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Jin, Yunlong; Yang, Yi; Valloppilly, Shah; Liou, Sy-Hwang; Sellmyer, David J. (, Journal of Magnetism and Magnetic Materials)
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Jin, Yunlong; Valloppilly, Shah; Kharel, Parashu; Pathak, Rohit; Kashyap, Arti; Skomski, Ralph; Sellmyer, D J (, Journal of Physics D: Applied Physics)
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Zhang, Wenyong; Jin, Yunlong; Skomski, Ralph; Kharel, Parashu; Li, Xingzhong; Chen, Tingyong; Zhao, Gejian; Kim, Dongrin; Valloppilly, Shah; Sellmyer, David J (, Journal of Physics D: Applied Physics)
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Balasubramanian, Balamurugan; Zhao, Xin; Valloppilly, Shah R.; Beniwal, Sumit; Skomski, Ralph; Sarella, Anandakumar; Jin, Yunlong; Li, Xingzhong; Xu, Xiaoshan; Cao, Huibo; et al (, Nanoscale)The search for new magnetic materials with high magnetization and magnetocrystalline anisotropy is important for a wide range of applications including information and energy processing. There is only a limited number of naturally occurring magnetic compounds that are suitable. This situation stimulates an exploration of new phases that occur far from thermal-equilibrium conditions, but their stabilization is generally inhibited due to high positive formation energies. Here a nanocluster-deposition method has enabled the discovery of a set of new non-equilibrium Co–N intermetallic compounds. The experimental search was assisted by computational methods including adaptive-genetic-algorithm and electronic-structure calculations. Conventional wisdom is that the interstitial or substitutional solubility of N in Co is much lower than that in Fe and that N in Co in equilibrium alloys does not produce materials with significant magnetization and anisotropy. By contrast, our experiments identify new Co–N compounds with favorable magnetic properties including hexagonal Co 3 N nanoparticles with a high saturation magnetic polarization ( J s = 1.28 T or 12.8 kG) and an appreciable uniaxial magnetocrystalline anisotropy ( K 1 = 1.01 MJ m −3 or 10.1 Mergs per cm 3 ). This research provides a pathway for uncovering new magnetic compounds with computational efficiency beyond the existing materials database, which is significant for future technologies.more » « less
