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학회소식학술행사/정보마당

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[IMLB 2012] 제 16차 IMLB 국제학술대회 (IMLB 2012) 대회 사전등록 안내
2012.02.21 조회 수 : 33419

16IMLB 국제학술대회 (IMLB 2012) 소개

- 사전등록 마감: 2012 5 15 -

 

   16IMLB 국제학술대회(IMLB 2012) 2012 6 17()부터 22()까지 일주일 간 제주국제컨벤션센터에서 한국전기화학회와 한국전지산업협회 공동 주최로 개최됩니다. IMLB 는 매 2년 마다 대륙간을 이동하면서 개최되는 리튬이차전지 등 에너지 저장장치 분야에서 최고 권위를 자랑하는 세계대회이며, 이번 대회는 한국에서 최초로 개최되는 IMLB 대회입니다. .

 

 “New Era for Smart Energy Storage”라는 주제 하에 개최되는 제 16 IMLB 국제학술대회는 최근 신성장동력 산업으로 주목 받고 있는 리튬전지를 주제로, 50개국 2,000여명의 관련 산업 종사자 및 연구자들이 한데 모여 최신 기술을 공유하고 새로운 트렌드를 만들어내는 장입니다. IMLB 2012 조직위원회는 관련 분야의 최고 석학들을 초청연사로 모셔 학술 프로그램을 구성하였으며, 최신 기술을 한 자리에서 만나볼 수 있는 전시 프로그램과 관련 분야의 최신 기술을 직접 체험할 수 있는 제주스마트그리드홍보관 및 제주의 아름다운 관광지로 구성된 테크니컬 투어를 준비 중입니다.

 

  16 IMLB 국제학술대회의 사전 등록은 5 15일까지 진행되며, 학술대회 프로그램 및 등록에 관련된 사항은 홈페이지(http://www.imlb2012.org)에 보다 상세하게 안내되어 있습니다. 관련 산업 종사자 및 연구자 여러분들의 많은 관심과 적극적인 참여를 부탁 드립니다.

 

[등록비 및 사전행사 안내]

구분

카테고리

사전등록

(5 15일 까지)

현장등록

(5 16일부터)

등록비

일반

600,000

700,000

학생

300,000

350,000

동반자

150,000

200,000

*동반자 등록은 참가자의 배우자나 가족의 경우에만 적용 가능합니다. (학술장 출입 불가)

사교행사비

Welcome Reception

무료

Welcome Dinner

10,000

Technical Tour

20,000

Banquet

80,000

 

[Topic]

Cathode materials

Electrolytes and separators

Modeling and analysis

Cell design and evaluation

Supercapacitors

Anode materials

Interface phenomena

Safety and reliability

System and application

New battery systems

 

 

 

- 초청연사 리스트

*국내초청연사는 곧 추가로 확정, 공지될 예정입니다.

No.

Name

Affiliation

Country

Title

1

Takeshi Abe

Kyoto University

Japan

Electrochemical Properties of Graphite in Propylene Carbonate-based Electrolytes

2

Khalil Amine

Argonne National Laboratory

USA

Advanced Composite Cathode and Graphene/Silicon Anode as High Energy System for Automotive Applications

3

Michel Armand

CIC Energigune

Spain

Will Safety Concerns Change our Electrolytes? Back to Solid-State?

4

Doron Aurbach

Bar-Ilan University

Israel

Rechargeable Lithiated Silicon-Sulfur (SLS) Battery Prototypes

5

Mahalingam  Balasubramanian

Argonne National Laboratory

USA

Battery Science Using Hard X-ray Core-Shell Spectroscopic Methods at Sector-20 Beamlines at the Advanced Photon Source

6

Brian M.Barnett

TIAX LLC

USA

Lithium-Ion Battery Safety: Mechanisms of Safety, Predictions of Impending Thermal Runaway and Integrity of Safety Testing

7

Kirill G. Bramnik

BASF

Germany

Improved Cathode Materials and Electrolytes as Key Ingredients of Next Generation Lithium Ion Batteries

8

Ralph J. Brodd 

Broddarp of Nevada, Inc.

