Modeling the underlying mechanisms for organic memory devices: Tunneling, electron emission, and oxygen adsorbing

Yao, Yao; You, YinTao; Si, Wei; Wu, Chenming

doi:10.1063/1.4731879

Cited by 6 publications

(4 citation statements)

References 21 publications

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“…This indicates that the number of the carriers injected into the Ag 2 S/PVK layer is increased greatly when the sweeping voltage is higher than a certain voltage, and the electrons can be captured by the traps of the Ag 2 S nanocrystals with an exponential distribution in the forbidden gap, in which a large number of sulfur vacancies formed on the surface of Ag 2 S nanocrystals act as the charge traps [ 25 ]. When the devices are measured in the presence of air, the molecular oxygen may react with the sulfur vacancies to form a bridging oxide dimer to act as a potential barrier around the Ag 2 S nanocrystals [ 26 , 27 ]. Thus, the number of the injected carriers trapped by the barrier may be increased, which is responsible for the high slope of the fitting line of the devices measured in air.…”

Section: Resultsmentioning

confidence: 99%

Oxygen Effects on Performance of Electrically Bistable Devices Based on Hybrid Silver Sulfide Poly(N-vinylcarbazole) Nanocomposites

Tang

et al. 2016

Nanoscale Res Lett

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An organic/inorganic bistable device is fabricated by using a simple spin-coating technique, in which the hybrid silver sulfide (Ag2S) poly(N-vinylcarbazole) (PVK) nanocomposite film is sandwiched between two electrodes. An obvious electrical hysteresis is observed in the current-voltage (I-V) curve of the device measured in the presence of different oxygen concentrations, and the magnitude of the electrical hysteresis is decreased with a decrease of the oxygen concentrations. The electrical bistability of the device exhibits a strong dependence on the oxygen concentrations, and the current variation of the OFF state is higher than that of the ON state with the gas atmosphere changing from N2 to air. Different theoretical models have been employed to describe the carrier transport mechanisms of the device in the OFF and ON states measured in different gas atmospheres on the basis of the experimental I-V results, and the carrier transport of the device in the ON state measured in air is very different from that measured in N2 and low O2 concentrations due to the participation of oxygen vacancies in the trapping and de-trapping processes of electrons into and out of the Ag2S/PVK heterointerface.

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Section: Resultsmentioning

confidence: 99%

Oxygen Effects on Performance of Electrically Bistable Devices Based on Hybrid Silver Sulfide Poly(N-vinylcarbazole) Nanocomposites

Tang

et al. 2016

Nanoscale Res Lett

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“…Similarly, the NDR effect also exists in organic semiconducting devices, where it is believed to originate in the tunneling process across the energy barrier at the metal/organic interface. 39 Here, we use the WF-HEOM approach to calculate the current-voltage (I-V) curves in the NDR regime for a semiconducting material that bridges two electrodes in the presence of two Guassian-shaped interface energy barriers given by aexp [− (q − q 0 ) 2 /c 2 ] with a = 0.3 eV and c = 2 nm. The distance between these two barriers is 5 nm, and the rest of model parameters are: the electron effective mass is 0.067m 0 with m 0 the mass of free electron; the discretization number for coordinate and momentum N q and N p are 80 and 60, respectively; the mesh spacing q is 0.5 nm such that p = π /N q q .…”

Section: A I-v Curve In Resonant Tunneling Diodesmentioning

confidence: 99%

“…Each data point requires more than 10 h of computation on a Linux-based computing cluster, with each CPU being a 2.67 GHz Intel processor, rendering the WF-HEOM method less efficient than the scattering-operator method. 39 However, it is easier to apply the WF-HEOM approach to our system than the scattering-operator method. In particular, the NDR effect has been reproduced for the semiconducting devices in a unified manner, while with scattering operator method, results need to be rescaled on a caseby-case basis.…”

Section: A I-v Curve In Resonant Tunneling Diodesmentioning

confidence: 99%

Exciton dissociation in the presence of phonons: A reduced hierarchy equations of motion approach

Yao

Yang

Zhao

2014

The Journal of Chemical Physics

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Combining the reduced hierarchy equations of motion (HEOM) approach with the Wigner-function formalism, we investigate nonperturbatively exciton dissociation under the influence of a phonon bath in an organic heterojunction. The exciton is modeled by an electron-hole pair with the electron moving in the presence of both an external electric field and the Coulomb attraction potential from the hole. In the absence of a phonon bath, calculated HEOM results reproduce those from the Onsager-Braun theory in weak electric fields. In the presence of a phonon bath, substantial deviations from the Onsager-Braun theory are found, signaling phonon-induced quantum effects. Furthermore, time evolution of the spatial current distribution is examined, and an initial spike followed by a polarity change of the transient photocurrent have been recovered.

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“…Generally, filament formation is thought to be also related to the unintentional incorporation of metal particles during the thermal evaporation of the top electrode (TE). 16,17) Based on our previous work, 14,15,18) we here further elucidate the origin of unipolar resistance switching in ORS. By comparing current-voltage (I-V) characteristics of devices with conventionally evaporated top electrodes with metal transfer printed (MTP) top electrodes the hypothesis that metal implantation during the deposition of the TE is essential for switching is benchmarked.…”

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confidence: 95%

Resistive switching based on filaments in metal/PMMA/metal thin film devices

Wolf

Nau

Sax

et al. 2015

Jpn. J. Appl. Phys.

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The working mechanism of unipolar organic resistive switching thin-film devices is investigated. On the basis of a metal/poly(methyl methacrylate)/metal model system, direct spectroscopic evidence for filament formation is obtained by three-dimensional (3D) imaging with time-of-flight secondary ion mass spectrometry. By means of alternative fabrication methods the claimed influence of metal implantation in the organic layer during fabrication is ruled out. Further, the stability of the resistive switches under oxygen and humidity is investigated leading to a deeper understanding of the processes governing the formation and rupture of filaments.

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Modeling the underlying mechanisms for organic memory devices: Tunneling, electron emission, and oxygen adsorbing

Cited by 6 publications

References 21 publications

Oxygen Effects on Performance of Electrically Bistable Devices Based on Hybrid Silver Sulfide Poly(N-vinylcarbazole) Nanocomposites

Oxygen Effects on Performance of Electrically Bistable Devices Based on Hybrid Silver Sulfide Poly(N-vinylcarbazole) Nanocomposites

Exciton dissociation in the presence of phonons: A reduced hierarchy equations of motion approach

Resistive switching based on filaments in metal/PMMA/metal thin film devices

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