ISSP2017: Symposium Program

Wednesday 5 Oral Session

Welcome Address

9:50 Yasusei Yamada, Chair of ISSP2017 committeee, AIST, Japan

Opening Session / Fundamentals of Sputtering and Plasma

10:00 KN-1 Plasma-surface interactions in nanofabrication and space exploration, Kouichi Ono*, Kyoto University, Japan (KEYNOTE)

10:40 FS1-1 In-situ diagnostics of high-power impulse magnetron sputtering: from spokes and non-reactive sputtering to reactive sputtering, Nikolay Britun¹⁾*, Alexandr Belosludtsev²⁾, Stephanos Konstantinidis¹⁾, Ante Hecimovic³⁾, Rony Snyders^1,4), 1) University of Mons, Belgium, 2) University of West Bohemia, Czech Republic, 3) Ruhr-University Bochum, Germany, 4) Materia Nova Research Center, Belgium

11:00 FS1-2 Chalcogenide glasses from (GeSe₂)_100-x(Sb₂Se₃)_x system: Plasma plume dynamics and properties, S. Irimiciuc^1,2), P. Nemec³⁾*, R. Boidin³⁾, G. Bulai^2,4), S. Gurlui²⁾, V. Nazabal^5,3), C. Focsa¹⁾, 1) Université de Lille 1 Sciences & Technologies, France, 2) Faculty of Physics, LOA-SL, “Al. I. Cuza” University of Iasi, Romania, 3) Department of Graphic Arts and Photophysics, Faculty of Chemical Technology, University of Pardubice, Studentska 573, 53210 Pardubice, Czech Republic, 4) Integrated Centre for Environmental Science Studies in the North-East Development Region - CERNESIM, “Al. I. Cuza” University of Iasi, Romania, 5) Université de Rennes 1, France

11:20 FS1-3 Return of target material ions leads to a reduced hysteresis in reactive high power Impulse Magnetron Sputtering, Jiri Capek¹⁾*, Stanislav Kadlec²⁾, 1) University of West Bohemia, Czech Republic, 2) HVM Plasma Ltd., Czech Republic

11:40 FS1-4 On the cause of a double hysteresis during reactive magnetron sputtering, Koen Strijckmans*, Roeland Schelfhout, Diederik Depla, Ghent University, Belgium

12:00 FS1-5 Ionization cloud formation in rotary cathode plasma confinement, Patrick Morse*, T. Strait, M. Rost, Sputtering Components Inc., USA

Lunch Break 12:20-13:20

Thin Films I 13:20-15:00

13:20 TF1-1 Plasma deposition of advanced thin films and nanostructured materials at CSIRO, Avi Bendavid*, P. J. Martin, M. Gross, CSIRO, Australia (invited)

14:00 TF1-2 Optical properties of multilayers consisting of Al surface layer and Ag thin film, Midori Kawamura¹⁾*, Takayuki Kiba¹⁾, Yoshio Abe¹⁾, Kyung Ho Kim¹⁾, Hiroshi Murotani²⁾, 1) Kitami Institute of Technology, JAPAN, 2) Tokai University, JAPAN

14:20 TF1-3 Preparation of TiN films using high power impulse magnetron sputtering combined with bipolar type plasma based ion implantation system, Setsuo Nakao¹⁾*, Yasusei Yamada¹⁾, Kingo Azuma²⁾, Takashi Kimura³⁾, 1) National Institute of Advanced Industrial Science and Technology (AIST), Japan, 2) University of Hyogo, Japan, 3) Nagoya Institute of Technology, Japan

14:40 TF1-4 Critical layer to tailor the orientation distribution for the fabrication of high Hall mobility n-type doped ZnO polycrystalline films deposited by direct-current magnetron sputtering, Junichi Nomoto¹⁾*, Minoru Osada²⁾, Katsuhiko Inaba³⁾, Shintaro Kobayashi³⁾, Hisao Makino¹⁾, Tetsuya Yamamoto¹⁾, 1) Kochi University of Technology, Japan, 2) International Center for Materials Nanoarchitectonics, National Institute of Materials Science, Japan, 3) Rigaku Corporation, Japan

15:00-15:20 Coffee Break

Sputtering Processes I 15:20-17:00

15:20 SP1-1 R2R-HIPIMS to produce functional coatings, Ju-Liang He*, Yu-De Liou, Thi-Thuy-Nga Nguyen, Ying-Hung Chen, Ming-Ta Mou, Tien-Wei Shyr, Kuo-Bing Cheng, Feng Chia University, Taiwan (invited)

16:00 SP1-2 ITO coating of large area substrates with the rotatable cathode array for TFT pixel Application, Daniel Severin¹⁾*, Andreas Klöppel¹⁾, Markus Hanika¹⁾, Pipi Tsai²⁾, Andreas Lopp¹⁾, Marcus Bender¹⁾, 1) Applied Materials GmbH & Co. KG, Germany, 2) Applied Materials Taiwan, Taiwan

16:20 SP1-3 Novel DC-like sputtering with single and dual magnetron setups, Holger Proehl*, Thomas Niederhausen, Frank Benecke, VON ARDENNE GmbH, Germany

16:40 SP1-4 Reactive high density pulse plasma sputtering of ceramic coatings for industrial applications., Roman Chistyakov*, Zpulser, LLC, USA

Wednesday 5 Poster Session 17:20-19:00
(Drinks and Light Meals will be served)

Posters from oral sessions

KN-1, FS1-1, FS1-2, FS1-3, FS1-4, FS1-5
TF1-1, TF1-2, TF1-3, TF1-4, SP1-1, SP1-2, SP1-3, SP1-4

Fundamentals of Sputtering and Plasma POSTER

FS1-6p Numerical simulation on the positive ion flux in a DC-magnetron system, Seiji Ogata¹⁾*, Hirotake Sugawara²⁾, 1) Atelier Modeling, Japan, 2) Hokkaido University, Japan

FS1-7p Two-dimensional simulations of multi-hollow cathode VHF SiH₄/H₂ plasma, Li-Wen Su*, Weiting Chen, Kiichiro Uchino, Yoshinobu Kawai, Kyushu University, Japan

