Memristive behavior in a junctionless flash memory cell

Orak, İkram; Ürel, Mustafa; Bakan, Gökhan; Dâna, Aykutlu

doi:10.1063/1.4922624

Cited by 19 publications

(11 citation statements)

References 36 publications

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“…2b , the output characteristics [ I D versus drain voltage ( V D )] with clear linear-to-saturation transition confirm the proper channel pinch-off and minimal contact resistance 27 28 . Additionally, the dual-sweep output curves of a SFG-OFET show the characteristic memristive behaviour that originates from the charge trapping and release taking place within the timescale of curve sweeps 29 . We obtained a near-100% yield of working devices 30 , benefiting from our geometrically flat, and spatially uniform 2-D memory element ( Fig.…”

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confidence: 99%

Synaptic organic transistors with a vacuum-deposited charge-trapping nanosheet

Kim

Sung

Yoon

2016

Sci Rep

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Organic neuromorphic devices hold great promise for unconventional signal processing and efficient human-machine interfaces. Herein, we propose novel synaptic organic transistors devised to overcome the traditional trade-off between channel conductance and memory performance. A vacuum-processed, nanoscale metallic interlayer provides an ultra-flat surface for a high-mobility molecular film as well as a desirable degree of charge trapping, allowing for low-temperature fabrication of uniform device arrays on plastic. The device architecture is implemented by widely available electronic materials in combination with conventional deposition methods. Therefore, our results are expected to generate broader interests in incorporation of organic electronics into large-area neuromorphic systems, with potential in gate-addressable complex logic circuits and transparent multifunctional interfaces receiving direct optical and cellular stimulation.

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confidence: 99%

Synaptic organic transistors with a vacuum-deposited charge-trapping nanosheet

Kim

Sung

Yoon

2016

Sci Rep

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“…where V DS is the source-drain voltage, V GS is the gate-source voltage, µ eff is the effective channel mobility, V TH is the threshold voltage, C ox is the areal capacitance of the gate stack, w and L are the width and length of the channel, and is the Early parameter. The more details about this equation were given in previous study [21].…”

Section: Resultsmentioning

confidence: 99%

Utilizing embedded ultra-small Pt nanoparticles as charge trapping layer in flashristor memory cells

Orak

Eren

Bıyıklı

et al. 2019

Applied Surface Science

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In this study, a methodology for producing highly controlled and uniformly dispersed metal nanoparticles were developed by atomic layer deposition (ALD) technique. All-ALD grown thin film flash memory (TFFM) cells and their applications were demonstrated with ultra-small platinum nanoparticles (Pt-NPs) as charge trapping layer and control tunnel oxide layer. The ultra-small Pt-NPs possessed sizes ranging from 2.3 to 2.6 nm and particle densities of about 2.5 × 10 13 cm -b . The effect of Pt-NPs embedded on the storage layer for charging was investigated. The charging effect of ultra-small Pt-NPs the storage layer was observed using the electrical characteristics of TFFM. The Pt-NPs were observed by a high-resolution scanning electron microscopy (HR-SEM). The memory effect was manifested by hysteresis in the I DS -V DS and I DS -V GS curves. The charge storage capacity of the TFFM cells demonstrated that ALD-grown Pt-NPs in conjunction with ZnO layer can be considered as a promising candidate for memory devices. Moreover, ZnO TFFM showed a I ON /I OFF ratio of up to 52 orders of magnitude and its threshold voltage (V th ) was approximately −4.1 V using I ds −a/b -V gs curve. Fabricated TFFMs exhibited clear pinch-off and show n-type field effect transistor (FET) behavior. The role of atomic-scale controlled Pt-NPs for improvement of devices were also discussed and they indicated that ALD-grown Pt-NPs can be utilized in nanoscale electronic devices as alternative quantum dot structures.

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“…Memristor has low power and nonvolatile operation, variety of physical mechanisms and potentially high density, placing advanced components of future computing systems [21]. Si3N4 is commonly used memory contacts for memristive characterizations.…”

Section: Resultsmentioning

confidence: 99%