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Michael J. Reece

Queen Mary University of London

Mile End Road

London , E1 4NS

United Kingdom

SCHOLARLY PAPERS

4

DOWNLOADS

200

TOTAL CITATIONS

1

Scholarly Papers (4)

1.

Temperature and Doping Insensitivity of Thermoelectric Properties of High-Entropy Half-Heusler Compounds

Number of pages: 29 Posted: 31 Jul 2023
Queen Mary University of London, Queen Mary University of London, Queen Mary University of London, Queen Mary University of London, Queen Mary University of London, University of St Andrews and Queen Mary University of London
Downloads 87 (765,566)
Citation 1

Abstract:

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half-Heusler alloy, high-entropy effect, thermoelectric properties, temperature insensitivity

2.

Investigation of Electric Field-Induced Phase Transitions in Unfilled Tungsten Bronze Relaxor Ceramics Designed by the High Entropy Concept

Number of pages: 27 Posted: 25 Jun 2024
Queen Mary University of London, Slovak Academy of Sciences, Queen Mary University of London, Stockholm University, Queen Mary University of London, Queen Mary University of London, The University of Manchester - Department of Materials, The University of Manchester - Department of Materials and Queen Mary University of London
Downloads 64 (924,743)

Abstract:

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phase transitions, relaxor, ferroelectric, high entropy, tungsten bronze structure

3.

Enhancing the Thermoelectric Properties of Tio2-Based Ceramics Through Addition of Carbon Black and Graphene Oxide

Number of pages: 33 Posted: 14 Aug 2023
The University of Manchester - Department of Materials, The University of Manchester, Queen Mary University of London, Tsinghua University, The University of Manchester, The University of Manchester, The University of Manchester - Department of Materials, The University of Manchester, affiliation not provided to SSRN, The University of Manchester, The University of Manchester and Queen Mary University of London
Downloads 34 (1,263,436)

Abstract:

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thermoelectric, Nb doping, defect engineering, graphene oxide, carbon black

4.

High-entropy stabilized A-site cation occupancy in filled tungsten bronzes with great piezoelectric performance

Number of pages: 26 Posted: 20 May 2026
affiliation not provided to SSRN, Slovak Academy of Sciences, Queen Mary University of London, Queen Mary University of London, Stockholm University, The University of Manchester - Department of Materials, Queen Mary University of London and Queen Mary University of London
Downloads 15 (1,541,665)

Abstract:

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dielectric relaxation, ferroelectric, piezoelectric, high entropy, tungsten bronzes, electromechanical detectors.