2020
DOI: 10.1007/s12034-020-02270-9
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Synthesis, transfer and application of graphene as a transparent conductive film: a review

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Cited by 27 publications
(17 citation statements)
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“…In the case of AgNPs, no bands were detected, mainly due to their small diameters (less than 10 nm) and the low concentrations of silver in the composites [37][38][39]. 5%Ag@TiO 2 NWs-X%MoS 2 (Figure 6b) showed characteristics bands at 254, 410 and 607 cm −1 , corresponding to the B 1g , E g and A 1g vibrational modes of the rutile crystalline phase of TiO 2 [24,37]. As mentioned before, the MoS 2 bands at 383 and 408 cm −1 were also not detected due to overlap with bands of TiO 2 NWs.…”
Section: Catalystmentioning
confidence: 98%
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“…In the case of AgNPs, no bands were detected, mainly due to their small diameters (less than 10 nm) and the low concentrations of silver in the composites [37][38][39]. 5%Ag@TiO 2 NWs-X%MoS 2 (Figure 6b) showed characteristics bands at 254, 410 and 607 cm −1 , corresponding to the B 1g , E g and A 1g vibrational modes of the rutile crystalline phase of TiO 2 [24,37]. As mentioned before, the MoS 2 bands at 383 and 408 cm −1 were also not detected due to overlap with bands of TiO 2 NWs.…”
Section: Catalystmentioning
confidence: 98%
“…MoS2 has characteristics bands at 383 and 408 cm −1 [34] that were not visible due to overlap with the TiO2-P25 bands at 395 and 410 cm −1 . In the case of AgNPs, no bands were detected, mainly due to their small diameters (less than 10 nm) and the low concentrations of silver in the composites [37][38][39]. 5%Ag@TiO2 NWs-X%MoS2 (Figure 6b) showed characteristics bands at 254, 410 and 607 cm −1 , corresponding to the B1g, Eg and A1g vibrational modes of the rutile crystalline phase of TiO2 [24,37].…”
Section: Catalystmentioning
confidence: 99%
“…The production cost of this method is relatively low and involves the use of fewer chemicals. However, overall, the high-quality, uniform, easy-to-process, and low-cost transfer of graphene is still challenging and requires further exploration to meet industrial and market demands [ 49 ].…”
Section: Two-dimensional Graphenementioning
confidence: 99%
“…In solar cells, the R s of FTEs should be around 10 Ω•sq −1 , and the transmittance should be above 90%. Graphene is a 2D honeycomb lattice with a high surface area, high carrier mobility, good ductility, and light weight [154]. Many studies have shown that surface graphene and its derivatives (GO and rGO) are suitable for the fabrication of flexible batteries, which can be used as anode materials or as flexible substrates to support electrochemically active materials to improve electrical conductivity.…”
Section: Flexible Batteries and Supercapacitorsmentioning
confidence: 99%
“…The specific capacitance range of graphene-based supercapacitors is 99-550 Fg −1 , which is suitable for the electrode material of supercapacitors. However, graphene flakes tend to aggregate and stack easily, which reduces the active area, electrical conductivity, and capacitance [154]. Qin et al designed an anthraquinonefunctionalized graphene framework.…”
Section: Flexible Batteries and Supercapacitorsmentioning
confidence: 99%