FS1-8p Development of optimal DLC film deposition and pulsed power supplies in medical implants by the HiPIMS method, Masahide Kuroiwa¹⁾*, Tadayuki Okano¹⁾, Kohei Yamamoto²⁾, Tatsuyuki Nakatani²⁾, 1) Tokyo Electronics Co., Ltd., Japan, 2) Okayama University of Science, Japan

FS1-9p Evaluation of plasma parameters for hollow cylindrical magnetron sputtering cathode, Kakeru Kodama*, Hiroshi Iwata, Masashi Furusawa, Masatoshi Tanaka, Takao Sekiya, Yokohama National University, Japan

FS1-10p 3D Monte Carlo model of etching low-k films by F atoms, Alexander P Palov¹⁾*, Tatyana V Rakhimova¹⁾, Ekaterina N Voronina^1,2), Yuri A Mankelevich¹⁾, 1) Skobeltsyn Institute of Nuclear Physics, Lomonosov Moscow State University, Russia, 2) Faculty of Physics, Lomonosov Moscow State University, Russia

FS1-11p 3D Monte Carlo model of sputtering low-k films by Ar atoms, Alexander P Palov¹⁾*, Ekaterina N Voronina^1,2), Tatyana V Rakhimova¹⁾, 1) Skobeltsyn Institute of Nuclear Physics, Lomonosov Moscow State University, Moscow, Russia, 2) Faculty of Physics, Lomonosov Moscow State University, Moscow, Russia

Thin Films POSTER I

TF1-5p Transparent diamond-like carbon thin films on Tte glass substrate, Yan-Yu Liao¹⁾*, Wei-Bo Liao²⁾, Cheng-Chung Lee²⁾, Chien-Cheng Kuo²⁾, 1) Department of Mechanical Engineering, National Central University, Taiwan, 2) Thin Film Technology Center, National Central University, Taiwan

TF1-6p Virtual Coater: simulation of film growth deposited by magnetron sputtering in any coater and evaluation of their morphological and optical properties., Stephane Lucas*, Jerome Müller, Pavel Moskovkin, University of Namur, Belgium

TF1-7p Influence of argon flow rate on the properties of magnetron sputtered aluminum-doped zinc-oxide thin films, Hasitha Mahabaduge*, Georgia College & State University, USA (withdrawal)

TF1-8p Combining reactive magnetron sputtering and GLAD to synthesize porous TiO₂ coatings for DSSC applications: an experimental and theoretical study., Jonathan Dervaux¹⁾, Pierre-Antoine Cormier¹⁾, Stéphane Lucas²⁾, Rony Snyders¹⁾*, 1) University of Mons, Bergium, 2) University of Namur, Bergium

TF1-9p Analysis of DLC thin films obtained by XPS spectrum separation, Kenji Yamada¹⁾*, Atsuto Takeda¹⁾, Takahiro Imai²⁾, Yushi Iijima²⁾, Toru Harigai²⁾, Yoshiyuki Suda²⁾, Hirofumi Takikawa²⁾, 1) National Institute of Technology, Ishikawa College, Japan, 2) Toyohashi University of Technology, Japan

TF1-10p Properties of Al-Ga co-doped ZnO semiconductor thin films deposited on PET substrates by RF magnetron sputtering, Chien-Yie Tsay*, Kun-Che Pai, Feng Chia University, Taiwan

TF1-11p An Na source via MoNa intermediatelayer for three-stage evaporation of Cu(In,Ga)Se₂ solar cells, Du-Cheng Tsai*, Fuh-Sheng Shieu, National Chung Hsing University, Taiwan

TF1-12p Self-propagating exothermic reaction behavior of Ti/SiO_x multilayer films, Shozo Inoue¹⁾*, Mitsuyoshi Mizutani¹⁾, Keita Inoue¹⁾, Keisuke Yoshiki¹⁾, Takahiro Namazu²⁾, 1) University of Hyogo, Japan, 2) Aichi Institute of Technology, Japan

TF1-13p Decrease of viewing angle dependence of niobium oxide (Nb₂O₅) thin films prepared by an anodization treatment due to deposition of sputtered titanium oxide (TiO₂) thin film, Yuta Shimoyama¹⁾*, Kosei Matsunaka²⁾, Isao Komatsu³⁾, Shuichi Maeda^2,3), Satoru Iwamori¹⁾, 1) Course of Mechanical Engineering,Graduate School of Engineering,Tokai University, Japan, 2) Course of Electro Photo Optics, Graduate School of Engineering, Tokai University, Japan, 3) Course of Information Science and Technology, Graduate School of Science and Technology, Tokai University, Japan

TF1-14p Effect of oxygen plasma treatment on an ITO-based point-contact resistive memory, Chih-Yi Liu¹⁾, Yu-Xuan Zhang¹⁾*, Shyh-Jer Huang²⁾, Chun-Hung Lai³⁾, 1) National Kaohsiung University of Applied Sciences,Taiwan, 2) National Cheng Kung University,Taiwan, 3) National United University,Taiwan (withdrawal)

TF1-15p Effect of Ge thickness on optical property, crystallization mechanism, and recording performance of Ge/GeCu recording layer for blue laser recording applications, Sin-Liang Ou¹⁾*, Wei-Sheng Huang²⁾, Kuo-Sheng Kao²⁾, 1) Da-Yeh University, Taiwan, 2) Shu-Te University, Taiwan

TF1-16p Characterization of ZrON thin films prepared by reactive sputtering using a hollow cylindrical cathode, Hiroshi Iwata*, Hiroki Ishii, Daiki Kato, Shohei Kawashima, Kakeru Kodama, Masatoshi Tanaka, Takao Sekiya, Yokohama National University, Japan

TF1-17p Tunnel magnetoresistance effect of granular films using CoFeAlSi alloy, Yuji Fujiwara¹⁾*, Mutsuko Jimbo²⁾, Toshifumi Shimizu²⁾, 1) Mie University, Japan, 2) Daido University, Japan

TF1-18p Carbon film fabricated by reactive sputtering method using various process gases, Shunpei Ota*, Kazushi Fuse, Yusuke Miyaguchi, Shun Manita, Hyung-Woo Ahn, Takehito Jimbo, ULVAC, Inc., Japan

