Literature DB >> 29258293

Perovskite nickelates as electric-field sensors in salt water.

Zhen Zhang1, Derek Schwanz1, Badri Narayanan2, Michele Kotiuga3, Joseph A Dura4, Mathew Cherukara2, Hua Zhou5, John W Freeland5, Jiarui Li6, Ronny Sutarto7, Feizhou He7, Chongzhao Wu8, Jiaxin Zhu9, Yifei Sun1, Koushik Ramadoss1, Stephen S Nonnenmann9, Nanfang Yu8, Riccardo Comin6, Karin M Rabe3, Subramanian K R S Sankaranarayanan2, Shriram Ramanathan1.   

Abstract

Designing materials to function in harsh environments, such as conductive aqueous media, is a problem of broad interest to a range of technologies, including energy, ocean monitoring and biological applications. The main challenge is to retain the stability and morphology of the material as it interacts dynamically with the surrounding environment. Materials that respond to mild stimuli through collective phase transitions and amplify signals could open up new avenues for sensing. Here we present the discovery of an electric-field-driven, water-mediated reversible phase change in a perovskite-structured nickelate, SmNiO3. This prototypical strongly correlated quantum material is stable in salt water, does not corrode, and allows exchange of protons with the surrounding water at ambient temperature, with the concurrent modification in electrical resistance and optical properties being capable of multi-modal readout. Besides operating both as thermistors and pH sensors, devices made of this material can detect sub-volt electric potentials in salt water. We postulate that such devices could be used in oceanic environments for monitoring electrical signals from various maritime vessels and sea creatures.

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Year:  2017        PMID: 29258293     DOI: 10.1038/nature25008

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  22 in total

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  9 in total

1.  Carrier localization in perovskite nickelates from oxygen vacancies.

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6.  Ionic Liquid Gate-Induced Modifications of Step Edges at SrCoO2.5 Surfaces.

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Journal:  ACS Nano       Date:  2020-07-14       Impact factor: 15.881

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Journal:  Nat Commun       Date:  2020-02-14       Impact factor: 14.919
  9 in total

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