693.932 PEOPLE
| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Sirringhaus, Henning
University of Cambridge
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (48/48 displayed)
- 2024Spin Relaxation of Electron and Hole Polarons in Ambipolar Conjugated Polymers
- 2024Enhancing the conductivity and thermoelectric performance of semicrystalline conducting polymers through controlled tie chain incorporationcitations
- 2024Enhancing the Thermoelectric Properties of Conjugated Polymers by Suppressing Dopant‐Induced Disordercitations
- 2024Non-equilibrium transport in polymer mixed ionic–electronic conductors at ultrahigh charge densitiescitations
- 2024Spin relaxation of electron and hole polarons in ambipolar conjugated polymers.citations
- 2024Enhancing the Conductivity and Thermoelectric Performance of Semicrystalline Conducting Polymers through Controlled Tie Chain Incorporation.
- 2023Effects of Processing-Induced Contamination on Organic Electronic Devices.
- 2023Interplay between Side Chain Density and Polymer Alignment: Two Competing Strategies for Enhancing the Thermoelectric Performance of P3HT Analogues.
- 2023Improving OFF‐State Bias‐Stress Stability in High‐Mobility Conjugated Polymer Transistors with an Anti‐Solvent Treatmentcitations
- 2023Improving OFF-State Bias-Stress Stability in High-Mobility Conjugated Polymer Transistors with an Antisolvent Treatment.
- 2023Interplay between Side Chain Density and Polymer Alignment: Two Competing Strategies for Enhancing the Thermoelectric Performance of P3HT Analoguescitations
- 2023Transmission-based charge modulation microscopy on conjugated polymer blend field-effect transistors.
- 2023Effects of processing‐induced contamination on organic electronic devicescitations
- 2023Direct Observation of Contact Reaction Induced Ion Migration and its Effect on Non-Ideal Charge Transport in Lead Triiodide Perovskite Field-Effect Transistors.
- 2022Structural and dynamic disorder, not ionic trapping, controls charge transport in highly doped conducting polymerscitations
- 2022Heterometallic Benzenehexathiolato Coordination Nanosheets: Periodic Structure Improves Crystallinity and Electrical Conductivitycitations
- 2022Heterometallic Benzenehexathiolato Coordination Nanosheets: Periodic Structure Improves Crystallinity and Electrical Conductivity.
- 2022Charge transport in mixed metal halide perovskite semiconductors.
- 2022Structural and Dynamic Disorder, Not Ionic Trapping, Controls Charge Transport in Highly Doped Conducting Polymers.citations
- 2022Improving OFF-State Bias-Stress Stability in High-Mobility Conjugated Polymer Transistors with an Anti-Solvent Treatment.
- 2021Surface Passivation Treatment to Improve Performance and Stability of Solution‐Processed Metal Oxide Transistors for Hybrid Complementary Circuits on Polymer Substrates
- 2021Understanding the Role of Grain Boundaries on Charge‐Carrier and Ion Transport in Cs 2 AgBiBr 6 Thin Films
- 2021Understanding the Role of Grain Boundaries on Charge‐Carrier and Ion Transport in Cs<sub>2</sub>AgBiBr<sub>6</sub> Thin Filmscitations
- 2021Surface Passivation Treatment to Improve Performance and Stability of Solution-Processed Metal Oxide Transistors for Hybrid Complementary Circuits on Polymer Substrates.
- 2020Anisotropy of Charge Transport in a Uniaxially Aligned Fused Electron-Deficient Polymer Processed by Solution Shear Coating.
- 2020Linking Glass-Transition Behavior to Photophysical and Charge Transport Properties of High-Mobility Conjugated Polymers
- 2020A general approach for hysteresis-free, operationally stable metal halide perovskite field-effect transistors.
- 2020A general approach for hysteresis-free, operationally stable metal halide perovskite field-effect transistors.
- 2020Photodoping through local charge carrier accumulation in alloyed hybrid perovskites for highly efficient luminescencecitations
- 2020The effect of aromatic ring size in electron deficient semiconducting polymers for n-type organic thermoelectricscitations
- 2019High-mobility, trap-free charge transport in conjugated polymer diodescitations
- 2019Charge extraction via graded doping of hole transport layers gives highly luminescent and stable metal halide perovskite devices.
- 2019Polaron spin dynamics in high-mobility polymeric semiconductors
- 2019Chasing the ‘killer’ phonon mode for the rational design of low disorder, high mobility molecular semiconductorscitations
- 2019Investigation of the effect of microstructural changes on thermal transport in semicrystalline polymer semiconductors
- 2017Understanding charge transport in lead iodide perovskite thin-film field-effect transistorscitations
- 2017High operational and environmental stability of high-mobility conjugated polymer field-effect transistors achieved through the use of molecular additivescitations
- 2017High operational and environmental stability of high-mobility conjugated polymer field-effect transistors through the use of molecular additives.
- 2017Donor-acceptor stacking arrangements in bulk and thin-film high-mobility conjugated polymers characterized using molecular modelling and MAS and surface-enhanced solid-state NMR spectroscopy.citations
- 2017Formation of Long-Lived Color Centers for Broadband Visible Light Emission in Low-Dimensional Layered Perovskites.citations
- 2017Correlation of Disorder and Charge Transport in a Range of Indacenodithiophene-Based Semiconducting Polymerscitations
- 2016High operational and environmental stability of high-mobility conjugated polymer field-effect transistors through the use of molecular additivescitations
- 2016Coulomb Enhanced Charge Transport in Semicrystalline Polymer Semiconductorscitations
- 20162D coherent charge transport in highly ordered conducting polymers doped by solid state diffusion.
- 2015Local Versus Long-Range Diffusion Effects of Photoexcited States on Radiative Recombination in Organic-Inorganic Lead Halide Perovskites.
- 2014Approaching disorder-free transport in high-mobility conjugated polymers.
- 2013Measurement of molecular motion in organic semiconductors by thermal diffuse electron scatteringcitations
- 2013Measurement of molecular motion in organic semiconductors by thermal diffuse electron scattering.
Places of action
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article
Heterometallic Benzenehexathiolato Coordination Nanosheets: Periodic Structure Improves Crystallinity and Electrical Conductivity
Abstract
<jats:title>Abstract</jats:title><jats:p>Coordination nanosheets are an emerging class of 2D, bottom‐up materials having fully π‐conjugated, planar, graphite‐like structures with high electrical conductivities. Since their discovery, great effort has been devoted to expand the variety of coordination nanosheets; however, in most cases, their low crystallinity in thick films hampers practical device applications. In this study, mixtures of nickel and copper ions are employed to fabricate benzenehexathiolato (BHT)‐based coordination nanosheet films, and serendipitously, it is found that this heterometallicity preferentially forms a structural phase with improved film crystallinity. Spectroscopic and scattering measurements provide evidence for a bilayer structure with in‐plane periodic arrangement of copper and nickel ions with the NiCu<jats:sub>2</jats:sub>BHT formula. Compared with homometallic films, heterometallic films exhibit more crystalline microstructures with larger and more oriented grains, achieving higher electrical conductivities reaching metallic behaviors. Low dependency of Seebeck coefficient on the mixing ratio of nickel and copper ions supports that the large variation in the conductivity data is not caused by change in the intrinsic properties of the films. The findings open new pathways to improve crystallinity and to tune functional properties of 2D coordination nanosheets.</jats:p>