionalization are promising strategies to promote specific chemical interactions, however
the challenge related to reproducible synthesis and device integration of nanomaterials persist.
This talk will present how chemically grown and designed thin films and bilayers of different
metal oxides unfold new material properties, which can be transformed into advanced materi-
al technologies.
22 ISEPD 2019The 20th International Symposium
About Professor Sanjay Mathur
Sanjay Mathur is the Director of the Institute of Inorganic
Chemistry at the University of Cologne in Germany. He is also
the Director of the Institute of Renewable Energy Sources at
the Xian Jiao Tong University, Xian, China and a World Class
University Professor at the Chonbuk University in Korea. He
is a Visiting Professor in the Institute of Global Innovation
Research at TUAT. He also holds Visiting Professorships at
the Central South University, China and National Institute of
Science Education and Research, India.
His research interests focus on application of nanomaterials and advanced ceramics for energy
technologies. He holds ten patents and has authored/ co-authored over 430 original research
publications and has edited several books. He is a Titular Member of the International Union
of Pure and Applied Chemists (IUPAC) and a member of the ISO Technical Committee on
Nanotechnologies. He serves as the Editor for Journal of Electroceramics, and as the Princi-
pal Editor of J. Mater. Research. He is also an Associate Editor for NanoEnergy, International
Journal of Applied Ceramics Technology, International Journal of Nanoscience and Nanoma-
terials. He is also on the Editorial Boards of journals International Journal of Nanotechnology,
Materials, Journal of Ceramic Science and Technology.
He was awarded the Honorary Doctorate of the Vilnius University in 2016. He is an Acade-
mician of the World Academy of Ceramics and Fellow of the American Ceramic Society. He
also acts as the “International Ambassador” of the University of Cologne. He is the recipient
of the Global Star and Bridge-Building awards of the American Ceramic Society, Lee Hsun
award of the Chinese Academy of Science and Surface Innovator Award of the SSPC and
AkzoNobel. He is a member of the Advisory Board of the Federation of German Materials
Science (DGM) and also serves on the Board of the German Chemical Industries Network
CHEMCOLOGNE. He is on the Review Advisory Panel of the CSIR, South Africa and serves
as International Advisor to Korean Institute of Industrial Technology (KITECH), Incheon,
Korea and Vice-President of the Thin Film Society, Singapore. He is on the ACerS Board of
Directors. He has been elevated to the ASM class of fellows of 2017. He is the Chair of the
Kavli Awards Subcommitee of the Materials Research Society. Since 2018, he also chairs the
Academic Affairs Committee of the Materials Research Society. He was the RMIT Interna-
tional Fellow (2018) at the RMIT University, Melbourne.
ISEPD 2019 23ISEPD 2019
Theme Lecture 1
ECO-materials Characterization using Neutron
T. Kamiyama1,2,3,*, M. Yonemura1,2,3, S. Torii1,2, Y. Ishikawa1,4, S. Lee1, M. Hagihara1, P. Miao1,
W. Peng1,5, W. Rika1,3, Z. Tan1,3, N. I. P. Ayu1,3 and S. Song 1,3
1 Institute of Materials Structure Science, High Energy Accelerator Research Organization
(KEK), 203-1, Tokai, Ibaraki 319-1106, Japan
2 J-PARC Center, KEK, 203-1, Tokai, Ibaraki 319-1106, Japan
3 Sokendai, 203-1, Tokai, Ibaraki 319-1106, Japan
4 CROSS Neutron Science and Technology Center, 162-1, Tokai, Ibaraki 319-1106, Japan
5 University of Science and Technology of China, Hefei, Anhui 230029, China
E-mail: takashi.kamiyama@kek.jp
Abstract
Neutron scattering is more sensitive to detect light elements than X-ray scattering since
neutron atomic scattering factors do not depend on atomic numbers. ECO-friendly materials,
such as Li-ion batteries, consist of light elements, and neutron scattering gives more adequate
information in structural variation of some materials. After general introduction to neutron,
we report here on recent progress in our studies on some materials such as Li-ion battery ma-
terials [1] and thermoelectric materials [2,3].
