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Tuning the Magnetization of Manganese (II) Carbonate by Intracrystalline Amino Acids

Incorporation of organic molecules into the lattice of inorganic crystalline hosts is a common phenomenon in biomineralization, and has been shown to alter various properties of the crystalline host. Taking this phenomenon as our source of inspiration, we show herein that incorporation of specific single amino acids into the lattice of manganese (II) carbonate strongly alters its inherent magnetic properties. At room temperature, the magnetic susceptibility of the amino-acid-incorporating paramagnetic MnCO3 decreases, following a simple rule of mixtures. When cooled below the Néel temperature, however, the opposite trend is observed, namely an increase in magnetic susceptibility measured in a high magnetic field. Such an increase, accompanied by a drastic change in the N'eel phase transformation temperature, results from a decrease in MnCO3 orbital overlapping and the weakening of superexchange interactions.

preprint2022arXivOpen access
Arad LangIryna PolishchukGiorgia ConfalonieriCatherine DejoieAriel ManivDaniel PotashnikovElad CaspiBoaz Pokroy
cond-mat.mtrl-sci
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Arad LangIryna PolishchukGiorgia ConfalonieriCatherine DejoieAriel ManivDaniel PotashnikovElad CaspiBoaz Pokroy

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