TF1-19p Structures, electrical and magnetic properties of (Al, Co) co-doped ZnO films deposited by RF magnetron sputtering, S. C. Chen¹⁾, Y. W Lin¹⁾, S. Y. Huang¹⁾*, H. Sun¹⁾, C. H. Wang¹⁾, C. K. Wen²⁾, T. H. Chuang²⁾, 1) Ming Chi University of Technology, Taiwan, 2) National Taiwan University, Taiwan (withdrawal)

Micro and Nano Technologies POSTER

MN1-1p Filter-free, junctionless structures for color sensing, Keng-Te Lin¹⁾, Tzu-Yao Lin¹⁾*, Yu-Sheng Lai²⁾, 1) National Taiwan University, Taiwan, 2) National Nano Device Laboratories, Taiwan

MN1-2p Characterization of nano-porous Ta, TaON, and Ta₂O₅ films synthesized by co-sputtering and de-alloying approach, J. H. Hsieh, S. H. Wu*, Y. C. Lin, Ming Chi University of Technology. Taiwan

MN1-3p Formation of interelectrode bridging of carbon nanotube filaments by gas discharge breakdown, Yuuki Mizushima*, Seiji Funaki, Hideki Sato, Mie University, Japan

MN1-4p Control of graphene growth by tuning of catalyst film, Daiki Tamai*, Yukihiko Akiyoshi, Hideki Sato, Hideto Miyake, Kazumasa Hiramatsu, Graduate School of Engineering, Mie University, Japan

Thursday 6 Oral Session

Sputtering Processes II 9:00-10:40

09:00 KN-2 Industrialisation of high power impulse magnetron sputtering, Arutiun P. Ehiasarian*, Papken Eh. Hovsepian, Sheffield Hallam University, UK (KEYNOTE)

09:40 SP2-1 High rate sputter deposition of electrochromic nickel oxide thin films using substrate cooling and water vapor injection, Yoshio Abe*, Shun Yamauchi, Midori Kawamura, Kyung Ho Kim, Takayuki Kiba, Kitami Institute of Technology, Japan

10:00 SP2-2 Limitations of voltage controlled transition mode sputtering in industrial large area coating, Moritz Heintze*, Ioana Luciu, TRUMPF Hüttinger GmbH + Co. KG, Germany

10:20 SP2-3 Feedback control of reactive high power impulse magnetron sputtering by measuring the pulse peak current and adjusting the pulse frequency, Rafael Sanchez¹⁾*, Tetsuhide Shimizu^2,3), Michelle Marie Villamayor²⁾, Julien Keraudy²⁾, Daniel Lundin^1,4), Ulf Helmersson^1,2), 1) Ionautics AB, Sweden, 2) Linköping University, Sweden, 3) Tokyo Metropolitan University, Japan, 4) Université Paris-Sud, France

Coffee Break 10:40-11:00

Sputtering Processes III 11:00-11:40

11:00 SP2-4 Effects of internal stress on sputtered Fe-Sm thin films, Shota Sakano*, Yoshihito Tsukagoshi, Helmut Takahiro Uchida, Yoshihito Matsumura, Tokai University, Japan

11:20 SP2-5 Control of oxygen content in MgO_x thin film by peak pulse current regulation in reactive HiPIMS, Shuga Ikeda*, Tetsuhide Shimizu, Hidetoshi Komiya, Ming Yang, Tokyo Metropolitan University, Japan

Plasma Induced Process Technologies/Others 11:40-12:40

11:40 PI2-1 A vacuum species sensor using remote plasma emission spectroscopy for direct monitoring of vacuum processes, Dermot Monaghan*, Joseph Joseph Brindley, Victor Bellido-Gonzalez, Gencoa, UK

12:00 OT2-1 Reactive deposition – enabling enhanced thin film performance, David Sanchez*, Materion Advanced Materials Group, USA (invited)

Lunch Break 12:40-14:00

Thin Films II 14:00-15:20

14:00 TF2-1 Magnetron sputter deposition of CoCrCuFeNi thin films, Diederik Depla*, Bert Braeckman, Robin Dedoncker, Ghent University, Belgium

14:20 TF2-2 Fracture behavior of diamond-like carbon (DLC) films coated on polymer substrates, Go Yamamoto¹⁾*, Noriaki Ikenaga²⁾, Tomonaga Okabe¹⁾, 1) Tohoku University, Japan, 2) Kanazawa Institute of Technology, Japan

TF2-3 Mechanical properties of CrZrN Coatings by sputtering process, Ji-Hoon Yang*, Sung-Hwan Kim, In-Seop Byeon, Jae-In Jeong, Research Institute of Industrial Science and Technology, Korea (withdrawal)

14:40 TF3-5p Effect of reactive mode transition on growth of TiO_x films by high power impulse magnetron sputtering, Makoto Tsukamoto¹⁾*, Felipe Cemin²⁾, Daniel Lundin²⁾, Tetsuhide Shimizu¹⁾, Ming Yang¹⁾, Tiberiu Minea²⁾, 1) Tokyo Metropolitan University, Japan, 2) Université Paris-Sud, France

15:00 TF2-4 On the synthesis and properties of reactively sputter deposited oxygen vacancy stabilized zirconia thin films., Stephanos Konstantinidis¹⁾*, Mohsin Raza¹⁾, David Cornil²⁾, Jérôme Cornil²⁾, Stéphane Lucas³⁾, Jean-François Pierson⁴⁾, Pascal Boulet⁴⁾, Hervé Rinnert⁴⁾, David Horwat⁴⁾, Lucia dos Santos Gomez⁵⁾, Vincenzo Esposito⁵⁾, Simone Sanna⁵⁾, Rony Snyders¹⁾, 1) Laboratory of Plasma-Surface Interaction Chemistry, University of Mons, Belgium, 2) Service de Chimie des Matériaux Nouveaux, University of Mons, Belgium, 3) University of Namur, Belgium, 4) Université de Lorraine, France, 5) Technical University of Denmark, Denmark

Break 15:20-15:40

Thin Films III 15:40-17:00

15:40 TF2-5 Control of microstructure of FePt-X (001) films for HAMR through interface modification and doping, K. F. Dong^1,3), J. Y. Deng¹⁾, Y. G. Peng²⁾, G. Ju²⁾, G. M. Chow¹⁾, J. S. Chen¹⁾*, 1) National University of Singapore, Singapore 2) Seagate Technology, USA, 3) China University of Geosciences, China (invited)