Opportunity to use neutron is increasing in Asia-Pacific region since new facilities have
started in China (CSNS) and Japan (J-PARC) in addition to existing facilities, OPAL (Aus-
tralia), HANARO (Korea), etc. Neutron methods (scattering, imaging, etc.) are powerful for
the studies on the relationship between multiscale structures and the function of materials.
We will also report on materials with negative/zero thermal expansion [4] and with tempera-
ture-invariant Young modulus.
[1] S. Taminato, et al., Scientific Reports, 2016, 6, 28843.
[2] P. Wu, et al., Phys. Rev. B., 2018, 98, 094305.
[3] W.Rika, et al., Physica B, 2017, https://doi.org/10.1016/j.physb.2017.11.077, online.
[4] Ping Miao, et al., Adv. Mater., 2017, 29, 1605991.
24 ISEPD 2019The 20th International Symposium
About Professor Takashi Kamiyama
Personal
Given Name: Takashi Kamiyama (Male)
Date of Birth: Sep. 1, 1957
Nationality: Japanese
E-mail: takashi.kamiyama@kek.jp
Positions:
High Energy Accelerator Research Organization (KEK), Professor
School of High Energy Accelerator Science, Sokendai (Graduate University for
Advanced Studies), Dean
Hokkaido University, Professor (concurrent position)
Address: High Energy Accelerator Research Organization, 203-1, Tokai, Ibaraki
319-1106 JAPAN
Education
Department of Physics, Tohoku University, PhD in 1987
Carrier
1987 – 1988 Research Assistant, Laboratory of Nuclear Science, Tohoku University.
1988 – 2000 Lecturer, Institute of Materials Science, University of Tsukuba.
2000 – 2005 Assoc. Prof., High Energy Accelerator Organization
2003 – 2005 Assoc. Prof., Graduate University for Advanced Studies
2005 – present Prof., High Energy Accelerator Organization
2005 – present Prof., Sokendai (Graduate University for Advanced Studies) (concurrent position)
2006 – present Prof. of Hokkaido University (concurrent position)
2007 – 2014.3 Leader of Neutron Science Section of Materials and Life Science Division in J-PARC
2014.4 –2016.3 Dean of Sokendai, School of High Energy Accelerator Science
2016.4 –2018.3 Deputy Dean of Sokendai, School of High Energy Accelerator Science
2018.4 –present Dean of Sokendai, School of High Energy Accelerator Science
Committee Leadership
The Crystallographic Society of Japan, Steering Committee Member 2003 – 2008, 2010 - present
The Crystallographic Society of Japan, Chief Editor of Journal 2008.4 – 2010.3
International Union of Crystallography, Neutron Scattering Committee Member 2005 – 2011
Asia Crystallography Association (AsCA), Council member 2011- present
The Japanese Society for Neutron Science, Steering Committee Member 2003 – 2007, 2009-2012, 2018-
Research Interest
Neutron powder diffraction, Crystallography, Crystallographic software development,
Structure-function relationship in advanced materials: Li-ion batteries, thermoelectric materials, multiferroic
materials, magnetic materials, superconductors, etc.
Research projects
Leader of Structure Science Group of J-PARC & Institute of Materials Science, KEK, and having two neutron
powder diffractometers: SuperHRPD and SPICA
Leader of development of neutron powder diffraction data analyses software suite, Z-Code
Advisor of the Neutron Materials Diffractometer, iMATERIA
Member of neutron scattering in RISING project (R&D for New Generation Batteries) of NEDO
Awards
2007 CrSJ Academic Awards (The Crystallography Society of Japan)
2008 Sawamura Award: the Best Year's Paper Award (The Iron and Steel Institute of Japan)
ISEPD 2019 25ISEPD 2019
Theme Lecture 2
Modification of TiO2 as an Efficient Photocatalyst
Wenbin CAO, Peng SUN, Jun ZHANG, Wenxiu LIU
School of Materials Science and Engineering, University of Science and Technology Beijing,
Beijing 100083, China
Abstract
Many strategies have been utilized to improve the photocatalytic performance of TiO2 based
photocatalyst, such as morphology tailoring, phase composition modulation, high-energy
facets exposing, and semiconductor coupling. In addition, intensive effort has been devoted to
shift its optical response from UV light to visible light. Nitrogen doping has been considered
as one of the most effective approaches to do so. All of these methods play important roles
in improving the photocatalytic activities of TiO2 and developing applications. In this paper,
facile hydrothermal or solvothermal method has been used to synthesize TiO2 nanostructures
with desired morphology, phase composition, exposed high-energy facets and nitrogen dop-
ing. The correlations between these properties and the photocatalytic performance have been
investigated.
