Qianqian Du scite author profile

Graphene has been widely investigated for use in high-performance photodetectors due to its broad absorption band and high carrier mobility. While exhibiting remarkably strong absorption in the ultraviolet range, the fabrication of a large-scale integrable, graphene-based ultraviolet photodetector with long-term stability has proven to be a challenge. Here, using graphene as a template for C assembly, we synthesized a large-scale all-carbon hybrid film with inherently strong and tunable UV aborption. Efficient exciton dissociation at the heterointerface and enhanced optical absorption enables extremely high photoconductive gain, resulting in UV photoresponsivity of ∼10 A/W. Interestingly, due to the electron-hole recombination process at the heterointerface, the response time can be modulated by the gate voltage. More importantly, the use of all-carbon hybrid materials ensures robust operation and further allows the demonstration of an exemplary 5 × 5 (2-dimensional) photodetector array. The devices exhibit negligible degradation in figures of merit even after 2 month of operation, indicating excellent environmental robustness. The combination of high responsivity, reliability, and scalable processability makes this new all-carbon film a promising candidate for future integrable optoelectronics.

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Planar graphene-C60-graphene heterostructures for sensitive UV-Visible photodetection

Qin

Jiang

et al. 2019

Carbon

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Highly Sensitive and Ultrafast Organic Phototransistor Based on Rubrene Single Crystals

Qin

Wang

et al. 2021

ACS Appl. Mater. Interfaces

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Rubrene single crystals have received a lot of attention for their great potential in electronic and wearable nanoelectronics due to their high carrier mobility and excellent flexibility. While they exhibited remarkable electrical performances, their intrinsic potential as photon detectors has not been fully exploited. Here, we fabricate a sensitive and ultrafast organic phototransistor based on rubrene single crystals. The device covers the ultraviolet to visible range (275–532 nm), and the responsivity and detectivity can reach up to ∼4000 A W–1 and 1011 jones at 532 nm, respectively. Furthermore, the response times are highly gate-tunable down to sub-90 μs, and the cutoff frequency is ∼4 kHz, which is one of the fastest organic material-based phototransistors reported so far. Equally important is that the fabricated device exhibits stable light detection ability even after 8 months, indicating great long-term stability and excellent environmental robustness. The results suggest that the high-quality rubrene single crystal may be a promising material for future flexible optoelectronics with its intrinsic mechanical flexibility.

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Robust, flexible and broadband photodetectors based on van der Waals graphene/C60 heterostructures

Qin

Dong

et al. 2020

Carbon

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Qianqian Du

Sensitive and Robust Ultraviolet Photodetector Array Based on Self-Assembled Graphene/C₆₀ Hybrid Films

Planar graphene-C60-graphene heterostructures for sensitive UV-Visible photodetection

Highly Sensitive and Ultrafast Organic Phototransistor Based on Rubrene Single Crystals

Robust, flexible and broadband photodetectors based on van der Waals graphene/C60 heterostructures

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Qianqian Du

Sensitive and Robust Ultraviolet Photodetector Array Based on Self-Assembled Graphene/C60 Hybrid Films

Planar graphene-C60-graphene heterostructures for sensitive UV-Visible photodetection

Highly Sensitive and Ultrafast Organic Phototransistor Based on Rubrene Single Crystals

Robust, flexible and broadband photodetectors based on van der Waals graphene/C60 heterostructures

Contact Info

Product

Resources

About

Sensitive and Robust Ultraviolet Photodetector Array Based on Self-Assembled Graphene/C₆₀ Hybrid Films