Month: August 2017

Matsumoto: Interesting TDGL simulations of Jc and comparison to experiment. It is reported experimental Jc measurements on BHO doped GdBCO with different level of doping. Best pinning force density Fp at 10 K was achieved on 20:1 volume fraction. The analysis of temperature behavior Jc(T) with Griessen’s model is reported.

Questions: Is the simulation 3D? No. How many pinning sites can be added to the simulation? What is the meaning of the background pins at high field? Difference of delta-l and delta-Tc pinning? How is Jc determined in the simulation?

Yoshida: SmBCO + BaHfO3 coated conductors. Low-T growth technique (750 C vs 960 C) with seed layer (150 C less than without). Rods are thinner (7 nm vs 13.5 nm), B_phi is larger. High rate leads to small pinning sites (similarly as in previous presentations).

High speed growth technique in a reel-to-reel deposition systems up to 100 Hz. No degradation of Jc reported. No clear which is the actual film growth rate.

Questions: How are the inclination angles defined? What is the effect of strain in growth of nanocolumns? What is the Ic of the sample? (from patterned sample) What is the growth rate in “high growth rate”-films?

How is the substrate temp measured? 960 C is a lot! (didn’t ask this, because of lack of time)

Erbe: ReBCO + BHO on TFA-MOD on STO and CeO2-buffered CC. Re = Gd, higher Tc, should have wider deposition parameters. Result: Narrow process parameters, otherwise impurities (on STO). On STO optimal deposition conditions are: T = 810 °C and P(O2) 100 – 50 ppm. On metal optimal t_sub is 20 C lower (we’ve seen this also on PLD films) due to the reaction with CeO2 seed layer (BaCeO3 forms). Pores in films on meta.

Questions: What about the in-plane texture? Good in-plane texture. Optimal temperature difference STO / CC. Thickness of the films: 250-300 nm.

Jha: Surface modified target approach to enhance Jc, Y211 dopant as segment of target. Nano dots formed into YBCO matrix. Jc measurements carried out at 77 and 65 K. Dip in the Jc(theta) near ab-plane. Otherwise almost isotropic. Theory from Mishec SUSt 28. Planar defects cause a dip in ab-planes. For further work doping with other rare earths RE211 phases will be studied.

Questions: Could this promote substitution of rare earth ion of dopant on superconductor? A: yes, but the final effect of this cannot be predicted in advance.

van der Beek: edge disorder and rough flux front. Flux noise in rf antennas. MO-visualization. Seen also in Nb. And in other elastic media (paper, ink on paper etc). Calculate correlations in space and time. Universality classes vary between different superconducting materials. Controlled disorder, irradiated with heavy ions.

Questions: How do the flux avalanches in MgB2 relate to this? Not really definite yet.

This is the second day of C-2 session in IUMRS-ICAM2017. A first paper in the morning was cancelled. Since more than 30 audiences　were waiting in the room, Prof. Bruno Ameduri (CNRS) volunteered to entertain these audiences by his magic show. Prof. Bruno Ameduri is a famous chemist in the area of fluoropolymers and is also well known as CliniClown visiting sick children in hospitals of Montpellier and abroad. He showed the difference in molecular weight synthesized by free radical polymerization and controlled radical polymerization through the length change of three different ropes by his magic! All audiences understand the concept of molecular weight distribution of polymer.

Science magic by Prof. Bruno Ameduri

 

 

 

In the morning session, we had one contributed paper and two invited papers on stimuli responsive nanogel and polymer gel thin film were presented.  In the afternoon session, five contributed papers and five invited papers were presented.  Control of nanoparticle surface for various composite applications, structure-property relationships of novel polymer nanocomposites, and surface structure and properties of polymer ultrathin films were presented.  We have more than 50 participants and active discussion was continued until the end of the day.

Since an expected room change happened, the session delayed by 15 min. Except for this, the session went well successfully with forty audience.

The keynote  speaker Dr. Ryoji Funahashi presented his recent activities on new-type

thermoelectric power generators that would be able to compete costwise with other forms of power generators in future.

The second speaker Dr. Shanchela determined the effective mass of the recently developed transparent conductor BaSnO3 to be 0.4m_0.

Advances in Functions and Reliability of Ceramics and Glasses Based on Structural Formation

Solid oxide fuel cell, environmental purification filters, wind power generation and solar cells are promising advanced systems to make a contribution to energy and environmental issues. In these systems, advanced ceramics and glasses are quite important as key materials, and further improvement of the materials functions and reliability is needed. This session was planned to discuss various possibilities for the sudden rise in advanced ceramics and glasses extensively from the viewpoint of structural formation.

This session was held from Aug. 28(MON) to Aug. 30(WED), 2017, in Kyoto Univ. and had 10 invited talks, 13 oral presentations, and 24 poster presentations. The speakers came from China, Taiwan, Korea, Thailand，Mexico and Japan. There were 20 or more attendees gave enthusiastic discussion for each oral presentation from various point of view (Fig.1). Especially, on the 2^nd day, Prof. Soo Wohn Lee, President of IUMRS participated this session all day and gave his comments to many presentations (Fig.2).

To advance our friendship between the speakers in this session, we went for dinner as the session banquet in the evening of the 2^nd day. We enjoyed Japanese Sake and fish Hamo (Conger myriaster) in a traditional restaurant, and have a good time to know each other. We promised to meet again in the next conference when we went back our accommodations.

Finally, all the organizers greatly expressed their gratitude to all speakers of this session, and also organizing committees of IUMRS-ICAM2017.

 

Fig.1 Group Photo of B-6 session after the 1^st day.

Fig.2 Group Photo of B-6 session after the 2^nd day.

In the afternoon on 28^th August, symposium of A-7 for next generation of fuel cell science was organized. The large room fully occupied on this date. So many participants wanted to listen the hot talk by active scientists.

1st Phot displays the lecture scene by Professor Ishihara who is authority in solid oxide fuel cell science. 2^nd one shows lecture scene of Professor Nagao (Nagoya University) who discovered unique direct biomas fuel cell devices.

Also, Professor Kondo (University of Tsukuba) introduced his famous work for non-precious metal. Those invited talks paid high level attention in our symposium.

2^nd day of our symposium will be started from 9 am in the South Wing room 21 of Yoshida Campus.

Look forward to seeing you in there.

Invited lecture scene by Professor Ishihara

 

 

 

Invited lecture scene by Professor Nagao

The symposium C-2 started from the afternoon of August 28.  Starting from the brief introduction of scope of this symposium by organizer, we had one contributed talk and 7 invited talks regarding the dynamics of polymer chain in polymer thin films,  the microdomain structure control of block copolymers,  the structure and electronic  properties of organic thin films, and advanced multiscale simulation of polymeric solids.  We have more than 50 participants and very active discussions throughout this afternoon. We also have poster session in the evening.  30 poster papers were presented and active discussion was continued around 8pm. .  Symposium organizers  will select two ACS Langmuir Poster Awards  and one RSC Soft Matter Poster Award.  The C-2 symposium will continue until the afternoon August 30.  (by K. Kojio and A. Takahara)

Invited talk by Prof. Opelia K. C. Tsui (Hong Kong University of Science and Technology)