Furthermore, nitrogen doped TiO2 powders have been prepared in mass scale by one-pot hy-
drothermal method at mild conditions. The as-synthesized samples were composed of mono-
lithic anatase phase identified by XRD. The grain size was estimated as about 12 nm both
by TEM images analysis and Scherrer's calculation. The specific surface area was about 200
m2/g. The photocatalytic performance of the nitrogen doped TiO2 powders was characterized
by photodegrading phenol, typical dyes, and sterilizing bacteria in aqueous solution under
visible light irradiation.
26 ISEPD 2019The 20th International Symposium
About Professor Wenbin CAO
Wenbin CAO earned his PhD (1998) in the field of materials
science. Since 2006, he is a full professor of University of Science
and Technology Beijing. He is an editor of Journal of Materials
Science and Engineering, Journal of Inorganic Materials. At pres-
ent, he is a board member of the Photocatalysis Industry Asso-
ciation of China. He has published more than 200 peer reviewed
papers. His current research interests include electromagnetic wave
absorbing materials, development efficient photocatalyst by using
nanocrystalline TiO2 based oxides through morphology tailoring,
phase composition modulation, high-energy facets exposing, and
semiconductor coupling.
ISEPD 2019 27ISEPD 2019
ISEPD2019 20th Anniversary Program Overview
January 4, 2019
16:00~18:00 Registration (Onyang Hot Spring Hotel, Diamond Hall, front desk)
18:00~20:00 Welcome Party, Onyang Hot Spring Hotel (Diamond Hall)
January 5, 2019 (Registration, 8:30~19:00)
Program
Time
Room 405 Room 406 Room 407 Room 412 Room 413
09:00~09:30 Opening Ceremony, 6th floor, Room No. 606
Plenary Lecture 1
09:30~10:20 Halide Perovskite Photovoltaics: History, Progress and Prospect
Nam-Gyu Park (Sungkyunkwan University, Korea)
10:20~10:50 Coffee break / Group Photo
Plenary Lecture 2
Toward the Increasing in Materials Innovation through Combining Nanocomposite and
10:50~11:40
GIGAKU Concepts
Koichi Niihara (Nagaoka Univeristy of Technology, Japan)
Plenary Lecture 3
Smart Interfacial Materials from Super-Wettability to Binary Cooperative Complementary
11:40~12:30
Systems
Lei Jiang (Chinese Academy of Sciences, China)
12:30~14:00 Lunch (Cafeteria, 5th Floor)
Technical Technical Technical Technical Technical
14:00~15:30
Program A/S Program B Program C Program D Program E
15:30~16:00 Coffee break
Technical Technical Technical Technical Technical
16:00~17:30
Program A/S Program B Program C Program D Program E
Theme Lecture 1
17:30~18:10 Eco-materials Characterization using Neutrons
Takashi Kamiyama (Hokkaido University, Japan)
Poster Session
18:10~20:00
And Dinner (Cafeteria, 5th Floor)
28 ISEPD 2019The 20th International Symposium
January 6, 2019 (Registration, 8:30~16:30)
Program
Time
Room 405 Room 406 Room 407 Room 412 Room 413
Plenary Lecture 4
09:00~09:50 Research and Development of Ecomaterials in China
Nie Zuoren (Beijing University of Technology, China)
Plenary Lecture 5
09:50~10:40 Electrochemical and Molecular Approaches for Artificial Photosynthesis
Kyung Byung Yoon (Sogang University, Korea)
10:40~11:00 Coffee break
Plenary Lecture 6