USA

Costs of Li-Ion Batteries for Automotive Applications

9

Peter G. Bruce

University of St. Andrews

UK

Positive Aspects of the Non-aqueous Li-O2 Battery

10

Gerbrand Ceder

Massachusetts Institute of Technology

USA

The Limits of Li, Na and Mg Intercalation

11

Yet-Ming Chiang

Massachusetts Institute of Technology

USA

Lithium Ion Flow Batteries for Large Scale Energy Storage

12

Yi Cui

Stanford University

USA

High Energy Battery Electrodes: Silicon Anodes and Sulfur Cathodes

13

Jeff Dahn

Dalhousie University

Canada

Do Short-Term Precision Measurements Mirror Long-Term Cycle Life?

14

Claude Delmas

Université Bordeaux

France

The Electrochemical Processes Involved during Cycling of Overlithiated Li(Li,Mn,Co,Ni)O2 Layered Oxides

15

Vincent Giordani

Liox Power, Inc.

USA

Freely Diffusing Oxygen Evolving Catalysts for Rechargeable Li-O2 Batteries

16

Clare P. Grey

Stony Brook University & University of Cambridge

UK

Following Function in Real Time: New NMR and MRI Methods for Studying Structure and Dynamics in Batteries and Supercapacitors

17

David Howell

U.S. Department of Energy

USA

Fiscal Year 2012 Highlights of Automotive Energy Storage R&D Funded by the U.S. Department of Energy

18

Chi-Chang Hu

National Tsing Hua University

Taiwan

Anodic Deposition of Nano-structured Mn Oxides for Supercapacitors: Nanostructure Design and Electrochemical Quartz Crystal Microbalance Study

19

Xuejie Huang

Institute of Physics, Chinese Academy of Sciences

China

Silicon Thin Film Anode for Li-ion Batteries

20

Patrik Johansson

Chalmers University of Technology

Sweden

New Electrolyte Material Strategies for Old and New Battery Concepts

21

Kiyoshi Kanamura

Tokyo Metropolitan University

Japan

Development of Rechargeable Lithium-Metal Battery by using 3DOM Polyimide Separator

22

Ryoji Kanno

Tokyo Institute of Technology

Japan

Lithium Superionic Conductor, Li10GeP2S12, and its Application to All Solid-state Batteries

23

Tomohiro Kawai

Mitsubishi Chemical Corporation

Japan

Thermal Analysis for Safety of Electrolytes

24

Tomohide Kazama

Nomura Research Institute, Ltd.

Japan

Trends of Electrified Vehicles and Implications for the Battery Business

25

Lingli Kong

Tianjin Lishen battery Joint-Stock Co., Ltd.

China

The Improvement of High Temperature Performance of Li ion Battery with LMO or NCM by Using Blend of Salts or Additives in LiPF6 Based Electrolyte

26

Robert Kostecki

Lawrence Berkeley National Laboratory

USA

In situ Far- and Near-Field Diagnostics of Electrical Energy Storage Systems

27

Sujeet Kumar

Envia Systems Inc.

USA

High Energy Lithium ion Batteries based on Layered-Layered Cathode and Silicon Anode

28

Xingjiang Liu

Tianjin Instiute of Power Sources

China

Control of Interface of Glass-ceramic LATP/Liquid Electrolyte for Aqueous Lithium Batteries

29

Douglas R.MacFarlane

Monash University

Australia

Organic Ionic Plastic Crystal Electrolytes for Lithium (Metal) Batteries

30

Joachim Maier

Max Planck Institute for Solid State Research

Germany

Thermodynamics of Lithium Storage

31

Arumugam Manthiram

University of Texas at Austin

USA

Understanding the Intricacies of High-voltage Spinel Cathodes

32

Christian Masquelier

Université de Picardie Jules Verne Amiens

France

Investigation of Li+ Insertion/Extraction Mechanisms in Positive Electrodes for Li Batteries: Phosphates, Fluorophosphates and Silicates

33

MarkMathias

General Motors

USA

Reaching the Automotive Advanced Lithium-Ion Battery Frontier

34

KatsuhikoNaoi

Tokyo University of Agriculture & Technology

Japan

Nanohybrid Supercapacitor Utilizing Hyper-Dispersed nc-Li4Ti5O12 Composited with SGCNT

