R.E. Stoller scite author profile

A grand challenge in materials research is to understand complex electronic correlation and non-equilibrium atomic interactions, and how such intrinsic properties and dynamic processes affect energy transfer and defect evolution in irradiated materials. Here we report that chemical disorder, with an increasing number of principal elements and/or altered concentrations of specific elements, in single-phase concentrated solid solution alloys can lead to substantial reduction in electron mean free path and orders of magnitude decrease in electrical and thermal conductivity. The subsequently slow energy dissipation affects defect dynamics at the early stages, and consequentially may result in less deleterious defects. Suppressed damage accumulation with increasing chemical disorder from pure nickel to binary and to more complex quaternary solid solutions is observed. Understanding and controlling energy dissipation and defect dynamics by altering alloy complexity may pave the way for new design principles of radiation-tolerant structural alloys for energy applications.

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Primary radiation damage: A review of current understanding and models

Nordlund

Zinkle

Sand

et al. 2018

Journal of Nuclear Materials

465

198

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The role of cascade energy and temperature in primary defect formation in iron

Stoller

2000

Journal of Nuclear Materials

224

146

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Primary damage formation in bcc iron

Stoller

Odette

Wirth

1997

Journal of Nuclear Materials

277

163

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R.E. Stoller

On the use of SRIM for computing radiation damage exposure

Influence of chemical disorder on energy dissipation and defect evolution in concentrated solid solution alloys

Primary radiation damage: A review of current understanding and models

The role of cascade energy and temperature in primary defect formation in iron

Primary damage formation in bcc iron

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