11:00~11:50 Development of Metal-dispersed Ceramic-based Composites Tuned for Multi-task Application
Tohru Sekino (Osaka University)
Plenary Lecture 7
Designing Catalysts for Water-Splitting Reactions: Oxide-Oxide Bilayers as High Efficiency
11:50~12:40
Photoelectrocatalysts Through Electronically Coupled Phase Boundaries
Sanjay Mathur (University of Cologne)
12:40~14:00 Lunch (Cafeteria, 5th Floor)
Technical Technical
14:00~15:30
Program B Program D
15:30~16:00 Coffee break
Technical
16:00~17:30
Program B
Theme Lecture 2
17:30~18:10 Modification of TiO2 as an Efficient Photocatalyst
Wenbin CAO (University of Science and Technology Beijing)
Theme Lecture 3
18:10~18:30 Past, present and future of ISEPD; An Overview
Soo Wohn Lee (Sun Moon University, Korea)
18:30~19:00 Award Ceremony / Closing Remarks
19:00~21:00 Banquet (Madeleine Buffet, Asan)
January 7, 2019 Conference tour
09:30~18:00 Conference tour to Hyundai Steel Company and Hyundai Motors
18:00~20:00 Dinner
ISEPD 2019 29ISEPD 2019
ISEPD2019 20th Anniversary Technical Program Details
Chair Person List
Opening Ceremony
6th Floor, Room No. 606
No. Date Time Name Affiliation
Opening Ceremony January 5 09:00~09:30 Tohru Sekino Osaka University
Plenary Session
6th Floor, Room No. 606
No. Date Time Name Affiliation
Korea Institute of Ceramic Engi-
PL-1 January 5 9:30 ~ 10:20 Young Hee Kim
neering Technology, KICET
PL-2 January 5 10:50 ~ 11:40 Shu Yin Tohoku University
PL-3 January 5 11:40 ~ 12:30 Sun Jing Shanghai Institute of Ceramics
PL-4 January 6 09:00 ~ 9:50 Helena Li Pusan University
Korea Institute of Ceramic Engi-
PL-5 January 6 09:50 ~ 10:40 Hyung Mi Lim
neering Technology, KICET
Hankuk University of Foreign
PL-6 January 6 11:00 ~ 11:50 Chunli Liu
Studies
Korea Institute of Industrial
PL-7 January 6 11:50 ~ 12:40 Kyong IL Moon
Technology, KITECH
Theme Lecture
6th Floor, Room No. 606
No. Date Time Name Affiliation
TL-1 January 5 17:30~18:00 Yamato Hayashi Tohoku University
TL-2 January 6 17:30~18:10 Soo Wohn Lee Sun Moon University
University of Science and Tech-
TL-3 January 6 18:10~18:30 Wenbin Cao
nology, Beijing
30 ISEPD 2019The 20th International Symposium
Oral Sessions
Session A/S: Green processing of eco-materials, 4th Floor, Room No. 405
No. Date Time Name Affiliation
AO-1 - AO-4 January 5 14:00~15:30 Zhengyi FU Wuhan University of Technology
AO-5 - AO-8 January 5 15:55~17:30 Tomoyo Goto Osaka University
Session B: Advanced Eco-Materials – I, 4th Floor, Room No. 406
No. Date Time Name Affiliation
BO-1 - BO-4 January 5 14:00~15:30 Takashi Shirai Nagoya Institute of Technology
BO-5 - BO-8 January 5 16:00~17:25 Jian-Feng Yang Xi'an Jiaotong University
BO-9 - BO-12 January 6 14:00~15:30 Zeng Yi Shanghai Institute of Ceramics
BO-13 - BO-16 January 6 16:00~17:30 Zheng Xuebin Shanghai Institute of Ceramics
Session C: Energy Conversion, 4th Floor, Room No. 407
No. Date Time Name Affiliation
CO-1 - CO-4 January 5 14:00~15:25 Junichi Matsushita Tokai University
CO-5 - CO-8 January 5 16:00~17:25 Hisao Suzuki Shizuoka University
Session D: Environmental Protection Materials – I, II, 4th Floor, Room No. 412
No. Date Time Name Affiliation
DO-1 - DO-4 January 5 14:00~15:35 Shim Kwang Bo Hanyang University
Nagaoka University of