16:20 TF2-6 Effect of gaseous impurity level of sputtering target on the piezoelectric property of Al-Sc-N thin film, Yasushi Morii*, Yuichiro Nakamura, Takeo Okabe, Yoshimasa Koido, Hideyuki Takahashi, JX Nippon Mining & Metals Corporation, Japan

16:40 TF2-7 Sputtering target material trends in flat panel display and energy applications, Christoph Adelhelm*, Christian Linke, Enrico Franzke, Harald Köstenbauer, Hennrik Schmidt, Jörg Winkler, Plansee SE, Austria

Thursday 6 Poster Session 17:00-19:00
(Drinks and Light Meals will be served)

Posters from oral sessions

KN-2, SP2-1, SP2-2, SP2-3, SP2-4, SP2-5, PI2-1, OT2-1
TF2-1, TF2-2, TF3-5p, TF2-4, TF2-5, TF2-6, TF2-7

Sputtering Processes POSTER

SP2-6p A novel way to quantify compound sputter yields during reactive magnetron sputtering, Roeland Schelfhout*, Koen Strijckmans, Diederik Depla, Ghent University, Belgium

SP2-7p Effect of oblique incidence of sputtered and fast particles on crystal orientation in tungsten thin film formation, Yasuhito Gotoh*, Hirofumi Fujiwara, Hiroshi Tsuji, Kyoto University, Japan

SP2-8p Phase formation and gas-sensing performance of ZnO-SnO₂ core-shell nanords through postannealing sputtering deposited tin sulfide shell layer, Yuan-Chang Liang, Ya-Ju Lo*, National Taiwan Ocean University, Taiwan

SP2-9p Sputtering-assisted synthesis of TiO₂-CdO composite rods and their oxidizing gas sensing performance, Yuan-Chang Liang, Chein-Chung Wang*, National Taiwan Ocean University, Taiwan

SP2-10p Effects of sputtering power of indium oxide on photoactivity and gas sensing properties of cosputtering deposited c-axis-oriented In-doped ZnO thin films, Yuan-Chang Liang*, Chia-Min Lee, National Taiwan Ocean University, Taiwan(withdrawal)

SP2-11p The tribological behavior and oxidation resistance of Ta-Si-N coatings by high power impulse magnetron sputtering, Li-Chun Chang^1,2)*, Ya-Wen You¹⁾, 1) Department of Materials Engineering, Ming Chi University of Technology, Taiwan, 2) Center for Thin Film Technologies and Applications, Ming Chi University of Technology, Taiwan

SP2-12p RF power and gas pressure dependences on structural, electrical and optical properties of Al doped ZnO films on glass substrate prepared using magnetron sputtering with multipolar magnetic plasma confinement, Shouki Yahagi*, Hiroshi Toyota, Hiroshima Institute of Technology, Japan

SP2-13p Target DC power dependence on structural and electrical properties of Ni films on flexible substrate prepared using magnetron sputtering with multipolar magnetic plasma confinement assisted by inductively coupled plasma, Tatsuya Tachibana*, Hiroshi Toyota, Hiroshima Institute of Technorogy, Japan

SP2-14p High conductivity AZO film synthesis by particle flux control in magnetron sputtering, Long Wen*, Su B Jin, B.B. Sahu, Jeon G Han, Sungkyunkwan University, Korea

SP2-15p Control of Cu film stress using DC-pulsed magnetron sputtering, Dohan Kim¹⁾*, Youjin Ji¹⁾, Taehyung Kim¹⁾, Wonkyun Yeom²⁾, Hoseok Lee²⁾, Kyoungnam Kim³⁾, 1) Department of Materials Science and Engineering, Sungkyunkwan University, Korea, 2) SKKU Advanced Institute of Nano Technology (SAINT), Sungkyunkwan University, Korea, 3) Daejun University, Korea

SP2-16p Influence pulsed voltage biasing upon titanium deposition by high-power pulsed sputtering penning discharge in ambient nitrogen/argon mixture gas, Kingo Azuma¹⁾*, Yuma Kusuhashi¹⁾, Ryo Nagai¹⁾, Yoshihiro Oka¹⁾, Takashi Kimura²⁾, Setsuo Nakao³⁾, 1) University of Hyogo, Japan, 2) Nagoya Institute of Technology, Japan, 3) Advanced Industrial Science and Technology, Japan

SP2-17p The Effect of substrate temperature for thermal and true stress on sputtered thin films, Maki Hashimoto, Yoshihito Tsukagoshi*, Shouta Sakano, Helmut Takahiro Uchida, Yoshihito Matsumura, Tokai University, Japan

Plasma Induced Process Technologies POSTER

PI2-2p Plasma based process to deposit thick and dense Li metallic coatings, Stephane Lucas*, University of Namur, Belgium

PI2-3p Ammonia plasma treatment on stacked SiO_x/HfO₂ solid electrolytes of silver programmable metallization cells with tunable multilevel resistive switching behaviors, Ya-Ting Chan¹⁾, Po-Hsiang Wang¹⁾, Jer-Chyi Wang^1,2,3)*, 1) Chang Gung University, Taiwan, 2) Chang Gung Memorial Hospital, Taiwan, 3) Ming Chi University of Technology, Taiwan

PI2-4p Oxidation of Si and Ti surfaces using oxygen plasma treatment, Satoshi Koyama, Junichi Yanagisawa*, The University of Shiga Prefecture, Japan

Thin Films POSTER II

TF2-8p Stress analysis of SiO_xC_y thin films deposited by plasma polymerization, Yu-Tian Lin*, Wei-Bo Liao, Yan-Yu. Liao, Cheng-Chung Lee, Chien-Cheng Kuo, National Central University, Taiwan

TF2-9p The effect of oxygen working pressure on microstructures and optoelectronic properties of NiO thin films deposited by reactive magnetron sputtering, S. C Chen¹⁾, S. Y Huang¹⁾*, H. Sun¹⁾, C.K. Wen²⁾, S.W. Hsu¹⁾, T.H. Chuang²⁾, 1) Ming Chi University of Technology, Taiwan, 2) National Taiwan University, Taiwan (withdrawal)

