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1. G Singh, J Gillham and J. M. Marshall Fabrication and thermo-mechanical characterization of novel multilayer Reactive Sintered Borides (RSB)/Cemented Tungsten Carbide (cWC) for radiation shielding applications. Ceramics International (2026) In press, corrected proof.
2. J. Gillham, G. Singh and J. M. Marshall Time temperature transformation studies of low-activation cemented tungsten carbides at fusion relevant temperatures International Journal of Refractory Metals and Hard Materials 138 (2026) 107746
3. G. Singh, J. Gillham and J. M. Marshall Novel radiation dense materials: Reactive Sintered Borides. International Journal of Refractory Metals and Hard Materials 128 (2025) 107074
4. S. Srinivasan, J. Gillham and J. M. Marshall Low-activation joining methods for cWC and RSBs on steel for nuclear applications. International Journal of Refractory Metals and Hard Materials 129 (2025) 107093.
   
5. J. M. Marshall, G. Singh, S. Srinivasan and J. Gillham TEM studies of radiation-induced stress changes in low-activation cWC. International Journal of Refractory Metals and Hard Materials. 128 (2025)
6. S. Srinivasan, J. Gillham and J. M. Marshall High-Density Radiation Shielding Of Cwc-RSB Composite For Fusion Reactor: A Critical Review. Euro Powder Metallurgy 2024 Congress & Exhibition (2024) DOI:
7. S. Srinivasan, J. Gillham and J. M. Marshall Development of High-Temperature Brazing of cWC/RSB to Steel Joints for Fusion Reactor. Euro Powder Metallurgy 2024 Congress & Exhibition (2024) DOI:
8. G. Singh, J. Gillham and J. M. Marshall. Physical properties of Radiation Dense Reactive Sintered Borides. Ceramics International (2024)
9. S. Srinivasan, J. Gillham, G. Singh and J. M. Marshall. Tungsten carbide for radiation shielding: A comprehensive review. Proceedings of EuroPM2023 Session 11: Energy (2023)
   
10. J. M. Marshall and G. Singh. Synthesis studies of radiation-dense Reactive Sintered Borides (RSB) nuclear shielding materials. Materials Communications Today. 36 (2023) 106765
11. J. M. Marshall and G. Singh. Proton and gamma irradiation of novel tungsten boride and carbide candidate shielding materials. Fusion Engineering and Design (2023) 113667. DOI:

12. J. M. Marshall, F.Tang, Y. Han, P.A.J. Bagot and M.P. Moody. Multi-Scale Microscopy of Reactive Sintered Boride (RSB) Neutron Shielding Materials. Journal of Nuclear Materials and Energy 33 (2022) 101285 https://doi.org/10.1016/j.nme.2022.101285

13. Marshall, J., Walker, D. & Thomas, P. Non-ambient X-ray and neutron diffraction of novel relaxor ferroelectric xBi₂(Zn_2/3,Nb_1/3)O₇–(1 – x)BaTiO₃ (2021). J. Appl. Cryst. 54,
14. J. M. Marshall, D. Walker and P.A. Thomas, Bismuth zinc niobate: BZN-BT, a new lead-free BaTiO₃-based ferroelectric relaxor? Journal of Advanced Dielectrics 10 (6) 2020 2050033
15. J. M. Marshall, D. Walker and P.A. Thomas, HRXRD study of the Theoretical Densities of Novel Reactive Sintered Boride Candidate Neutron Shielding Materials. Journal of Nuclear Materials and Energy. 22 (2020) 100732 https://doi.org/
16. S. Humphry-Baker and J. Marshall, Structure and properties of high-hardness silicide coatings on cemented carbides for high-temperature applications Coatings 8 (7) 247 (2018) https://doi.org/
17. C. G. Windsor, J.M. Marshall, J.G. Morgan, J. Fair, G.D.W Smith, A Rajczyk-Wryk and , Design of cemented tungsten carbide and boride-containing shields for a fusion power plant. Nuclear Fusion 58 (7), 076014 (2018) https://doi.org/
18. J. M. Marshall, EP3401413A1 鈥淎n iron tungsten borocarbide body for nuclear shielding applications,鈥� (2018). https://doi.org/
19. J.M. Marshall, A and EP3401414A1. 鈥淐emented carbides comprising a Fe-Cr binder metallic binder鈥� (2018). https://doi.org/10.13140/RG.2.2.34460.13447.
20. J. M. Marshall and G. Sweetman, Patent EP3398703A1. 鈥淎 body comprising a cermet part and a method for the manufacturing thereof鈥� (2018) https://doi.org/