DO-5 - DO-8 January 5 15:55~17:30 Makoto Nanko
Technology
DO-9 - DO-13 January 6 14:00~16:00 Bo Wang Xian Jiaotong University
Session E: Long-term use Materials, 4th Floor, Room No. 413
No. Date Time Name Affiliation
EO-1 - EO-4 January 5 14:00~15:35 Jidong Li Sichuan University
Tadachika Nagaoka University of
EO-5 - EO-8 January 5 16:00~17:25
Nakayama Technology
ISEPD 2019 31ISEPD 2019
Program
Opening Ceremony
January 5, 6th Floor, Room No. 606
Chair: Tohru Sekino (Osaka University)
Opening Address Soo Wohn Lee
Sun Moon University
Welcome and Congratulatory address Sun Jo Hwang
President of Sun Moon University
09:00~09:30
Congratulatory address Koichi Niihara
Nagaoka University of Technology
Congratulatory address Yubao Li
Sichuan University
32 ISEPD 2019The 20th International Symposium
Program
Plenary Session
January 5, 6th Floor, Room No. 606
No. Time Name Affiliation Title
Chair: Young Hee Kim (Korea Institute of Ceramic Engineering Technology, KICET)
Sungkyunkwan Halide Perovskite Photovoltaics:
PL-1 09:30~10:20 Nam-Gyu Park
University, Korea History, Progress and Prospect
Coffee break / Group Photo 10:20 ~ 10:50
Chair: Shu Yin (Tohoku University)
Toward the Increasing in Materials
Nagaoka Univeristy
PL-2 10:50~11:40 Koichi Niihara Innovation through Combining Nano-
of Technology, Japan
composite and GIGAKU Concepts
Chair: Sun Jing (Shanghai Institute of Ceramics)
Smart Interfacial Materials from Su-
Chinese Academy of
PL-3 11:40~12:30 Lei Jiang per-Wettability to Binary Cooperative
Sciences, China
Complementary Systems
January 6, 6th Floor, Room No. 606
Chair: Helena Li (Pusan University)
Beijing University of Research and Development of Ecoma-
PL-4 09:00~9:50 Nie Zuoren
Technology, China terials in China
Chair: Hyung Mi Lim (Korea Institute of Ceramic Engineering Technology, KICET)
Sogang University, Electrochemical and Molecular Ap-
PL-5 09:50~10:40 Kyung Byung Yoon
Korea proaches for Artificial Photosynthesis
Coffee Break 10:40 ~ 11:00
Chair: Chunli Liu (Hankuk University of Foreign Studies)
Development of Metal-dispersed
PL-6 11:00~11:50 Tohru Sekino Osaka University Ceramic-based Composites Tuned for
Multi-task Application
Chair: Kyong IL Moon (Korea Institute of Industrial Technology, KITECH)
Designing Catalysts for Water-Split-
ting Reactions: Oxide-Oxide Bilayers
PL-7 11:50~12:40 Sanjay Mathur University of Cologne as High Efficiency Photoelectrocata-
lysts Through Electronically Coupled
Phase Boundaries
ISEPD 2019 33ISEPD 2019
Program
Theme Lecture
January 5, 6th Floor, Room No. 606
No. Time Name Affiliation Title
Chair: Yamato Hayashi (Tohoku University)
University of Hok- Eco-materials Characterization using
TL-1 17:30~18:10 Takashi Kamiyama
kaido Neutrons
January 6, 6th Floor, Room No. 606
Chair: Soo Wohn Lee (Sun Moon University)
University of Science Modification of TiO2 as an Efficient
TL-2 17:30~18:10 Wenbin Cao
and Technology Photocatalyst
Chair: Wenbin Cao (University of Science and Technology, Beijing)
Past, present and future of ISEPD; An
TL-3 18:10~18:30 Soo Wohn Lee Sun Moon University
Overview
34 ISEPD 2019The 20th International Symposium
Program
Oral Session
Session A/S: Green processing of eco-materials / Special Session
