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Alireza Faghaninia
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Enhanced thermoelectric efficiency via orthogonal electrical and thermal conductances in phosphorene
R Fei, A Faghaninia, R Soklaski, JA Yan, C Lo, L Yang
Nano letters 14 (11), 6393-6399, 2014
8182014
Matminer: An open source toolkit for materials data mining
L Ward, A Dunn, A Faghaninia, NER Zimmermann, S Bajaj, Q Wang, ...
Computational Materials Science 152, 60-69, 2018
7302018
Low-symmetry rhombohedral GeTe thermoelectrics
J Li, X Zhang, Z Chen, S Lin, W Li, J Shen, IT Witting, A Faghaninia, ...
Joule 2 (5), 976-987, 2018
4972018
Atomate: A high-level interface to generate, execute, and analyze computational materials science workflows
K Mathew, JH Montoya, A Faghaninia, S Dwarakanath, M Aykol, H Tang, ...
Computational Materials Science 139, 140-152, 2017
3462017
Efficient calculation of carrier scattering rates from first principles
AM Ganose, J Park, A Faghaninia, R Woods-Robinson, KA Persson, ...
Nature communications 12 (1), 2222, 2021
3142021
Wide bandgap BaSnO3 films with room temperature conductivity exceeding 104 S cm−1
A Prakash, P Xu, A Faghaninia, S Shukla, JW Ager III, CS Lo, B Jalan
Nature communications 8 (1), 15167, 2017
2382017
Promising thermoelectric performance in van der Waals layered SnSe2
Y Wu, W Li, A Faghaninia, Z Chen, J Li, X Zhang, B Gao, S Lin, B Zhou, ...
Materials Today Physics 3, 127-136, 2017
1162017
Revelation of Inherently High Mobility Enables Mg3Sb2 as a Sustainable Alternative to n‐Bi2Te3 Thermoelectrics
X Shi, C Sun, Z Bu, X Zhang, Y Wu, S Lin, W Li, A Faghaninia, A Jain, ...
Advanced science 6 (16), 1802286, 2019
882019
Ab initio electronic transport model with explicit solution to the linearized Boltzmann transport equation
A Faghaninia, JW Ager III, CS Lo
Physical Review B 91 (23), 235123, 2015
832015
Assessing high-throughput descriptors for prediction of transparent conductors
R Woods-Robinson, D Broberg, A Faghaninia, A Jain, SS Dwaraknath, ...
Chemistry of Materials 30 (22), 8375-8389, 2018
752018
A computational assessment of the electronic, thermoelectric, and defect properties of bournonite (CuPbSbS 3) and related substitutions
A Faghaninia, G Yu, U Aydemir, M Wood, W Chen, GM Rignanese, ...
Physical Chemistry Chemical Physics 19 (9), 6743-6756, 2017
652017
Metal phosphides as potential thermoelectric materials
JH Pöhls, A Faghaninia, G Petretto, U Aydemir, F Ricci, G Li, M Wood, ...
Journal of Materials Chemistry C 5 (47), 12441-12456, 2017
582017
P‐Type Transparent Cu‐Alloyed ZnS Deposited at Room Temperature
R Woods‐Robinson, JK Cooper, X Xu, LT Schelhas, VL Pool, ...
Advanced Electronic Materials 2 (6), 1500396, 2016
492016
Computational discovery of promising new n-type dopable ABX Zintl thermoelectric materials
P Gorai, A Ganose, A Faghaninia, A Jain, V Stevanović
Materials Horizons 7 (7), 1809-1818, 2020
462020
Origins of ultralow thermal conductivity in 1-2-1-4 quaternary selenides
JJ Kuo, U Aydemir, JH Pöhls, F Zhou, G Yu, A Faghaninia, F Ricci, ...
Journal of Materials Chemistry A 7 (6), 2589-2596, 2019
312019
Prediction of tunable spin-orbit gapped materials for dark matter detection
K Inzani, A Faghaninia, SM Griffin
Physical Review Research 3 (1), 013069, 2021
262021
Improving the carrier lifetime of tin sulfide via prediction and mitigation of harmful point defects
A Polizzotti, A Faghaninia, JR Poindexter, L Nienhaus, V Steinmann, ...
The journal of physical chemistry letters 8 (15), 3661-3667, 2017
242017
First principles study of defect formation in thermoelectric zinc antimonide, β-Zn4Sb3
A Faghaninia, CS Lo
Journal of Physics: Condensed Matter 27 (12), 125502, 2015
242015
Alloying ZnS in the hexagonal phase to create high-performing transparent conducting materials
A Faghaninia, KR Bhatt, CS Lo
Physical Chemistry Chemical Physics 18 (32), 22628-22635, 2016
202016
ab initio electronic transport model for photovoltaics
A Faghaninia, JW Ager, CS Lo
2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC), 1-4, 2015
72015
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Articles 1–20