期刊
ACS NANO
卷 8, 期 3, 页码 2658-2666出版社
AMER CHEMICAL SOC
DOI: 10.1021/nn406367p
关键词
oxide nanosheets; ultrathin capacitors; solution-based assembly processes; dielectric property; capacitance density
类别
资金
- CREST of the Japan Science and Technology Agency (JST)
- World Premier International Research Center (WPI) Initiative on Materials Nanoarchitectonics, MEXT, Japan
All-nanosheet ultrathin capacitors of Ru0.95O20.2/Ca2Nb3O10- R0.95O20.2- were successfully assembled through facile room-temperature solution-based processes. As a bottom electrode, conductive R0.95O20.2- nanosheets were first assembled on a quartz glass substrate through a sequential adsorption process with polycations. On top of the R0.95O20.2- nanosheet film, Ca2Nb3O10- nanosheets were deposited by the Langmuir Blodgett technique to serve as a dielectric layer. Deposition parameters were optimized for each process to construct a densely packed multilayer structure. The multilayer buildup process was monitored by various characterizations such as atomic force microscopy (AFM), ultraviolet visible absorption spectra, and X-ray diffraction data, which provided compelling evidence for regular growth of Ru0.95O20.2- and Ca2Nb3O10- nanosheet films with the designed multilayer structures. Finally, an array of circular films (50 mu m phi) of Ru0.95O20.2- nanosheets was fabricated as top electrodes on the as-deposited nanosheet films by combining the standard photolithography and sequential adsorption processes. Microscopic observations by AFM and cross-sectional transmission electron microscopy, as well as nanoscopic elemental analysis, visualized the sandwich metal insulator metal structure of Ru0.95O20.2-/Ca2Nb3O10-/Ru0.95O20.2- with a total thickness less than 30 nm. Electrical measurements indicate that the system really works as an ultrathin capacitor, achieving a capacitance density of similar to 27.5 mu f cm(-2), which is far superior to currently available commercial capacitor devices. This work demonstrates the great potential of functional oxide nanosheets as components for nanoelectronics, thus contributing to the development of next-generation high-performance electronic devices.
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