In this paper, a tuneable multilevel data storage bioresistive memory device is prepared from a composite of multiwalled carbon nanotubes (MWCNTs) and egg albumen (EA). By changing the concentration of MWCNTs incorporated into the egg albumen film, the switching current ratio of aluminium/egg albumen:multiwalled carbon nanotubes/indium tin oxide (Al/EA:MWCNT/ITO) for resistive random access memory increases as the concentration of MWCNTs decreases. The device can achieve continuous bipolar switching that is repeated 100 times per cell with stable resistance for 104 s and a clear storage window under 2.5 × 104 continuous pulses. Changing the current limit of the device to obtain low-state resistance values of different states achieves multiv...
Resistive switching memory constitutes a prospective candidate for next-generation data storage devi...
Nowadays the development of natural biomaterials as promising building polymers for flexible, biodeg...
Natural biomaterials are potential candidates for the next generation of green electronics due to th...
There has been a strong demand for developing an ultradense and low-power nonvolatile memory technol...
In this dissertation, CNTs based memory devices in particularly using CNTs as the electrode for RRAM...
The incorporation of the one-dimensional carbon nanomaterial carbon nanotubes (CNTs) in poly(methyl ...
We demonstrate the nonvolatile resistive switching of an amorphous carbon (a-C) layer with carbon na...
We report the first AlOx-based resistive switching memory (RRAM) using carbon nanotubes (CNT) as con...
We use single-walled carbon nanotube (CNT) crossbar electrodes to probe sub-5 nm memory domains of t...
To investigate their memory behaviours, single-walled carbon nanotubes (SWCNTs) were embedded in the...
The demand for increased information storage densities has pushed silicon technology to its limits a...
Molecular memory devices with semiconducting single-walled carbon nanotubes constituting a channel o...
Nano-objects would be of great interest for the development of new types of electronic circuits if o...
The electrical behaviour of organic memory structures, based on single-walled carbon-nanotubes (SWCN...
Bio-resistive random access memory (Bio-RRAM) devices are important because they are biocompatible a...
Resistive switching memory constitutes a prospective candidate for next-generation data storage devi...
Nowadays the development of natural biomaterials as promising building polymers for flexible, biodeg...
Natural biomaterials are potential candidates for the next generation of green electronics due to th...
There has been a strong demand for developing an ultradense and low-power nonvolatile memory technol...
In this dissertation, CNTs based memory devices in particularly using CNTs as the electrode for RRAM...
The incorporation of the one-dimensional carbon nanomaterial carbon nanotubes (CNTs) in poly(methyl ...
We demonstrate the nonvolatile resistive switching of an amorphous carbon (a-C) layer with carbon na...
We report the first AlOx-based resistive switching memory (RRAM) using carbon nanotubes (CNT) as con...
We use single-walled carbon nanotube (CNT) crossbar electrodes to probe sub-5 nm memory domains of t...
To investigate their memory behaviours, single-walled carbon nanotubes (SWCNTs) were embedded in the...
The demand for increased information storage densities has pushed silicon technology to its limits a...
Molecular memory devices with semiconducting single-walled carbon nanotubes constituting a channel o...
Nano-objects would be of great interest for the development of new types of electronic circuits if o...
The electrical behaviour of organic memory structures, based on single-walled carbon-nanotubes (SWCN...
Bio-resistive random access memory (Bio-RRAM) devices are important because they are biocompatible a...
Resistive switching memory constitutes a prospective candidate for next-generation data storage devi...
Nowadays the development of natural biomaterials as promising building polymers for flexible, biodeg...
Natural biomaterials are potential candidates for the next generation of green electronics due to th...