Controlled mechnical modification of manganite surface with nanoscale resolution

Controlled mechnical modification of manganite surface with nanoscale resolution

We investigated the surfaces of magnetoresistive manganites, La1−xCaxMnO3 and La2-2xSr1+2xMn2O7, using a combination of ultrahigh vacuum conductive, electrostatic and magnetic force microscopy methods. Scanning as-grown film with a metal tip, even with zero applied bias, was found to modify the surf...

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Veröffentlicht in:Nanotechnology 2014-11, Vol.25 (47), p.475302-475302
Hauptverfasser: Kelly, Simon J, Kim, Yunseok, Eliseev, Eugene, Morozovska, Anna, Jesse, Stephen, Biegalski, Michael D, Mitchell, J F, Zheng, H, Aarts, J, Hwang, Inrok, Oh, Sungtaek, Sik Choi, Jin, Choi, Taekjib, Ho Park, Bae, Kalinin, Sergei V, Maksymovych, Peter
Format: Artikel
Sprache:eng
Schlagworte:
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Contact potentials
Electron states and collective excitations in thin films, multilayers, quantum wells, mesoscopic and nanoscale systems
Electron, ion, and scanning probe microscopy
Electronic properties
Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures
Electronic transport in multilayers, nanoscale materials and structures
Exact sciences and technology
Low-dimensional structures (superlattices, quantum well structures, multilayers): structure, and nonelectronic properties
Magnetic fields
manganite
Manganites
Microscopy
Noise levels
patterning
Physics
pressure
Scanning
Scanning probe microscopy: scanning tunneling, atomic force, scanning optical, magnetic force, etc
Structure of solids and liquids
crystallography
Surfaces and interfaces
thin films and whiskers (structure and nonelectronic properties)
Ultrahigh vacuum
Vacancies
vacancy
Vegard
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Zusammenfassung:We investigated the surfaces of magnetoresistive manganites, La1−xCaxMnO3 and La2-2xSr1+2xMn2O7, using a combination of ultrahigh vacuum conductive, electrostatic and magnetic force microscopy methods. Scanning as-grown film with a metal tip, even with zero applied bias, was found to modify the surface electronic properties such that in subsequent scans, the conductivity is reduced below the noise level of conductive probe microscopy. Scanned areas also reveal a reduced contact potential difference relative to the pristine surface by ∼0.3 eV. We propose that contact-pressure of the tip modifies the electrochemical potential of oxygen vacancies via the Vegard effect, causing vacancy motion and concomitant changes of the electronic properties.
ISSN:0957-4484
1361-6528
DOI:10.1088/0957-4484/25/47/475302