TF2-10p Effect of vapor incidence angle and bias voltage on the structure and properties of TiN and Al films, Jae-In Jeong*, Ji-Hoon Yang, Sung-Hwan Kim, Jae-Hun Jung, In-Seop Byun, Research Institute of Industrial Science & Technology, Korea (withdrawal)

TF2-11p The microstructure, optical and mechanical properties of Al-Si-B-N hard coatings deposited by reactive magnetron sputtering, Yung-Cheng Liu*, Du-Cheng Tsai, Fuh-Sheng Shieu, National Chung Hsing University, Taiwan

TF2-12p Gas sensing characteristics of zinc oxide thin films prepared by r.f. sputtering, vacuum evaporation and laser ablation in liquid, Masahiro Kinoshita¹⁾*, Shouta Mukouyama¹⁾, Prabakaran Shankar¹⁾, Sergei Kulinich¹⁾, Kazutoshi Noda²⁾, Satoru Iwamori¹⁾, 1) Tokai University, Japan, 2) National Institute of Advanced Industrial Science and Technology, Japan

TF2-13p Growth of VO₂ thin films on transparent conductive Al-doped ZnO films on glass substrates, Hiroaki Hoshino¹⁾*, Kenta Sato¹⁾, Md.Suruz Mian¹⁾, Yoshio Yasumori²⁾, Kunio Okimura¹⁾, 1) School of Engineering, Tokai University, Japan, 2) Tokai Univ. Ctr. Educ. Res. Dev., Japan

TF2-14p Deep ultraviolet optical coating by a combined HIPIMS/CFUBMS deposition technique with Al targets at room temperature, Bo-Huei LIAO*, Chien-Nan Hsiao, Instrument Technology Research Center, Taiwan

TF2-15p Oriented growth of VO₂ thin films on conductive TiN/Ti layers and their self-oscillations phenomena, Tomohiro Aoto*, Kenta Sato, Md. Suruz Mian, Kunio Okimura, Tokai University, Japan

TF2-16p Low-refractive index MgF₂ optical thin films by sputtering and electron beam evaporation, Yoshiki Tsuno¹⁾*, Hiroshi Murotani¹⁾, Shigeharu Matsumoto²⁾, 1) Depertment of Optical and Imaging Science & Technology, School of Engineering, Tokai University, Japan, 2) SHINCRON Company Limited, Japan

TF2-17p Alteration of residual stress due to heat treatment of Cu layer in single-, double-film deposited by sputtering, Takuo Sakai¹⁾*, Tatsuya Matsue¹⁾, Masayuki Nishida²⁾, Takao Hanabusa³⁾, 1) National Institude of Technology, Niihama college, Japan, 2) Kobe City College of Technology, Japan), 3) The University of Tokushima, Japan

TF2-18p Heat-resistance evaluation of Si doped DLC thin films, Noriaki Ikenaga, Ryo Nakazawa*, Atsusato Akizawa, Kazunari Ishii, Naoki Ohsawa, Kanazawa Institute of Technology, Japan

TF2-19p Study on crystallinity of PZT thin film due to the substrate temperature, Noriaki Ikenaga, Akihito Saito*, Atsunori Akizawa, Tadashi Fukami, Kanazawa Institute of Technology, Japan

TF2-20p Effect of heat treatment on residual stress of Cu film deposited on steel substrate, Tatsuya Matsue¹⁾*, Takuo Sakai¹⁾, Masayuki Nishida²⁾, Takao Hanabusa³⁾, 1) National Institude of Technology, Niihama College, Japan, 2) Kobe City College of Technology, Japan, 3) Tokushima University, Japan

TF2-21p Effect of post annealing on properties of ZnO-SnO₂ thin film transistors, Kazuo Satoh*, Shuichi Murakami, Yusuke Kanaoka, Yoshiharu Yamada, Yoshiharu Kakehi, Yoshiaki Sakurai, Technology Research Institute of Osaka prefecture, Japan

TF2-22p Study on residual stress characteristic of TiN films prepared by oblique angle deposition, Sung-Hwan Kim*, Ji-Hoon Yang, In-Seop Byeon, Jae-In Jeong, Research Institute of Industrial Science and Technology (RIST), Korea (withdrawal)

TF2-23p Effects of hot filament emitter on Fe-based alloy thin film formation by ion-plating process, Miki Shinooka*, Akitaka Sakai, Nobuaki Arai, Helmut Takahiro Uchida, Yoshihito Matsumura, Tokai University, Japan

TF2-24p XPS evaluation on thermal activation process of Zr-V-Fe (St707) alloy films for non evaporable getter applications, Azuma Mishima*, Riki Kuwajima, Takeo Nakano, Kei Oya, Seikei University, Japan

TF2-25p Coating of magnesium alloy with magnesium oxide thin films by RF sputtering, Tsutomu Sonoda, Akira Watazu*, National Institute of Advanced Industrial Science and Technology, Japan

TF2-26p Investigation on the crystallization behavior of Si/CuSi bilayer applied for optical data storage applications, Sin-Liang Ou¹⁾*, An-Cheng Sun²⁾, Kuo-Sheng Kao³⁾, Wei-Jie Zheng³⁾, 1) Da-Yeh University, Taiwan, 2) Yuan-Ze University, Taiwan, 3) Shu-Te University, Taiwan

TF2-27p Inserting a graphene oxide (GO) layer in Cu/SiO₂/Pt structure to overcome the performance degradation in a vaporless environment, Chih-Yi Liu¹⁾, Chih-Peng Yang¹⁾, Shyh-Jer Huang²⁾, Chun-Hung Lai³⁾, Wan-Wei Chih¹⁾*, Chao-Kai Weng¹⁾, Yu-Xuan Zhang¹⁾, 1) National Kaohsiung University of Applied Sciences, Taiwan, 2) National Cheng Kung University, Taiwan, 3) National United University, Taiwan

TF2-28p Composition dependent magnetic properties of amorphous FeSiBNb thin films, Yuji Fujiwara¹⁾*, Yuuki Takeuchi¹⁾, Mutsuko Jimbo²⁾, Tadashi Kobayashi¹⁾, 1) Mie University, Japan, 2) Daido University, Japan

