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The Stanford R. Ovshinsky Prize for Excellence in Amorphous Chalcogenides
for the Year 2008

was conferred in Montpelier (France)

During The International Symposium on Non-Oxide Glasses

to

Prof. Annie Pradel 
University of Montpellier II



Main results in the field of Chalcogenide Materials

My first investigation in the field of chalcogenide glasses concerned the domain of Solid State Ionics. 
With the development of a twin roller fast quenching apparatus, I was able to prepare large series of lithium 
conductive chalcogenide glasses that exhibit very high ionic conductivity and were proposed as solid electrolytes 
for all solid state batteries (Solid State Ionics, 17, 147 (1985), Solid State Ionics, 18-19, 351 (1986)). 
With time, I slowly moved towards a broader study of chalcogenide glasses that included crystalline and glassy, 
bulk and thin film materials with applications in the field of solid state ionics, IR integrated optics, 
information storage and environmental control. In the recent years, three aspects were developed that led to important results: 


*In the domain of Solid State Ionics, my research has been focused on glasses of interest in the development 
of electrical memories and more precisely in the socalled photo-metallization cells (PMC) memories. In the course 
of this investigation, our research team carried out experiments based upon the use of the Electrical Field Microscopy, 
for the first time in the case of inorganic glasses.

Such a technique helped us in visualizing electrical heterogeneousness in Ag-Ge-Se glasses and showed the percolation threshold 
that explain the jump in electrical conductivity observed when increasing the amount of silver in the Ge-Se matrix 
(J. Optoelectr. Adv. Materials 8(6) 2112-2116 (2006); J. Non-Crystalline Solids 353 (2007) 1261- 1263). Additional neutron 
diffraction experiments showed that the Ag-Ag correlations were drastically different below and above the percolation threshold 
(A. Pradel, ANC3, Brasov, Roumania, 2-6 July 2007)

*In the domain of optical storage of information, the main investigation was carried out in the framework of a project (Chalmemstory) 
funded be the french "Agence Nationale de la Recherche" and with A. Kolobov as a co-worker during his stay in Montpellier (2005-2007). 
We studied the changes occurring in the structure of Ge-Sb-Te materials when they were submitted to a large pressure (up to several tenths of GPa). 
The most important result is the amorphization of Ge2Sb2Te5 under pressure. Such a result led us to suggest that the pressure 
is a parameter that should not be neglected when one deals with phase change under a laser beam (Phys.Rev. Letters 97 (2006) 035701).

*Finally, in the framework of a more technological project funded by the European Space Agency, we are currently working at developing 
integrated IR optical devices to be used in spatial interferometers (Appl. Phys. Lett. 90, 011110 (2007)). Such a project led us to develop 
new equipment: a co-evaporator that helped us producing high quality ternary telluride layers and developing waveguides able to transmit light 
in the infrared up to 20 um (Optoelectronics and Adanced Materials - Rapid Communications 1(10), 487 - 490 (2007)).


 

 

 

Annie Pradel, University of Montpellier II, France





Curriculum Vitae

 




  


 

 

"Stanford R. Ovshinsky" Award was founded in 2001, with the aim to recognize the great achievements in the field of chalcogenides. , 

 

More about Stanford R. Ovshinsky...

Since then, the winners of the award Prize were:

2001  Prof. Stephen R. Elliott (Cambridge University, UK) and Prof. Keiji Tanaka (Hokkaido University, Sapporo, Japan)

2002  Prof. Victor Lyubin (Ben-Gurion University, Negev, Israel) and Dr. Alexander Kolobov (National Institute of Advanced Industrial Science and Technology, Tsukuba, Japan)

2003  Prof. Punit Boolchand (University of Cincinnati, USA) and Prof. Koichi Shimakawa (Gifu University, Japan)

2004  Prof. Hellmut Fritzsche (James Franck Institute, Chicago, USA) and Prof. Mihai Popescu (Institute of Materials Physics, Bucharest, Romania)

2005  Prof. Andrei Andriesh (Academy of Sciences of Moldova, Chisinau, Moldova)

2006  Prof. Miloslav Frumar (University of Pardubice, Czech Republic)

2007  Prof. Matthias Wuttig (I. Physikalisches Institut der RWTH Aachen, Germany)

2008  Prof. Annie Pradel (University of Montpellier II, France)

2009  Prof. Matthieu Micoulaut (Universite Pierre et Marie Curie, Paris, France)

2010  Prof. Noboru Yamada (Panasonic, Japan)

2012  Prof. Gerald Lucovsky (North Carolina State University, USA)