Large-area metal surface plasmon–polymer coupled nanocomposite thin film at air–liquid interface for low voltage operated high-performance photodetector
Coupling of metal surface plasmon resonance (SPR) with organic molecules and successive fabrication of large-area films is an effective approach for enhancing photogenerated excitons while retaining their optical thickness. In this regard, we present the facile synthesis of a silver nanoparticle (Ag NP) SPR–polymer coupled large-area nanocomposite thin film (8 ± 0.5-cm-diameter circular film) at the air–liquid interface and the fabrication of a high-performance visible-region photodetector (PD). The formation of nanocomposite films was investigated via multiple techniques, which revealed the formation of an SPR/organic molecule unified system. The photoresponse of the nanocomposite film was examined by fabricating a sandwich-structure ITO/PQT-12-Ag NP/Al Schottky device PD and measuring the photocurrent; responsivity R(λ), which was 9.624 × 104, 3.384 × 104, and 2.372 × 104 mA/W; external quantum efficiency, which was 19.03 × 103, 8.92 × 103, and 5.54 × 103; and detectivity (D), which was 1.06 × 1013, 3.70 × 1012, and 2.60 × 1012 Jones, at a bias voltage of −1.5 V for 627-nm (red), 470-nm (blue), and 530-nm (green) light, respectively. The high performance of the PDs in the visible region was discussed according to the spectral, KPFM, morphological, and energy band diagram results.
This work was supported by the Industrial Strategic Technology Development Program ( 20000300 ) funded by the Ministry of Trade, Industry and Energy (MOTIE, Korea). This work was also supported by a grant from the Korea Institute of Energy Technology Evaluation and Planning (KETEP) funded by the Korean government ( MOTIE ) ( 20218520010100 , International Joint Research on Silicon/III-V tandem solar cell to achieve over 40 % efficiency) and ( 20214000000640 the Advanced Energy Research Center for Tandem Solar Cells Based on Silicon (AERC-TSC)).
