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EMA 2016 Invited Speakers

Invited speaker Affiliation Symposium Symposium name

Susan Trolier-McKinstry

Pennsylvania State University, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Olle Heinonen

Argonne National Labs, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Andrew Rappe

University of Pennsylvania, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Brahim Dhkil

ECP, France

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Jonathan Spanier Drexel University, USA S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Roger Whatmore

Imperial College, UK

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Ram Katiyar University of Puerto Rico S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Efstathios (Stathis) Meletis

University of Texas at Arlington, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
I. Burc Misirlioglu

Sabanci Univ – Istanbul, Turkey

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Paul Evans

University Wisconsin-Madison, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Serge Nakhmanson

University of Connecticut, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Karin Rabe

Rutgers University, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
J. Marty Gregg Queen’s University Belfast, UK S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Timo Schumann University California, Santa Barbara, USA S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
John Heron

University California, Berkeley, USA

S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Inna Ponomareva University of South Florida S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Lane Martin University of California, Berkeley, USA S1 Multiferroic Materials and Multilayer Ferroic Heterostructures: Properties and Applications
Stefano Curtarolo
Duke University S2 Functional Materials: Synthesis Science, Properties, and Integration
Alan Doolittle
Georgia Tech S2 Functional Materials: Synthesis Science, Properties, and Integration
Kee Hoon Kim
Seoul National University S2 Functional Materials: Synthesis Science, Properties, and Integration
Gang Chen Massachusetts Institute of Technology S3 Use of thermal energy for electrical power generation and refrigeration: Fundamental science, materials development and devices
Jean-Pierre Fleurial Jet Propulsion Labs S3 Use of thermal energy for electrical power generation and refrigeration: Fundamental science, materials development and devices
Xavier Moya Cambridge University  S3 Use of thermal energy for electrical power generation and refrigeration: Fundamental science, materials development and devices
Karl Sandeman Imperial College London  S3 Use of thermal energy for electrical power generation and refrigeration: Fundamental science, materials development and devices
Zhifeng Ren University of Houston  S3 Use of thermal energy for electrical power generation and refrigeration: Fundamental science, materials development and devices
Yaniv Gelbstein Ben-Gurion University of the Negev S3 Use of thermal energy for electrical power generation and refrigeration: Fundamental science, materials development and devices
Nini Pryds Technical University of Denmark S3 Use of thermal energy for electrical power generation and refrigeration: Fundamental science, materials development and devices
Josh Buettner-Garret Solid Power S4 Ion Conducting Ceramics
Collin Becker US Army Research Lab S4 Ion Conducting Ceramics
Venkat Ananadan Ford Motor Company S4 Ion Conducting Ceramics
Guozhong Cao University of Washington S4 Ion Conducting Ceramics
Kyle Brinkman Clemson University S4 Ion Conducting Ceramics
Ho Nyung Lee Oak Ridge National Lab S4 Ion Conducting Ceramics
Sandrine Ricote Colorado School of Mines S4 Ion Conducting Ceramics
Darryl Butt Boise State University S4 Ion Conducting Ceramics
Roger De Souza RWTH Aachen S5 Multifunctional Nanocomposites
Matthew Dawber Stony Brooks S5 Multifunctional Nanocomposites
Patrick Hopkins University of Virgina S5 Multifunctional Nanocomposites
Takafumi Okamoto Murata Inc. S5 Multifunctional Nanocomposites
Chris Leighton UMN S5 Multifunctional Nanocomposites
Scott Chambers PNNL S5 Multifunctional Nanocomposites
Jeremy Levy University of Pittsburgh S5 Multifunctional Nanocomposites
Jayakanth Ravichandran USC S5 Multifunctional Nanocomposites
Anderson Janotti University of Delaware S5 Multifunctional Nanocomposites
Turan Birol Rutgers S5 Multifunctional Nanocomposites
Sosinna Haile Northwestern S5 Multifunctional Nanocomposites
Holger von Wenckstein U Leipzig S5 Multifunctional Nanocomposites
