Iron- and iron oxide-filled multi-walled carbon nanotubes: Electrical properties and memory devices

“…[1][2][3][4][5][6][7][8][9] The interest is to integrate CNTs and NCs, taking advantage of their unique properties, into various architectures for next-generation magnetic, optical and energystorage devices. An example architecture is a layered composite of CNTs and NCs with sharp interfaces, which is integral to existing and proposed devices such as supercapacitors and fuel cells.…”

Electrophoretic deposition and characterization of Eu2O3 nanocrystal—Carbon nanotube heterostructures

“…[1][2][3][4][5][6][7][8][9] The interest is to integrate CNTs and NCs, taking advantage of their unique properties, into various architectures for next-generation magnetic, optical and energystorage devices. An example architecture is a layered composite of CNTs and NCs with sharp interfaces, which is integral to existing and proposed devices such as supercapacitors and fuel cells.…”

Electrophoretic deposition and characterization of Eu2O3 nanocrystal—Carbon nanotube heterostructures

“…This feature is achieved by adsorption on the protonated film of oxygen atoms, mainly due to electrons of oxygen molecule and water vapor. The atmosphere dependence in the memory effect is observed in other devices with different adsorption process [4,5]. Fig.…”

“…Nowadays, single-molecule memory cells can be considered a promising solution to the limit-scaling problem (Mooré s law), but there are some challenges in these devices manufacture [2][3][4]. Nevertheless, there are some solutions to address this problem, namely the production of planar devices based on the protonated organic thin films for storing more information in the same cell [5][6][7]. This can be achieved by the reaction between some gases and molecules of the thin film, i.e., for a particular bias voltage, the conductivity levels lead to data storage.…”

“…Organic materials in microelectronics applications have great advantages such as low cost, flexibility and easy production [1][2][3][4][5][6]. An important effect of organic devices is the possibility to create many conduction states.…”

Theoretical and experimental investigation into environment dependence and electric properties for volatile memory based on methyl-red dye thin film

“…[70][71][72] This area comprises three major research themes: functionalization of CNTs surfaces with nanoparticles 73 ; co-deposition of CNTs and nanoparticles into thin films and alternating, multilayered deposition of CNTs and nanoparticles. 74 These heterostructures are integral to several existing and proposed magnetic, optical and energy-storage devices.…”

Electrophoretic deposition of carbon nanotube–ceramic nanocomposites