2022
DOI: 10.1002/adom.202200409
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Bidirectional Photoresponse in Perovskite‐ZnO Heterostructure for Fully Optical‐Controlled Artificial Synapse

Abstract: energy consumption and inherent speed limitations. Inspired by human neural system, communicating through synapses with the features of parallel distributed processing and integrated storage and computation, various neuromorphic devices including memristors and fieldeffect transistors have been employed to simulate synaptic functions to overcome the von Neumann bottleneck. [1][2][3] Synaptic plasticity such as long/short-term potentiation (LTP/STP), long/short-term depression (LTD/STD), and paired pulse facili… Show more

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Cited by 48 publications
(49 citation statements)
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“…The PPF index can be defined as the ratio (A 2 /A 1 ) of the first peak (A 1 ) to the second peak (A 2 ). 39 At the time interval of 2 s, the largest PPF index was 1.25. Nevertheless, it gradually decreased until it stabilized at a value of 1.00 with the increase in the time interval between the two pulses (Figure 3d).…”
Section: ■ Results and Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…The PPF index can be defined as the ratio (A 2 /A 1 ) of the first peak (A 1 ) to the second peak (A 2 ). 39 At the time interval of 2 s, the largest PPF index was 1.25. Nevertheless, it gradually decreased until it stabilized at a value of 1.00 with the increase in the time interval between the two pulses (Figure 3d).…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…After waiting for the pulse interval Δ t , the second stimulation was applied, and the amplitude A 2 was enhanced than A 1 . The PPF index can be defined as the ratio ( A 2 / A 1 ) of the first peak ( A 1 ) to the second peak ( A 2 ) . At the time interval of 2 s, the largest PPF index was 1.25.…”
Section: Resultsmentioning
confidence: 99%
“…Inspired by these responses, electrical synaptic devices exhibiting both excitatory and inhibitory behaviors have been used for neuromorphic computing, providing the advantages of ultrafast computational speed with low crosstalk, high bandwidth, and low power consumption . Recently, optically triggered artificial synapses that exhibit both excitatory and inhibitory behaviors have been developed by integrating semiconducting nanoparticles with different bandgaps. The artificial synapse is composed of a CdS/a-IGZO synaptic phototransistor, in which the gate electrode is connected to a voltage divider comprising a CdSe photoresistor and an a-IGZO load resistor (Figure g) . Because the bandgap of CdS and a-IGZO is 2.36 and 3.69 eV, respectively, the CdS/a-IGZO synaptic phototransistor generated the photocurrent in response to the green light because of the charge transfer between the CdS and a-IGZO, which corresponds to excitatory behavior.…”
Section: Nanomaterial-based Synaptic Optoelectronic Devicesmentioning
confidence: 99%
“…Moreover, synaptic behaviors experienced huge changes with perovskite doping in comparison with the one without doping. Considering the particularity of the perovskite to response to the light, [43,44] a presynaptic spike of 8 V amplitude (pulse width = 40 ms) could trigger an EPSC for the doped device under light irradiation (≈9.90 nA) of two orders of magnitude larger than the undoped device (≈302.53 pA) (see Figure 4b). The declined operating voltage for V ds (10 to 1 V) and the greatly improved synaptic current demonstrated the direct benefit of the surface doping technique and the photosensitive characteristics of the added perovskite materials.…”
Section: Perovskite-doped Fiber-based Devices With Synaptic Propertie...mentioning
confidence: 99%