G
Gilbert Teyssedre
Researcher at University of Toulouse
Publications - 340
Citations - 6451
Gilbert Teyssedre is an academic researcher from University of Toulouse. The author has contributed to research in topics: Space charge & Dielectric. The author has an hindex of 35, co-authored 326 publications receiving 5512 citations. Previous affiliations of Gilbert Teyssedre include Spanish National Research Council & Solid State Physics Laboratory.
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Charge transport modeling in insulating polymers: from molecular to macroscopic scale
TL;DR: Recent progress in the field of atomistic and macroscopic modeling is emphasized and challenges based on such approaches that constitute a direction for future research are discussed.
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Advanced polymeric dielectrics for high energy density applications
Tran Doan Huan,Steve Boggs,Gilbert Teyssedre,Christian Laurent,Miko Cakmak,Sanat K. Kumar,Rampi Ramprasad +6 more
TL;DR: In this article, the challenges and opportunities surrounding capacitor materials development/discovery in a practical context are reviewed, and several hierarchical considerations ranging from dielectric, electronic, morphological, processing, reliability and electrical characteristics need to be confronted and addressed adequately before one can progress from biaxially oriented polypropylene toward next generation materials.
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Polymeric HVDC Cable Design and Space Charge Accumulation. Part 1: Insulation/Semicon Interface
Davide Fabiani,Gian Carlo Montanari,Christian Laurent,Gilbert Teyssedre,Peter Morshuis,R. Bodega,L.A. Dissado,A. Campus,Ulf Nilsson +8 more
TL;DR: In this article, the authors analyzed different semiconductive and insulating materials candidate for HVDC cable applications, the best solution to be exploited for cable design would be the combination showing a high threshold for space charge accumulation, a small rate of charge accumulation as a function of electric field and a small activation energy, i.e., a space charge amount less dependent on temperature.
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Description of bipolar charge transport in polyethylene using a fluid model with a constant mobility: model prediction
TL;DR: In this paper, a conduction model aimed at describing bipolar transport and space charge phenomena in low density polyethylene under dc stress is presented, which is able to describe the general features reported for external current, electroluminescence and charge distribution.