Matteo Bianchini
Matteo Bianchini
Professor at Universität Bayreuth - Inorganic Active Materials for Electrochemical Energy Storage
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Cited by
Cited by
Recent progress and perspective in electrode materials for K‐ion batteries
H Kim, JC Kim, M Bianchini, DH Seo, J Rodriguez‐Garcia, G Ceder
Advanced Energy Materials 8 (9), 1702384, 2018
There and Back Again—The Journey of LiNiO2 as a Cathode Active Material
M Bianchini, M Roca‐Ayats, P Hartmann, T Brezesinski, J Janek
Angewandte Chemie International Edition 58 (31), 10434-10458, 2019
Comprehensive Investigation of the Na3V2(PO4)2F3–NaV2(PO4)2F3 System by Operando High Resolution Synchrotron X-ray Diffraction
M Bianchini, F Fauth, N Brisset, F Weill, E Suard, C Masquelier, ...
Chemistry of Materials 27 (8), 3009-3020, 2015
Na3V2(PO4)2F3 Revisited: A High-Resolution Diffraction Study
M Bianchini, N Brisset, F Fauth, F Weill, E Elkaim, E Suard, C Masquelier, ...
Chemistry of Materials 26 (14), 4238-4247, 2014
The interplay between thermodynamics and kinetics in the solid-state synthesis of layered oxides
M Bianchini, J Wang, RJ Clément, B Ouyang, P Xiao, D Kitchaev, T Shi, ...
Nature materials 19 (10), 1088-1095, 2020
Additional sodium insertion into polyanionic cathodes for higher‐energy Na‐ion batteries
M Bianchini, P Xiao, Y Wang, G Ceder
Advanced Energy Materials 7 (18), 1700514, 2017
A New Strategy for High‐Voltage Cathodes for K‐Ion Batteries: Stoichiometric KVPO4F
H Kim, DH Seo, M Bianchini, RJ Clément, H Kim, JC Kim, Y Tian, T Shi, ...
Advanced Energy Materials 8 (26), 1801591, 2018
High Rate Performance for Carbon‐Coated Na3V2(PO4)2F3 in Na‐Ion Batteries
T Broux, F Fauth, N Hall, Y Chatillon, M Bianchini, T Bamine, JB Leriche, ...
Small Methods 3 (4), 1800215, 2019
Multiple phases in the ε-VPO 4 O–LiVPO 4 O–Li 2 VPO 4 O system: a combined solid state electrochemistry and diffraction structural study
M Bianchini, JM Ateba-Mba, P Dagault, E Bogdan, D Carlier, E Suard, ...
Journal of Materials Chemistry A 2 (26), 10182-10192, 2014
An in situ structural study on the synthesis and decomposition of LiNiO 2
M Bianchini, F Fauth, P Hartmann, T Brezesinski, J Janek
Journal of materials Chemistry A 8 (4), 1808-1820, 2020
The Role of Intragranular Nanopores in Capacity Fade of Nickel-Rich Layered Li(Ni1–xyCoxMny)O2 Cathode Materials
S Ahmed, A Pokle, S Schweidler, A Beyer, M Bianchini, F Walther, ...
ACS nano 13 (9), 10694-10704, 2019
Li-Rich Li1+xMn2–xO4 Spinel Electrode Materials: An Operando Neutron Diffraction Study during Li+ Extraction/Insertion
M Bianchini, E Suard, L Croguennec, C Masquelier
The Journal of Physical Chemistry C 118 (45), 25947-25955, 2014
A new null matrix electrochemical cell for Rietveld refinements of in-situ or operando neutron powder diffraction data
M Bianchini, JB Leriche, JL Laborier, L Gendrin, E Suard, L Croguennec, ...
Journal of the Electrochemical Society 160 (11), A2176, 2013
Advanced Nanoparticle Coatings for Stabilizing Layered Ni‐Rich Oxide Cathodes in Solid‐State Batteries
Y Ma, JH Teo, F Walther, Y Ma, R Zhang, A Mazilkin, Y Tang, ...
Advanced Functional Materials 32 (23), 2111829, 2022
High performance all-solid-state batteries with a Ni-rich NCM cathode coated by atomic layer deposition and lithium thiophosphate solid electrolyte
D Kitsche, Y Tang, Y Ma, D Goonetilleke, J Sann, F Walther, M Bianchini, ...
ACS Applied Energy Materials 4 (7), 7338-7345, 2021
Computational investigation and experimental realization of disordered high-capacity Li-ion cathodes based on Ni redox
H Ji, DA Kitchaev, Z Lun, H Kim, E Foley, DH Kwon, Y Tian, ...
Chemistry of Materials 31 (7), 2431-2442, 2019
Surface Modification Strategies for Improving the Cycling Performance of Ni‐Rich Cathode Materials
D Weber, Đ Tripković, K Kretschmer, M Bianchini, T Brezesinski
European Journal of Inorganic Chemistry 2020 (33), 3117-3130, 2020
Spinel materials for Li-ion batteries: new insights obtained by operando neutron and synchrotron X-ray diffraction
M Bianchini, F Fauth, E Suard, JB Leriche, C Masquelier, L Croguennec
Acta Crystallographica Section B: Structural Science, Crystal Engineering …, 2015
Visualization of Light Elements using 4D STEM: The Layered‐to‐Rock Salt Phase Transition in LiNiO2 Cathode Material
S Ahmed, M Bianchini, A Pokle, MS Munde, P Hartmann, T Brezesinski, ...
Advanced Energy Materials 10 (25), 2001026, 2020
The LiNiO2 cathode active material: A comprehensive study of calcination conditions and their correlation with physicochemical properties. Part I. Structural chemistry
P Kurzhals, F Riewald, M Bianchini, H Sommer, HA Gasteiger, J Janek
Journal of The Electrochemical Society 168 (11), 110518, 2021
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