Enhanced near-infrared photoresponse of organic phototransistors based on single-component donor–acceptor conjugated polymer nanowires

Zhu, Ming; Lv, Shenchen; Wang, Qinghe; Zhang, Guobing; Lu, Hongbo; Qiu, Longzhen

doi:10.1039/c5nr09003b

Cited by 71 publications

(54 citation statements)

References 47 publications

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“…For instance, along the crystalline texture orientation after annealing treatment in Chen's work, BODIPY‐BF2 film‐based NIR OPTs showed remarkable photoresponsivity ( R ) of 1.14 × 10 4 A W −1 under an 850 nm laser, which is two orders of magnitude greater than the amorphous film . Qiu and co‐workers reported that the NIR photoresponsivity of PBIBDF‐TT transistors was enhanced by replacing the thin‐film with 1D nanowire (NW) structures . Nevertheless, few reports remain about the restriction of dark current in NIR OPTs, which would worsen the sensitivity, particularly in low bandgap semiconductors .…”

Section: Comparison Of Figure Of Merit Of Nir Phototransistor Based Omentioning

confidence: 99%

N‐Type 2D Organic Single Crystals for High‐Performance Organic Field‐Effect Transistors and Near‐Infrared Phototransistors

et al. 2018

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Organic field-effect transistors and near-infrared (NIR) organic phototransistors (OPTs) have attracted world's attention in many fields in the past decades. In general, the sensitivity, distinguishing the signal from noise, is the key parameter to evaluate the performance of NIR OPTs, which is decided by responsivity and dark current. 2D single crystal films of organic semiconductors (2DCOS) are promising functional materials due to their long-range order in spite of only few molecular layers. Herein, for the first time, air-stable 2DCOS of n-type organic semiconductors (a furan-thiophene quinoidal compound, TFT-CN) with strong absorbance around 830 nm, by the facile drop-casting method on the surface of water are successfully prepared. Almost millimeter-sized TFT-CN 2DCOS are obtained and their thickness is below 5 nm. A competitive field-effect electron mobility (1.36 cm V s ) and high on/off ratio (up to 10 ) are obtained in air. Impressively, the ultrasensitive NIR phototransistors operating at the off-state exhibit a very low dark current of ≈0.3 pA and an ultrahigh detectivity (D*) exceeding 6 × 10 Jones because the devices can operate in full depletion at the off-state, superior to the majority of the reported organic-based NIR phototransistors.

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Section: Comparison Of Figure Of Merit Of Nir Phototransistor Based Omentioning

confidence: 99%

N‐Type 2D Organic Single Crystals for High‐Performance Organic Field‐Effect Transistors and Near‐Infrared Phototransistors

et al. 2018

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“…Phototransistors based on ambipolar materials, which are single component systems that can function as both p-and n-type semiconductors, have also been demonstrated. [24][25][26][27] Single component, ambipolar transistors are cost-effective and boast several advantages including largearea applicability and simple fabrication. Despite their advantages, research on ambipolar material-based phototransistors is insufficient.…”

Section: Introductionmentioning

confidence: 99%

Ambipolar organic phototransistors based on 6,6′-dibromoindigo

Kim

Song

et al. 2018

RSC Adv.

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“…When the gate bias is above the threshold (on‐state), the barrier becomes smaller, which facilitates the drift of photogenerated carriers thus gaining larger drain current (panel IV of Figure b). However, as the gate bias keeps increasing, the photocurrent gradually saturates and decreases slightly, which could be explained by the enhanced photoexcited carrier recombination at high carrier concentrations …”

Section: Resultsmentioning

confidence: 99%

Charge Transport Behavior and Ultrasensitive Photoresponse Performance of Exfoliated F₁₆CuPc Nanoflakes

Hao

Qin

et al. 2019

Advanced Optical Materials

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Air‐stable, photosensitive copper hexadecafluorophthalocyanine (F16CuPc) is a promising n‐type semiconductor for organic electronics and optoelectronics. However, the performance of F16CuPc‐based devices is significantly limited by the poor crystallinity of thin films. Here, the charge transport and electrical contact behavior of F16CuPc nanoflakes, mechanically exfoliated from needle‐like bulk single crystals, are probed by analyzing the temperature‐dependent carrier mobility and conductance, where the multiple‐trap/release‐ and band‐like transport mechanism govern the charge transport at different temperature ranges and carrier densities. F16CuPc nanoflake‐based field effect transistors (FETs) exhibit high on‐state current and ON/OFF ratio, one‐order magnitude higher than those of reported F16CuPc nanowires, thin films, and nanoribbons. Besides, F16CuPc nanoflake‐based phototransistors exhibit attractive photoresponse performance in the spectral range of 300–750 nm even at quite low operating source–drain voltage (1 V), with maximum photoresponsivity of 19 A W−1, detectivity of 8 × 1012 Jones, and fast response speed of 36 ms, which is attributed to the single‐crystalline characteristic of nanoflakes, and the resultant efficiently exciton diffusion and charge transport. The work demonstrates that 2D organic nanoflakes with single‐crystalline feature will be promising candidates for flexible electronic and optoelectronic devices.

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Enhanced near-infrared photoresponse of organic phototransistors based on single-component donor–acceptor conjugated polymer nanowires

Cited by 71 publications

References 47 publications

N‐Type 2D Organic Single Crystals for High‐Performance Organic Field‐Effect Transistors and Near‐Infrared Phototransistors

N‐Type 2D Organic Single Crystals for High‐Performance Organic Field‐Effect Transistors and Near‐Infrared Phototransistors

Ambipolar organic phototransistors based on 6,6′-dibromoindigo

Charge Transport Behavior and Ultrasensitive Photoresponse Performance of Exfoliated F₁₆CuPc Nanoflakes

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Enhanced near-infrared photoresponse of organic phototransistors based on single-component donor–acceptor conjugated polymer nanowires

Cited by 71 publications

References 47 publications

N‐Type 2D Organic Single Crystals for High‐Performance Organic Field‐Effect Transistors and Near‐Infrared Phototransistors

N‐Type 2D Organic Single Crystals for High‐Performance Organic Field‐Effect Transistors and Near‐Infrared Phototransistors

Ambipolar organic phototransistors based on 6,6′-dibromoindigo

Charge Transport Behavior and Ultrasensitive Photoresponse Performance of Exfoliated F16CuPc Nanoflakes

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Charge Transport Behavior and Ultrasensitive Photoresponse Performance of Exfoliated F₁₆CuPc Nanoflakes