G
George G. Malliaras
Researcher at University of Cambridge
Publications - 415
Citations - 34285
George G. Malliaras is an academic researcher from University of Cambridge. The author has contributed to research in topics: PEDOT:PSS & Conductive polymer. The author has an hindex of 94, co-authored 382 publications receiving 28533 citations. Previous affiliations of George G. Malliaras include University of Groningen & Panasonic.
Papers
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The rise of plastic bioelectronics
TL;DR: Plastic bioelectronics is a research field that takes advantage of the inherent properties of polymers and soft organic electronics for applications at the interface of biology and electronics, which are soft, stretchable and mechanically conformable.
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In vivo recordings of brain activity using organic transistors
Dion Khodagholy,Thomas Doublet,Pascale P. Quilichini,Pascale P. Quilichini,M. Gurfinkel,Pierre Leleux,Antoine Ghestem,Antoine Ghestem,Esma Ismailova,Thierry Hervé,Sébastien Sanaur,Christophe Bernard,Christophe Bernard,George G. Malliaras +13 more
TL;DR: The engineering of an organic electrochemical transistor embedded in an ultrathin organic film designed to record electrophysiological signals on the surface of the brain with superior signal-to-noise ratio is demonstrated.
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Single-Layer Electroluminescent Devices and Photoinduced Hydrogen Production from an Ionic Iridium(III) Complex
Michael S. Lowry,Jonas I. Goldsmith,Jason D. Slinker,Richard Rohl,Robert A. Pascal,George G. Malliaras,Stefan Bernhard +6 more
TL;DR: In this paper, the electronic structure and diverse applications of a highly luminescent ionic transition metal complex, [Ir(dF(CF3)ppy)2(dtbbpy)](PF6), were reported.
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NeuroGrid: recording action potentials from the surface of the brain
Dion Khodagholy,Jennifer N. Gelinas,Thomas Thesen,Werner Doyle,Orrin Devinsky,George G. Malliaras,György Buzsáki +6 more
TL;DR: The NeuroGrid constitutes an effective method for large-scale, stable recording of neuronal spikes in concert with local population synaptic activity, enhancing comprehension of neural processes across spatiotemporal scales and potentially facilitating diagnosis and therapy for brain disorders.
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Efficient Yellow Electroluminescence from a Single Layer of a Cyclometalated Iridium Complex
Jason D. Slinker,Alon A. Gorodetsky,Michael S. Lowry,Jingjing Wang,Sara T. Parker,Richard Rohl,Stefan Bernhard,George G. Malliaras +7 more
TL;DR: Single-layer devices were fabricated and found to emit yellow light with a brightness that exceeds 300 cd/m(2) and a luminous power efficiency that exceeds 10 Lm/W at just 3 V.