2007
DOI: 10.1016/j.physe.2006.09.003
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Bi3.25La0.75Ti3O12 (BLT) nanotube capacitors for semiconductor memories

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Cited by 17 publications
(7 citation statements)
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“…It has also been proposed that FeFET operation based on polarization rotation rather than inversion can lead to significantly lower operation voltage and faster speed [276]. In addition, with the development of the materials' fabrication technologies, the non-planar ferroelectric nanostructures such as ferroelectric nanowires [277][278][279][280], nanotubes [281][282][283], and nano-particles [281] have been successfully demonstrated, which can possibly lead to 3D FeFET device architecture. The third direction involves incorporating the nanoscale domain patterning via scanning probe approach to achieve local property control and tailored functionalities.…”
Section: Conclusion and Future Perspectivesmentioning
confidence: 99%
“…It has also been proposed that FeFET operation based on polarization rotation rather than inversion can lead to significantly lower operation voltage and faster speed [276]. In addition, with the development of the materials' fabrication technologies, the non-planar ferroelectric nanostructures such as ferroelectric nanowires [277][278][279][280], nanotubes [281][282][283], and nano-particles [281] have been successfully demonstrated, which can possibly lead to 3D FeFET device architecture. The third direction involves incorporating the nanoscale domain patterning via scanning probe approach to achieve local property control and tailored functionalities.…”
Section: Conclusion and Future Perspectivesmentioning
confidence: 99%
“…The advantages of the nonvolatility and NDRO process make FeFET ideal for memory applications. With the development of material fabrication technologies, the non-planar ferroelectric nanostructures such as FE NWs [105-107], nanotube [108-110], and NPs [108] have been prepared successfully. Although the capacity of the first FeRAM had only a 256-bit density [111], with the incorporation of the modern semiconductor technology, ferroelectric nanostructures with much higher integration density have been integrated in a large scale [112,113].…”
Section: Discussionmentioning
confidence: 99%
“…An MFM (metal-ferroelectric-metal) structure with PVDF has shown P r = 11.9 μC cm −2 and a coercive voltage of 2.0 V [54]. The use of nanostructured materials in FeRAM fabrication has not received much attention although nanowires and nanotubes of FE materials have been prepared and studied [55][56][57][58]. PZT has been grown in the form of nanowires using the sol-gel method [55] and solvothermal technique [56].…”
Section: Ferroelectric Random Access Memory (Feram)mentioning
confidence: 99%