Others POSTER

OT2-2p Oxidation behaviors of laminated Al-Hf and Al-Ta multilayer coatings, Yung-I Chen*, Zhi-Ting Zheng, Nai-Yuan Lin, National Taiwan Ocean University, Taiwan

PP3-5p Magnetron sputtering onto liquid substrates: towards the synthesis of nanoparticles., Xavier Carette^1,3), Adrien Chauvin²⁾, Eric Gautron²⁾, Abdel-Aziz El Mel²⁾, Jean-Marie Raquez³⁾, Rony Snyders¹⁾, Stephanos Konstantinidis¹⁾*, 1) Laboratory of Plasma-Surface Interaction Chemistry, University of Mons, Belgium, 2) Institut des Matériaux de Nantes, France, 3) Service de chimie des Matériaux Polymères et Composites, University of Mons, Belgium (moved from Friday poster session)

Friday 7 Oral Session

Applications I 9:00-10:40

09:00 KN-3 New electronic devices for low power consumption by learning from bio system, Hitoshi Tabata*, The Univeristy of Tokyo, Japan (KEYNOTE)

09:40 AP3-1 The enhanced abrasion resistance of a hydrophobic composite coating on chrome-plated brass substrate by integrating sputtering and atmospheric pressure plasma jet (APPJ) technologies, Chi-Liang Ko¹⁾*, Li-Shun Chen^1,2), Xin-Ru Sheng³⁾, Jyun-Teng Chen¹⁾, Hsien-Po Wang¹⁾, Yu-Lin Kuo¹⁾, 1) National Taiwan University of Science and Technology, Taiwan, 2) Chen-I Vacuum Technology Enterprise Co.,Ltd., Taiwan, 3) Click Sun-Shine Corp., Taiwan

AP3-2 Sputtered IZO thin film for substrate type organometallic halide perovskite solar cells, Peter Chao-Yu Chen*, Chieh-Chung Peng, National Cheng Kung University, Taiwan (withdrawal)

Break 10:00-10:20

10:20 AP3-3 Study of magnetron sputtering deposited ultrathin FeSnO_x films for Surface Plasmon Resonance sensors towards gas sensing applications, Martin Kormunda¹⁾*, Andreas Hertwig²⁾, Uwe Beck²⁾, Daniel Fischer²⁾, 1) J.E. Purkinje University, Czech Republic, 2) BAM Bundesanstalt für Materialforschung und – prüfung, Germany

Coffee Break 10:40-11:00

Applications I /Thin Films IV 11:00-12:40

11:00 AP3-4 Development of an evanescent optical integrated sensor in the Mid-Infrared for detection of pollution in groundwater or seawater, Virginie Nazabal^1,3)*, Emeline Baudet^1,3), Aldo Gutierrez-Arroyo²⁾, Marion Baillieul¹⁾, Joel Charrier²⁾, Petr Nemec³⁾, Loic Bodiou²⁾, Jonathan Lemaitre²⁾, Emmanuel Rinnert⁴⁾, Karine Michel⁵⁾, Bruno Bureau¹⁾, 1) Université de Rennes 1, France, 2) FOTON-UMR-CNRS 6082, France, 3) University of Pardubice, Czech Republic, 4) IFREMER, Laboratoire Détection, Capteurs et Mesures, Dpt. Recherches et Développements Technologiques, France, 5) BRGM, Direction Eau, Environnement et Ecotechnologies, France

11:20 AP3-5 A novel gas barrier foils with encapsulation adhesive properties for flexible OLED devices, Koichi Nagamoto*, Satoshi Naganawa, Tatsuya Izumi, Kenta Nishijima, Mikihiro Kashio, LINTEC Corporation, Japan

11:40 TF3-1 In situ spectroscopic ellipsometry for characterization of thin sputtered films, James Hilfiker¹⁾, Stefan Schoeche¹⁾*, Greg Pribil¹⁾, Tom Tiwald¹⁾, Jeff Hale¹⁾, John Woollam^1,2), 1) J.A. Woollam Co., Inc., USA, 2) University of Nebraska, USA

12:00 TF3-2 A comparative biocompatibility study of graded TiC/a:C coatings prepared by dcMS and chopped HiPIMS, Marcel Meško¹⁾*, Gaby Gotzmann²⁾, Jana Bohovičová¹⁾, Paulína Zacková³⁾, Ľubomír Čaplovič³⁾, Frans Munnik⁴⁾, Mária Čaplovičová⁵⁾, Ľubomír Vančo⁵⁾, Viera Skákalová⁶⁾, Matthias Krause⁴⁾, 1) Slovak University of Technology in Bratislava, Faculty of Materials Science and Technology in Trnava, Slovakia, 2) Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP, Germany, 3) Slovak University of Technology in Bratislava, Fuculty of Materials Science and Technology in Trnava, Institute of Materials Science, Slovakia, 4) HZDR, Institute of Ion Beam Physics and Materials Research, Germany, 5) Slovak University of Technology in Bratislava, STU Centre for Nanodiagnostics, Slovakia 6) University of Vienna, Austria

12:20 TF3-3 Tribological properties of tin-nitride films prepared by reactive sputtering, Yasushi Inoue¹⁾*, Daiki Sato¹⁾, Osamu Takai²⁾, 1) Chiba Institute of Technology, Japan, 2) Kanto Gakuin University, Japan

Lunch Break 12:40-14:00

14:00 PP3-1 Plasma etching towards atomic precision, H. Miyazoe¹⁾*, D. R. Boris²⁾, S. C. Hernández²⁾, E. H. Lock²⁾, S. G. Walton²⁾, S. U. Engelmann¹⁾, 1) IBM T.J. Watson Research Center, USA, 2) Naval Research Laboratory, USA (invited)

14:40 PP3-2 Research of gas barrier film of SiO_x:C multilayer deposited by RF magnetron sputtering, Hsiao-Lun Chen¹⁾*, Yan-An Lin²⁾, Wei-Bo Liao³⁾, Yan-Yu Liao²⁾, Cheng-Chung Lee³⁾, Chien-Cheng Kuo³⁾, 1) Graduate Institute of Energy Engineering, Thin Film Technology Center, National Central University, Taiwan, 2) Department of Mechanical Engineering, National Central University, Taiwan, 3) Department of Optics and Photonics, Thin Film Technology Center, National Central University, Taiwan