January 5, 4th Floor, Room No. 405
Presentation
No. Time Name Affiliation Title
Type
Chair: Zhengyi FU (Wuhan University of Technology)
Nano Sized 3D Printing and
Keynote Tadachika Nagaoka University
AO-1 14:00 ~ 14:30 Motion Control by Nano Sec-
talk Nakayama of Technology
ond Pulsed Field
Effect of Annealing Tempera-
Xi’an University
ture on Microstructure and
AO-2 Oral 14:30 ~ 14:50 Wanwan Chen of Architecture and
Properties of X10CrAlSi7
Technology
Heat Resistant Ferritic Steel
Effect of Aging Time on
Xi’an University
Microstructure and Mechan-
AO-3 Oral 14:50 ~ 15:10 Xiang LV of Architecture and
ical Properties of Maraging
Technology
Hardened Stainless Steel
Finite Element Simulation of
Xi’an University
Hot Extrusion Deformation
AO-4 Oral 15:10 ~ 15:30 Jie ZHAO of Architecture and
Processing of 5754 Aluminum
Technology
Alloy
15:30 ~ 15:55 Coffee Break
Chair: Tomoyo Goto (Osaka University)
Bioprocess-inspired Synthe-
Keynote Wuhan University
AO-5 15:55 ~ 16:25 Zhengyi FU sis and Processing for New
talk of Technology
Materials
Electrical switching of antifer-
Keynote Tsinghua Univer-
AO-6 16:25 ~ 16:55 Cheng Song romagnetic moments with low
talk sity
energy consumption
Effects of OH- ions on chem-
ical strengthening of Li2O-
Xi’an Jiaotong
AO-7 Oral 16:55 ~ 17:15 Xigeng LYU Al2O3-SiO2 (LAS) glass
University
materials in K+/ Na+ molten
salts
Synthesis of ultra-fine tan-
Wuhan University talum carbide powders by a
AO-8 Oral 17:15 ~ 17:35 Weimin Wang
of Technology combinational method of sol–
gel and spark plasma sintering
ISEPD 2019 35ISEPD 2019
Session B: Advanced Eco-Materials - I
January 5, 4th Floor, Room No. 406
Presentation
No. Time Name Affiliation Title
Type
Chair: Takashi Shirai (Nagoya Institute of Technology)
Porous PU Elastomer Incorpo-
Keynote
BO-1 14:00 ~14:30 Yubao Li Sichuan University rated with HA nanocrystals for
talk
Plastic Reconstruction
Synthesis of porous silicon
nitride with unidirectional-
Xian Aeronautical
BO-2 Oral 14:30 ~14:50 Fangli Yu ly aligned channels using
University
extrusion and freezing-casting
method
Fabrication and Application
Xi’an Jiaotong
BO-3 Oral 14:50 ~15:10 Hongyan Xia of graphene coated activated
University
mesocarbon microbeads
Tailored iron oxide nanocrys-
University of Co- tals with controlled size, shape
BO-4 Oral 15:10 ~15:30 Isabel Gessner
logne and surface functionality for
biomedical applications
15:30 ~ 16:00 Coffee Break
Chair: Jian-Feng Yang ( Xi'an Jiaotong University)
Mechanical properties of
Xian Jiaotong Uni- porous recrystallization SiC
BO-5 Invited talk 16:00 ~ 16:25 Bo Wang
versity ceramics with tailored necking
area
Preparation of self-rein-
forcement of porous mullite
Xian Aeronautical
BO-6 Oral 16:25~16:45 Haihong Zhang through in situ synthesis of
University
mullite whisker with HF in the
precursor
Research on Biomedical
Chitosan Based Drug-loaded
BO-7 Oral 16:45~17:05 Qin Zou Sichuan University
Microspheres for Controlled
Release Delivery System
Three dimensional AlN skele-
ton-reinforced highly oriented
Xian Jiaotong Uni-
BO-8 Oral 17:05~17:25 Zhongqi Shi graphite flake composites with
versity
excellent mechanical and ther-
mophysical properties
36 ISEPD 2019You can also read
