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Kieran B Spooner
Kieran B Spooner
Postdoc, University of Birmingham
Verifierad e-postadress på bham.ac.uk
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Assessing the limitations of transparent conducting oxides as thermoelectrics
KB Spooner, AM Ganose, DO Scanlon
Journal of Materials Chemistry A 8 (24), 11948-11957, 2020
402020
BaBi2O6: A Promising n-Type Thermoelectric Oxide with the PbSb2O6 Crystal Structure
KB Spooner, AM Ganose, WWW Leung, J Buckeridge, BAD Williamson, ...
Chemistry of Materials 33 (18), 7441-7456, 2021
262021
Y 2 Ti 2 O 5 S 2–a promising n-type oxysulphide for thermoelectric applications
K Brlec, KB Spooner, JM Skelton, DO Scanlon
Journal of Materials Chemistry A 10 (32), 16813-16824, 2022
232022
ThermoParser: streamlined analysis of thermoelectric properties
KB Spooner, M Einhorn, DW Davies, DO Scanlon
Journal of Open Source Software 9 (97), 6340, 2024
82024
Discovery of multi-anion antiperovskites X6NFSn2 (X= Ca, Sr) as promising thermoelectric materials by computational screening
D Han, B Zhu, Z Cai, KB Spooner, SS Rudel, W Schnick, T Bein, ...
Matter 7 (1), 158-174, 2024
82024
Band Degeneracy and Anisotropy Enhances Thermoelectric Performance from Sb2Si2Te6 to Sc2Si2Te6
W Dou, KB Spooner, SR Kavanagh, M Zhou, DO Scanlon
Journal of the American Chemical Society 146 (26), 17679-17690, 2024
72024
Sr 2 Sb 2 O 7: a novel earth abundant oxide thermoelectric
LH Rodriguez, KB Spooner, M Einhorn, DO Scanlon
Journal of Materials Chemistry C 11 (27), 9124-9134, 2023
52023
On the possibility of p-type doping in barium stannate
J Willis, KB Spooner, DO Scanlon
Applied Physics Letters 123 (16), 2023
32023
Adapting Explainable Machine Learning to Study Mechanical Properties of 2D Hybrid Halide Perovskites
Y Yao, D Han, KB Spooner, X Jia, H Ebert, DO Scanlon, H Oberhofer
Advanced Functional Materials 35 (1), 2411652, 2025
12025
Giant Band Degeneracy via Orbital Engineering Enhances Thermoelectric Performance from Sb2Si2Te6 to Sc2Si2Te6
W Dou, K Spooner, S Kavanagh, M Zhou, DO Scanlon
2024
Exploring earth-abundant thermoelectrics
K Spooner
UCL (University College London), 2023
2023
Supporting information for: Y2Ti2O5S2–a promising n-type oxysulphide for thermoelectric applications
K Brlec, KB Spooner, JM Skelton, DO Scanlon
energy 8, 8.903, 2022
2022
Y₂Ti₂O₅S₂–a promising n-type oxysulphide for thermoelectric applications
K Brlec, KB Spooner, JM Skelton, DO Scanlon
2022
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Artiklar 1–13