15:00 PP3-3 Multi-scale modelisation of TiO_x thin films growth produced with a dual magnetron system: from plasma to final film properties., Stephane Lucas¹⁾*, Andreas Pflug²⁾, Romain Tonneau¹⁾, Pavel Moskovkin¹⁾, 1) University of Namur, Belgium, 2) Fraunhofer Institute for Surface Engineering and Thin Films (IST), Germany

Friday 7 Poster Session 15:20-16:40
(Drinks and Light Meals will be served)

Posters from oral sessions

KN-3, AP3-1, AP3-3, AP3-4, AP3-5, TF3-1, TF3-2, TF3-3
PP3-1, PP3-2, PP3-3

Plasma Processes POSTER

PP3-4p Rf-plasma nitriding of steels with the cathodes made of different kinds of metals, Atsushi Suzuki¹⁾*, Shuichi Asahina²⁾, 1) National Institute of Advanced Industrial Science and Technology (AIST), Japan, 2) Shimane Institute for Industrial Technology, Japan

(PP3-5p is moved to Thursday poster session)

PP3-6p TiO₂ thin film surfaces treated by O₂ plasma in dielectric barrier discharge with assistance of heat treatment, Retsuo Kawakami¹⁾*, Kengo Fujimoto¹⁾, Masahito Niibe²⁾, Yuma Araki²⁾, Yoshitaka Nakano³⁾, Takashi Mukai⁴⁾, 1) Tokushima University, Japan, 2) University of Hyogo, Japan, 3) Chubu University, Japan, 4) Nichia Corporation, Japan

PP3-7p Effect of superimposed dual frequency operation on the characteristics of internal linear inductively coupled plasma, Do Han Kim¹⁾*, Tae Hyung Kim¹⁾, Soo Jung Lee¹⁾, Won Oh Lee¹⁾, Kyoung Nam Kim³⁾, Geun Young Yeom^1,2), 1) Department of Materials Science and Engineering, Sungkyunkwan University, Korea, 2) SKKU Advanced Institute of Nano Technology (SAINT), Sungkyunkwan University, Korea, 3) Department of Materials Science and Engineering, Daejun University, Korea

PP3-8p Enhancement of electron field emission characteristics of carbon nanotubes using plasma treatment and coating of silicon film, Wen-Ching Shih*, Chen-Pang Huang, Tatung University, Taiwan (withdrawal)

PP3-9p Composite divertor materials for fusion reactors, Takuya Washihira*, Kengo Yamaguchi, Fumitaka Ishikawa, Shota Sakano , Helmut Takahiro Uchida , Akira Tonegawa, Yoshihito Matsumura, Tokai University, Japan

PP3-10p Diagnostics of low pressure inductively coupled VHF plasma used for nanostructured carbon deposition, Katsuyuki Okada*, National Institute for Materials Science, Japan

Thin Films POSTER III

TF3-4p Super-hydrophilic thin films deposited by plasma polymerized acrylic acid, Bo-Yi Lin¹⁾*, Wei-Bo Liao²⁾, Cheng-Chung Lee²⁾, Chien-Cheng Kuo²⁾, 1) Department of Mechanical Engineering, National Central University, Taiwan, 2) Thin Film Technology Center, National Central University, Taiwan

TF3-6p Structure and biocompatibility of F-containing TaCN thin films, J. H. Hsieh^1,2), H. T. Lin¹⁾*, S. L. Liu²⁾, 1) Dept. of Materials Eng., Ming Chi University of Technology. Taiwan, 2) Center for Thin Film Technologies and Applications, Ming Chi University of Technology, Taiwan

TF3-7p Ge-Se amorphous thin films: Surface patterning by irradiation, Petr Nemec¹⁾*, I. Csarnovics²⁾, M. Veres³⁾, M.R. Latif⁴⁾, V. Nazabal^5,1), S. Molnar²⁾, S. Kokenyesi⁶⁾, 1) University of Pardubice, Czech Republic, 2) University of Debrecen, Hungary, 3) Institute of Solid State Physics and Optics, Wigner RCP, Hungary, 4) Boise State University, USA, 5) Université de Rennes 1, France, 6) University of Debrecen, Hungary

TF3-8p Characterizations of tungsten carbide films prepared by filtered pulse arc deposition, Ryo Isono*, Toru Harigai, Tsuyoshi Tanimoto, Yushi Iijima, Yoshiyuki Suda, Hirofumi Takikawa, Toyohashi University of Technology, Japan

TF3-9p Crystallinity enhancement and recrystallization of VO₂ thin films during biased reactive sputtering, Kohei Matsuoka*, Nurul Hanis Azhan, Kunio Okimura, Tokai University, Japan

TF3-10p Dependence of self-heating on DLC film properties in filtered arc deposition system, Toru Harigai¹⁾*, Yuma Fujii¹⁾, Satoshi Degai¹⁾, Takahiro Imai¹⁾, Yoshiyuki Suda¹⁾, Hirofumi Takikawa¹⁾, Hideto Tanoue²⁾, Masao Kamiya³⁾, Satoru Kaneko⁴⁾, Yasui Haruyuki⁵⁾, Shinsuke Kunitsugu⁶⁾, Masahiro Kawaguchi⁷⁾, Kenichi Miura⁸⁾, 1) Toyohashi University of Technology, Japan, 2) Kitakyushu National College of Technology, Japan, 3) Itoh Optical Industrial Co., Ltd., Japan, 4) Kanagawa Industrial Technology Research Center, Japan, 5) Industrial Research Institute of Ishikawa, Japan, 6) Industrial Technology Center of Okayama Prefecture, Japan, 7) Tokyo Metropolitan Industrial Technology Research Institute, Japan, 8) Technology Research Institute of Osaka Prefecture, Japan

TF3-11p Optical and Mechanical Properties of SiO₂ Optical Thin Films by Sputtering and Electron Beam Evaporation, Saki Narita¹⁾*, Hiroshi Murotani¹⁾, Shigeharu Matsumoto²⁾, 1) Tokay University, Japan, 2) SHINCRON CO.,LTD., Japan