35

Linda F.Nazar

University of Waterloo

Canada

Graphene-Metal Oxide Catalysts for Li-O2 Batteries

36

Hiroyuki Nishide

Waseda University

Japan

Radical Polymers as a Cathode Active Material of Lithium Ion Batteries

37

Petr Novák

Paul Scherrer Institute

Switzerland

Elucidating the Reaction Mechanism of M0.5TiOPO4 Electrode Materials

38

Zempachi Ogumi

Kyoto University

Japan

Advanced Analysis Technology for Understanding Battery Reactions

39

TetsuyaOsaka

Waseda University

Japan

Highly Durable Si Anode More than Several Thousand Cycles and its Properties

40

EmanuelPeled

Tel Aviv University

Israel

Challenges and Obstacles in the Development of Sodium-Air Batteries

41

BrunoScrosati

Sapienza Università di Roma

Italy

Progresses in Lithium Ion Batteries

42

Norio Takami

Toshiba Corporation

Japan

High-Power and Long-Life Li-Ion Batteries Using Lithium Titanium Oxide Anode for Automotive and Stationary Power Applications

43

Jean-MarieTarascon

Université de Picardie Jules Verne

France

F-based Sulphates Frameworks and their Use in Li-ion Batteries

44

KuniakiTatsumi

National Institute of Advanced Industrial Science and Technology

Japan

Study on Surface Modifications of Positive Electrode Materials

45

Cecile Tessier

SAFT

France

High Energy Cells and Ageing Mechanisms

46

Michael M. Thackeray

Argonne National Laboratory

USA

High Capacity Li- and Mn-rich Metal Oxide Electrodes: Challenges and Opportunities

47

Josh Thomas

Uppsala University

Sweden

Cell-Chemistry and the EV BMS Algorithm

48

Steven Visco

PolyPlus Battery Company Inc.

USA

Next Generation Li-Air and Li-S Batteries based on Ceramic Protected Li Electrodes

49

Gordon Wallace

University of Wollongong

Australia

Flexible, Wearable Electrodes based on Carbon Nanotubes and/or Graphene for Capacitor Applications

50

Masayoshi Watanabe

Yokohama National University

Japan

A New Family of Ionic Liquids for Advanced Lithium Secondary Batteries

51

Martin Winter

University of Muenster

Germany

Communication between Anode and Cathode and their Influence on Performance in Lithium Ion Batteries

52

Margret Wohlfahrt-Mehrens

Zentrum für Sonnenenergie- und Wasserstoff-Forschung

Germany

Influence of Partial Substitution on Lithium Manganese and Lithium Cobalt Phosphate

53

Yongyao Xia

Fudan University

China

High Energy Density Hybrid Supercapacitor Using Mesoporous Carbon and Ti-based Material

54

Kang Xu

U.S. Army Research Laboratory

USA

Electrolyte/Electrode Interphases in Li Ion Batteries

55

Atsuo Yamada

The University of Tokyo

Japan

High-Voltage Pyrophosphate Cathode

56

Jun-ichi Yamaki

Kyushu University

Japan

Influence of LiPF6 on the Thermal Stability of Graphite with Electrolyte

57

Yong Yang

Xiamen University

China

The Studies of Silicates an Fluorophosphates as High Capacity Cathode Materials for Li-ion Batteries

58

Xiao-Qing Yang 

Brookhaven National Laboratory

USA

Structural Changes of Cathode Materials for Lithium-ion Batteries during Heating Studied by the Combined in situ XRD, X-ray Absorption and TEM

59

Rachid Yazami

Nanyang Technological University

Singapore

Thermodynamics Spectrometry; A New Investigation Tool For Electrode Materials And Batteries: A Review

60

Gleb Yushin

Georgia Institute of Technology

USA

Nano-Composite Anodes for Use in Li-ion Batteries with Enhanced Performance

61

Karim Zaghib

Hydro-Québec

Canada

Lithium Metal and Li-ion Batteries for Transportation and Energy Storage: Challenges and Opportunities

62

Ji-Guang Zhang

Pacific Northwest National Laboratory

USA

Effects of Graphene Based Air Electrode and Nonaqueous Electrolytes on the Performance of Li-Air Batteries

63

John Zhang

Celgard, LLC

USA

Li-ion Design and Li-ion Safety

 

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