Purnima P Balakrishnan
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Explore the profile of Purnima P Balakrishnan including associated specialties, affiliations and a list of published articles.
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11
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20
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Recent Articles
1.
Balakrishnan P, Ferenc Segedin D, Chow L, Quarterman P, Muramoto S, Surendran M, et al.
Nat Commun
. 2024 Aug;
15(1):7387.
PMID: 39191732
A key open question in the study of layered superconducting nickelate films is the role that hydrogen incorporation into the lattice plays in the appearance of the superconducting state. Due...
2.
Yuan W, Yan Z, Yi H, Wang Z, Paolini S, Zhao Y, et al.
Nano Lett
. 2024 Jun;
24(26):7962-7971.
PMID: 38885199
The interface of two materials can harbor unexpected emergent phenomena. One example is interface-induced superconductivity. In this work, we employ molecular beam epitaxy to grow a series of heterostructures formed...
3.
Arndt N, Hershkovitz E, Shah L, Kjaernes K, Yang C, Balakrishnan P, et al.
Materials (Basel)
. 2024 Mar;
17(5).
PMID: 38473659
The effect of oxygen reduction on the magnetic properties of LaFeO (LFO) thin films was studied to better understand the viability of LFO as a candidate for magnetoionic memory. Differences...
4.
Kane M, Bhandari C, Holtz M, Balakrishnan P, Grutter A, Fitzsimmons M, et al.
Nano Lett
. 2024 Feb;
24(8):2567-2573.
PMID: 38367281
The boundary between CaRuO and CaMnO is an ideal test bed for emergent magnetic ground states stabilized through interfacial electron interactions. In this system, nominally antiferromagnetic and paramagnetic materials combine...
5.
Yi H, Zhao Y, Chan Y, Cai J, Mei R, Wu X, et al.
Science
. 2024 Feb;
383(6683):634-639.
PMID: 38330133
The interface between two different materials can show unexpected quantum phenomena. In this study, we used molecular beam epitaxy to synthesize heterostructures formed by stacking together two magnetic materials, a...
6.
Zhang P, Balakrishnan P, Eckberg C, Deng P, Nozaki T, Chong S, et al.
Adv Mater
. 2023 May;
35(31):e2300391.
PMID: 37207689
The quantum anomalous Hall (QAH) effect is characterized by a dissipationless chiral edge state with a quantized Hall resistance at zero magnetic field. Manipulating the QAH state is of great...
7.
Jensen C, Quintana A, Quarterman P, Grutter A, Balakrishnan P, Zhang H, et al.
ACS Nano
. 2023 Mar;
17(7):6745-6753.
PMID: 36995303
Electric field control of the exchange bias effect across ferromagnet/antiferromagnet (FM/AF) interfaces has offered exciting potentials for low-energy-dissipation spintronics. In particular, the solid-state magneto-ionic means is highly appealing as it...
8.
Chaturvedi V, Ghosh S, Gautreau D, Postiglione W, Dewey J, Quarterman P, et al.
Nat Commun
. 2022 Dec;
13(1):7774.
PMID: 36522321
Cobalt oxides have long been understood to display intriguing phenomena known as spin-state crossovers, where the cobalt ion spin changes vs. temperature, pressure, etc. A very different situation was recently...
9.
Yi D, Wang Y, van t Erve O, Xu L, Yuan H, Veit M, et al.
Nat Commun
. 2020 Feb;
11(1):902.
PMID: 32060300
Electric fields can transform materials with respect to their structure and properties, enabling various applications ranging from batteries to spintronics. Recently electrolytic gating, which can generate large electric fields and...
10.
Emori S, Yi D, Crossley S, Wisser J, Balakrishnan P, Khodadadi B, et al.
Nano Lett
. 2018 May;
18(7):4273-4278.
PMID: 29792812
Pure spin currents, unaccompanied by dissipative charge flow, are essential for realizing energy-efficient nanomagnetic information and communications devices. Thin-film magnetic insulators have been identified as promising materials for spin-current technology...