Michele Baldini IKZ Berlin S5 Multifunctional Nanocomposites
Martin Feneberg U Magdeburg S5 Multifunctional Nanocomposites
Jang-Sik Lee Pohang S5 Multifunctional Nanocomposites
Jiamian Hu Penn State       S5 Multifunctional Nanocomposites
C. A. Ross MIT S5 Multifunctional Nanocomposites
Ying-Hao Chu NCTU S5 Multifunctional Nanocomposites
Quanxi Jia Los Alamos S5 Multifunctional Nanocomposites
Dwight Viehland Virginia Tech S5 Multifunctional Nanocomposites
Karsten Albe Technical University of Darmstadt S6 Computational Design of Electronic Materials
Pamir Alpay University of Connecticut S6 Computational Design of Electronic Materials
Ismaila Dabo The Pennsylvania State University S6 Computational Design of Electronic Materials
Murray S. Daw Clemson University S6 Computational Design of Electronic Materials
Graeme Henkelman University of Texas S6 Computational Design of Electronic Materials
Richard Hennig University of Florida S6 Computational Design of Electronic Materials
Bing Huang Beijing Computational Science Research Center S6 Computational Design of Electronic Materials
Turab Lookman Los Alamos National Laboratory S6 Computational Design of Electronic Materials
Rohan Mishra Washington University in St. Louis S6 Computational Design of Electronic Materials
Changwon Park Oak Ridge National Laboratory S6 Computational Design of Electronic Materials
Inna Ponomareva University of South Florida S6 Computational Design of Electronic Materials
André Schleife University of Illinois at Urbana-Champaign S6 Computational Design of Electronic Materials
Hosung Seo University of Chicago S6 Computational Design of Electronic Materials
David Singh University of Missouri S6 Computational Design of Electronic Materials
Christopher R. Stanek Los Alamos National Laboratory S6 Computational Design of Electronic Materials
Jian-Xin Zhu Los Alamos National Laboratory S6 Computational Design of Electronic Materials
Sergei V. Kalinin Oak Ridge National Laboratory S6 Computational Design of Electronic Materials
S.-J. L. Kang KAIST S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Martin Harmer Lehigh University S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Ana Senos University of Aveiro S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Barbara Malic Jožef Stefan Institute S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Greg S. Rohrer Carnegie Mellon University S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Tor Grande Norwegian University of Science and Technology (NTNU) S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Klaus Van Benthem UC Davis S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Rosario Gerhardt Georgia Tech S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Joachim Binder KIT S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Mehmet Ali Gülgün Sabanci University S7 Processing and microstructure of functional ceramics: Sintering, grain growth and their impact on the materials properties
Jacilynn Brant Air Force Research Laboratory S9 Recent Developments in Superconducting Materials and Applications
Claudia Cantoni Oak Ridge National Laboratory S9 Recent Developments in Superconducting Materials and Applications
Leonardo Civale Los Alamos National Lab S9 Recent Developments in Superconducting Materials and Applications
Xi Dai Institute of Physics, Chinese Academy of Sciences S9 Recent Developments in Superconducting Materials and Applications
Chang-Beom Eom University of Wisconsin S9 Recent Developments in Superconducting Materials and Applications
Wilfried Goldacker Karlsruhe Institute of Technology S9 Recent Developments in Superconducting Materials and Applications
Francesco Grilli Karlsruhe Institute of Technology S9 Recent Developments in Superconducting Materials and Applications
Timothy Haugan Air Force Research Laboratory S9 Recent Developments in Superconducting Materials and Applications
Jiangping Hu Purdue University S9 Recent Developments in Superconducting Materials and Applications
Jinfeng Jia Shanghai Jiaotong University S9 Recent Developments in Superconducting Materials and Applications
Qiang Li Brookhaven National Laboratory S9 Recent Developments in Superconducting Materials and Applications
Goran Majkic University of Houston S9 Recent Developments in Superconducting Materials and Applications
Xiaoqing Pan University of Michigan S9 Recent Developments in Superconducting Materials and Applications
Tian Qian Institute of Physics, Chinese Academy of Sciences S9 Recent Developments in Superconducting Materials and Applications
