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Ian Baker
Researcher at Dartmouth College
Publications - 473
Citations - 11460
Ian Baker is an academic researcher from Dartmouth College. The author has contributed to research in topics: Microstructure & Grain boundary. The author has an hindex of 47, co-authored 436 publications receiving 9790 citations. Previous affiliations of Ian Baker include Oak Ridge National Laboratory & John Radcliffe Hospital.
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Global warming releases microplastic legacy frozen in Arctic Sea ice
TL;DR: This article showed that Arctic Sea ice from remote locations contains concentrations of microplastics are several orders of magnitude greater than those that have been previously reported in highly contaminated surface waters, such as those of the Pacific Gyre.
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The effect of interstitial carbon on the mechanical properties and dislocation substructure evolution in Fe40.4Ni11.3Mn34.8Al7.5Cr6 high entropy alloys
TL;DR: In this paper, a systematic study of the effects of carbon on the mechanical properties and evolution of the dislocation substructure in a series of high entropy alloys (HEA) based on Fe40.4Ni11.3Mn34.8Al7.5Cr6 is presented.
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An assessment on the future development of high-entropy alloys: Summary from a recent workshop
TL;DR: A special two-day international workshop on high-entropy alloys was held in Guiyang, China, in December 2014 as mentioned in this paper to discuss the scientific issues and challenges to foster international collaborations, and to identify future directions.
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Magnetic nanoparticle hyperthermia in cancer treatment.
Andrew J. Giustini,Alicia A. Petryk,Shiraz M. Cassim,Jennifer A. Tate,Ian Baker,P. Jack Hoopes +5 more
TL;DR: An introduction to some of the relevant biology and materials science involved in the technical development and current and future use of mNP hyperthermia as clinical cancer therapy is provided.
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Grain boundary accommodation of slip in Ni3Al containing boron
TL;DR: In this article, it was shown that the addition of 750 ppm by weight (0.35 at%) of boron to stoichiometric Ni3Al reduces the effectiveness with which grain boundaries strengthen the alloy.