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Chakraborty, Rohan D; Liang, Jierui; Nandakumaran, Nileena; Fasasi, Teslim A; Stoerzinger, Kelsey A; Leighton, Chris; Ferry, Vivian E (, ACS Nano)Free, publicly-accessible full text available May 13, 2026
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Kaiser, Ben; Ramberger, Justin; Norum, Mikaela; Nandakumaran, Nileena; Dewey, John; Leighton, Chris (, Physical Review Applied)Free, publicly-accessible full text available December 1, 2025
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Bose, Shameek; Sharma, Manish; Torija, Maria A; Walter, Jeff; Nandakumaran, Nileena; Dewey, John; Schmitt, Josh; Gazquez, Jaume; Varela, Maria; Zhernenkov, M; et al (, Physical Review Materials)Free, publicly-accessible full text available March 1, 2026
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Postiglione, William_M; Liang, Jierui; Nandakumaran, Nileena; Figari, Lucca; Aczel, Adam_A; Leighton, Chris (, APL Materials)Epitaxial cobaltites have emerged as exemplary materials for electrochemical gating, in large part due to their topotactic perovskite (P) ↔ brownmillerite (BM) transformations. SrCoO3−δ, for example, can be cycled between metallic ferromagnetic P SrCoO3 and insulating BM SrCoO2.5, realizing exceptional modulation of electronic, thermal, and optical properties. It is often presumed that such cycling also generates ferromagnetic–antiferromagnetic (F-AF) modulation due to the G-type AF order in bulk SrCoO2.5. Little is understood about magnetism in thin-film BM SrCoO2.5, however, meaning that the true magnetic property modulation is unclear. We address this here through a neutron diffraction study of BM La1−xSrxCoO2.5 films at x = 0.5 and 1.0. Lightly compressively strained SrCoO2.5 films are shown to retain G-type AF order, albeit with suppressed Néel temperature (∼340 K). Of high interest for AF spintronics, room-temperature F–AF cycling is thus possible across the SrCoO3-δ P ↔ BM transformation. At x = 0.5, however, BM La0.5Sr0.5CoO2.5 films are found to exhibit no detectable G-type AF order but instead weak F order (Curie temperature ∼115 K), unveiling a La0.5Sr0.5CoO3−δ phase diagram with two distinct F phases. These results thus uncover new, unanticipated magnetic phase behavior in these materials, in addition to being directly relevant to cobaltite-based magnetoionics.more » « less