Charles Rong Army Research Laboratory S9 Recent Developments in Superconducting Materials and Applications
Nanlin Wang Peking University S9 Recent Developments in Superconducting Materials and Applications
Hongming Weng Institute of Physics, Chinese Academy of Sciences S9 Recent Developments in Superconducting Materials and Applications
Frank N. Werfel Adelwitz Technologiezentrum GmbH S9 Recent Developments in Superconducting Materials and Applications
Judy Wu University of Kansas S9 Recent Developments in Superconducting Materials and Applications
Kazunari Yamaura National Institute for Materials Science S9 Recent Developments in Superconducting Materials and Applications
Jiaqiang Yan Oak Ridge National Laboratory S9 Recent Developments in Superconducting Materials and Applications
Yifeng Yang Institute of Physics, Chinese Academy of Sciences S9 Recent Developments in Superconducting Materials and Applications
Hiroshi Funakubo Tokyo Institute of Technology S10 Emerging Functionalities in Layered-Oxide and Related Materials
Paul Salvador Carnegie Mellon University S10 Emerging Functionalities in Layered-Oxide and Related Materials
Pat Woodward The Ohio State University S10 Emerging Functionalities in Layered-Oxide and Related Materials
Shiv Halasyamani UT Houston S10 Emerging Functionalities in Layered-Oxide and Related Materials
Michael Tsapatsis University of Minnesota S10 Emerging Functionalities in Layered-Oxide and Related Materials
John Wiley University of New Orleans S10 Emerging Functionalities in Layered-Oxide and Related Materials
Jamie Neilson Colorado State University S10 Emerging Functionalities in Layered-Oxide and Related Materials
David Singh Oak Ridge National Labs S10 Emerging Functionalities in Layered-Oxide and Related Materials
Claude Ederer ETH Zürich S10 Emerging Functionalities in Layered-Oxide and Related Materials
David Cann Oregon State University, US   S11  Advanced Electronic Materials: Processing, structures, properties and applications 
Xiangming Chen Zhejiang University, China   S11  Advanced Electronic Materials: Processing, structures, properties and applications 
Marco Deluca Montanuniversitaet Leoben, Austria   S11  Advanced Electronic Materials: Processing, structures, properties and applications 
Tadasu Hosokura Murata Manufacturing, Japan  S11 Advanced Electronic Materials: Processing, structures, properties and applications
Jacob Jones North Carolina State University, US  S11 Advanced Electronic Materials: Processing, structures, properties and applications
David Keeble University of Dundee, Scotland  S11 Advanced Electronic Materials: Processing, structures, properties and applications
Zdravko Kutnjak Jozef Stefan Institute, Slovenia   S11 Advanced electronic Materials: Processing, structures, properties and applications
Jingfeng Li Tsinghua University, China   S11 Advanced electronic Materials: Processing, structures, properties and applications
Xiaojie Lou Xi’an Jiaotong University, China   S11 Advanced electronic Materials: Processing, structures, properties and applications
Steven Milne University of Leeds, UK   S11 Advanced electronic Materials: Processing, structures, properties and applications
Hajime Nagata Tokyo University of Science, Japan   S11 Advanced electronic Materials: Processing, structures, properties and applications
Clive Randall Penn State, US  S11 Advanced electronic Materials: Processing, structures, properties and applications
Ian M. Reaney University of Sheffield, UK S11 Advanced electronic Materials: Processing, structures, properties and applications
Jungho Ryu KIMS, Korea   S11 Advanced Electronic Materials: Processing, structures, properties and applications
Yang Shen Tsinghua University, China   S11 Advanced Electronic Materials: Processing, structures, properties and applications
Derek C. Sinclair University of Sheffield, UK S11 Advanced Electronic Materials: Processing, structures, properties and applications
Takaaki Tsurumi Tokyo Institute of Technology, Japan   S11 Advanced Electronic Materials: Processing, structures, properties and applications
Jo Wook Ulsan National Institute of Science and Technology, Korea   S11 Advanced Electronic Materials: Processing, structures, properties and applications
Zuoguang Ye Simon Fraser University, Canada   S11 Advanced Electronic Materials: Processing, structures, properties and applications
Dragan Damjanovic Ceramics Laboratory, Swiss Federal Institute of Technology in Lausanne – EPFL S11 Advanced Electronic Materials: Processing, structures, properties and applications

 


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