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Aram Amassian
Researcher at North Carolina State University
Publications - 240
Citations - 22721
Aram Amassian is an academic researcher from North Carolina State University. The author has contributed to research in topics: Perovskite (structure) & Quantum dot. The author has an hindex of 71, co-authored 224 publications receiving 18606 citations. Previous affiliations of Aram Amassian include Imperial College London & École Polytechnique.
Papers
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Open‐Circuit Voltage in Organic Solar Cells: The Impacts of Donor Semicrystallinity and Coexistence of Multiple Interfacial Charge‐Transfer Bands
Guy Olivier Ngongang Ndjawa,Kenneth R. Graham,Kenneth R. Graham,Kenneth R. Graham,Sonya Mollinger,Di Wu,David Hanifi,Rohit Prasanna,Bradley D. Rose,Sukumar Dey,Liyang Yu,Jean-Luc Brédas,Michael D. McGehee,Alberto Salleo,Aram Amassian +14 more
TL;DR: In this article, the authors combine experimental measurements of vacuum-deposited Rubrene/C60 bilayer OSCs, with varying microstructure and texture, with density functional theory calculations to determine how relative molecular orientations and extents of structural order influence E CT and V OC.
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Signatures of Quantized Energy States in Solution-Processed Ultrathin Layers of Metal-Oxide Semiconductors and Their Devices
John G. Labram,Yen-Hung Lin,Kui Zhao,Ruipeng Li,Stuart R. Thomas,James Semple,Maria Androulidaki,Lamprini Sygellou,Martyn A. McLachlan,Emmanuel Stratakis,Aram Amassian,Thomas D. Anthopoulos +11 more
TL;DR: In this article, a theoretical framework is developed for energy quantization in inorganic semiconductor layers with appreciable surface roughness, as compared to the mean layer thickness, and experimental evidence of quantized energy states in spin-cast layers of zinc oxide (ZnO).
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Pushing the Limits of Flexibility and Stretchability of Solar Cells: A Review.
Emilie Dauzon,Xavier Sallenave,Cédric Plesse,Fabrice Goubard,Aram Amassian,Thomas D. Anthopoulos +5 more
TL;DR: In this paper, a review of recent developments in the field of stretchable photovoltaics is presented and their potential for various emerging applications are examined, focusing on the different strategies to induce stretchability including extrinsic and intrinsic approaches.
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Materials processing strategies for colloidal quantum dot solar cells: advances, present-day limitations, and pathways to improvement
TL;DR: In this paper, the authors review the properties and features of this process, and also discuss innovative pathways to creating even higherperforming films and photovoltaic devices, leading to a cross-linked, non-redispersible, and dense layer.
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Hybrid Tandem Quantum Dot/Organic Solar Cells with Enhanced Photocurrent and Efficiency via Ink and Interlayer Engineering
Taesoo Kim,Yuliar Firdaus,Ahmad R. Kirmani,Ru-Ze Liang,Hanlin Hu,Mengxia Liu,Abdulrahman El Labban,Sjoerd Hoogland,Pierre M. Beaujuge,Edward H. Sargent,Aram Amassian +10 more
TL;DR: In this paper, a colloidal quantum dot (CQD)/organic photovoltaic (OPV) tandem solar cells that integrate the strong infrared absorption of CQDs with large photors of OPVs is presented.