TF3-12p Surface modification of polydimethylsiloxane (PDMS) due to ultraviolet lamps and active oxygen exposure, Kazuki Hosoya¹⁾*, Ryo Wakayama¹⁾, Takumi Suto²⁾, Kei Oya^2,3), Satoru Iwamori^1,2), 1) Course of Mechanical Engineering, Graduate School of Engineering, Tokai University, Japan, 2) Department of Mechanical Engineering, School of Engineering, Tokai University, Japan, 3) Seikei University, Japan

TF3-13p Characteristics of titanium oxide thin films deposited by reactive sputtering for biomaterial applications, Masato Takeuchi¹⁾*, Kazuki Hosoya²⁾, Naruki Kimura¹⁾, Kazuki Fukuda¹⁾, Kei Oya^1,2), Satoru Iwamori²⁾, Takeo Nakano¹⁾, 1) Seikei University, Japan, 2) Tokai University, Japan

Applications POSTER

AP3-6p Anodic aluminum oxidation process on sputtered-Al/AZ91D magnesium alloy for improving the corrosion resistance, Jyun-Teng Chen*, Yan-Jie Wang, Chi-Liang Ko, Yu-Lin Kuo, National Taiwan University of Science and Technology, Taiwan

AP3-7p CF₄ plasma modification of PVDF-TrFE film with enhanced ferroelectric characteristics, Yi-Pei Jiang¹⁾*, Yu-Jie Lin¹⁾, Shun-Hsiang Chan²⁾, Ming-Chung Wu²⁾, Jer-Chyi Wang^1,3,4), 1) Department of Electronic Engineering, Chang Gung University, Taiwan, 2) Department of Chemical and Materials Engineering, Chang Gung University, Taoyuan, 3) Chang Gung Memorial Hospital, Taiwan, 4) CREST, Chag Gung University, Taiwan, 5) Ming Chi University of Technology, Taiwan

AP3-8p Biomedical Applications of 3D printing ABS material by O₂ plasma treatment and graft polymer hydrogel, Ying-Cien Ye¹⁾*, Bo-Han Zeng¹⁾, Jui-Wen Sun¹⁾, Hao-Hueng Chang²⁾, Yu-Ting Li³⁾, Shu-Chaun Liao¹⁾, 1) Da-Yeh University, Taiwan, 2) School of Dentistry, National Taiwan University, Taiwan, 3) Graduate Institute of Oral Biology School of Dentistry, National Taiwan University, Taiwan

AP3-9p Surface modified by O₂ plasma and UV-light polymerization immobilization of chlorhexidine with antibacterial properties, Bo-Han Zeng¹⁾*, Ying-Cien Ye¹⁾, Rui-Wen Sung¹⁾, Hao-Hueng Chang²⁾, Shu-Chaun Liao¹⁾, 1) Da-Yeh University,Taiwan, 2) School of Dentistry, National Taiwan University, Taiwan

AP3-10p Plasma-polymerized HMDSO/O₂ and UV-light graft Allylamine immobilized gelatin on pure Ti for biomedical applications, Rui-Wen Sung¹⁾*, Ying-Cien Ye¹⁾, Bo-Han Zeng¹⁾, Hao-Hueng Chang²⁾, Yu-Ting Li³⁾, Shu-Chaun Liao¹⁾, 1) Da-Yeh University, Taiwan, 2) School of Dentistry, National Taiwan University, Taiwan, 3) Graduate Institute of Oral Biology School of Dentistry, National Taiwan University, Taiwan

AP3-11p New Cu(RuAgN_x) copper alloy films for medical applications, Chon-Hsin Lin*, Asia-Pacific Institute of Creativity, Taiwan

AP3-12p Revised sputtering erosion with deposited impurities and temperature of beryllium plate under fusion relevant conditions, Yasunori Nejoh¹⁾*, Nobuo Mizuno²⁾, 1) Hachinohe Institute of Technology, Japan, 2) Nihon University, Japan

AP3-13p Study on temperature properties of divertor plates in nuclear fusion devices, Nobuo Mizuno¹⁾*, Takuma Howashi²⁾, Hiroki Sugizaki²⁾, YasuNori Nejoh³⁾, 1) College of Humanities and Sciences, Nihon University, Japan, 2) Graduate School of Integrated Basic Sciences, Nihon University, Japan, 3) Hachinohe Institute of Technology, Japan

AP3-14p Ground-based simulation of low earth orbit (LEO) space environment using laser-induced oxygen/argon plasma, Kumiko Yokota*, Yusuke Fujimoto, Ryota Okura, Kazuki Kita, Masahito Tagawa, Kobe University, Japan

AP3-15p The deposition of inorganic/organic composite film using atmospheric pressure plasma jet for enhancing the corrosion resistance of AZ91D, Yu-Lin Kuo*, Jie-Long Wang, Chi-Liang Ko, Jhao-Yu Kuo, Ke-Chi Fu, National Taiwan University of Science and Technology, Taiwan

AP3-16p Fabrication of SiO₂ and SiN diaphragms supported on a Si substrate using inward plasma etching, Jun Miyawaki¹⁾*, Toshitaka Kubo¹⁾, Atsushi Ando¹⁾, Satoshi Takahashi²⁾, Shun'ichiro Shimbori²⁾, Tetsuo Shimizu¹⁾, 1) National Institute of Advanced Industrial Science and Technology, Japan, 2) Sanyu Co.,Ltd., Japan

AP3-17p Carbon based emitter assisted non-thermal plasma reforming for hydrogen production, Hoang-Jyh Leu^1,3)*, Kuo-Feng Chiu^1,2), Pei-Chi Liu²⁾, 1) Master's Program of Green Energy Science and Technology, Feng Chia University, Taiwan, 2) Department of Materials Science and Engineering, Feng Chia University, Taiwan, 3) Green Energy Development Center, Feng Chia University, Taiwan

AP3-18p Using atmospheric pressure plasma in the preparation of 100% Grey cotton knitted Fabric, Chi-wai Kan*, Chui-fung Lam, The Hong Kong Polytechnic University, Hong Kong

Closing Session

Poster Award Ceremony

Closing Remark Tetsuya Goto, Vice Char, ISSP2017 committee, Tohoku University, Japan

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Contact to: ISSP2017 Office (Contact Information)

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Last Updated: 2017-06-27