Natalie Stingelin
Georgia Institute of Technology
202 Papers
784 Citations
Natalie Stingelin is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Polymer & Organic solar cell. The author has an hindex of 47, co-authored 183 publications. Previous affiliations of Natalie Stingelin include École Polytechnique Fédérale de Lausanne & Royal School of Mines.
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Papers
Enhanced Electrocaloric Response of Vinylidene Fluoride–Based Polymers via One‐Step Molecular Engineering
Florian Le Goupil,Konstantinos Kallitsis,Sylvie Tencé-Girault,Sylvie Tencé-Girault,Naser Pouriamanesh,Cyril Brochon,Eric Cloutet,Thibaut Soulestin,Fabrice Domingues Dos Santos,Natalie Stingelin,Natalie Stingelin,Georges Hadziioannou +11 more
TL;DR: In this paper, a straight-forward, one-pot chemical modification of P(VDF-ter-trFE-TER-CTFE) is reported through the controlled introduction of small fractions of double bonds within the backbone that, very uniquely, decreases the lamellar crystalline thickness while enlarging the crystalline coherence along the a-b plane.
Controlling aggregate formation in conjugated polymers by spin-coating below the critical temperature of the disorder–order transition
Markus Reichenberger,Daniel Kroh,Giovanni Maria Matrone,Konstantin Schötz,Stephan Pröller,Oliver Filonik,Margret E. Thordardottir,Eva M. Herzig,Heinz Bässler,Natalie Stingelin,Anna Köhler +10 more
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Spectroscopic evaluation of mixing and crystallinity of fullerenes in bulk heterojunctions
Anne A. Y. Guilbert,Malte Schmidt,Annalisa Bruno,Annalisa Bruno,Jizhong Yao,Simon King,Sachetan M. Tuladhar,Thomas Kirchartz,Thomas Kirchartz,M. Isabel Alonso,Alejandro R. Goñi,Natalie Stingelin,Saif A. Haque,Mariano Campoy-Quiles,Jenny Nelson +14 more
TL;DR: In this paper, a combination of optical spectroscopy techniques was used to probe the degree of mixing and crystallization of conjugated poly(3-hexylthiophene) and fullerene poly(6,6]-phenyl-C61-butyric acid methyl ester PCBM.
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Microstructural control suppresses thermal activation of electron transport at room temperature in polymer transistors
Alessandro Luzio,Fritz Nübling,Jaime Martin,Daniele Fazzi,Philipp Selter,Eliot Gann,Christopher R. McNeill,Martin Brinkmann,Michael Ryan Hansen,Natalie Stingelin,Michael Sommer,Mario Caironi +11 more
TL;DR: In this article, temperature-independent electron transport in a donor-acceptor copolymer through microstructural engineering has been shown to have a vanishing activation energy above 280'K. The authors show that precise processing of a diketopyrrolopyrrole-tetrafluorobenzene-based electron transporting copolymers results in single crystal-like and voltage-independent mobility with vanishing activation energies.
The importance of materials design to make ions flow: toward novel materials platforms for bioelectronics applications
Celia M. Pacheco-Moreno,Murielle Schreck,Alberto D. Scaccabarozzi,Philippe Bourgun,Guillaume Wantz,Molly M. Stevens,Olivier Dautel,Natalie Stingelin,Natalie Stingelin +8 more
TL;DR: Directed chemical design via side-chain functionalization with polar groups allows manipulation of ion transport and ion-to-electron transduction and will permit increased use of the plethora of materials employed in the organic electronics area for application in the bioelectronics field.
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