[1] [1] GONG X, ZHENG S Y, ZHAO X J, et al. Engineering high-emissive silicon-doped carbon nanodots towards efficient large-area luminescent solar concentrators［J］. Nano Energy, 2022, 101: 107617.

[2] [2] ZHAO H G, BENETTI D, TONG X, et al. Efficient and stable tandem luminescent solar concentrators based on carbon dots and perovskite quantum dots［J］. Nano Energy, 2018, 50: 756-765.

[3] [3] HAN Y, ZHAO X J, VOMIERO A, et al. Red and green-emitting biocompatible carbon quantum dots for efficient tandem luminescent solar concentrators［J］. Journal of Materials Chemistry C, 2021, 9(36): 12255-12262.

[4] [4] RAFIEE M, CHANDRA S, AHMED H, et al. An overview of various configurations of luminescent solar concentrators for photovoltaic applications［J］. Optical Materials, 2019, 91: 212-227.

[5] [5] MEINARDI F, EHRENBERG S, DHAMO L, et al. Highly efficient luminescent solar concentrators based on earth-abundant indirect-bandgap silicon quantum dots［J］. Nature Photonics, 2017, 11: 177-185.

[6] [6] LI Z L, ZHAO X J, HUANG C B, et al. Recent advances in green fabrication of luminescent solar concentrators using nontoxic quantum dots as fluorophores［J］. Journal of Materials Chemistry C, 2019, 7(40): 12373-12387.

[7] [7] LIU G J, WANG X H, HAN G T, et al. Earth abundant colloidal carbon quantum dots for luminescent solar concentrators［J］. Materials Advances, 2020, 1(2): 119-138.

[8] [8] WU Y H, ZHAO L X, CAO X Y, et al. Bright and multicolor emissive carbon dots/organosilicon composite for highly efficient tandem luminescent solar concentrators［J］. Carbon, 2023, 207: 77-85.

[9] [9] GUO J Z, LU Y S, XIE A Q, et al. Yellow-emissive carbon dots with high solid-state photoluminescence［J］. Advanced Functional Materials, 2022, 32(20): 2110393.

[10] [10] OREVIC＇ L, ARCUDI F, CACIOPPO M, et al. A multifunctional chemical toolbox to engineer carbon dots for biomedical and energy applications［J］. Nature Nanotechnology, 2022, 17: 112-130.

[11] [11] WANG F, XIE Z, ZHANG H, et al. Highly luminescent organosilane-functionalized carbon dots［J］. Advanced Functional Materials, 2011, 21(6): 1027-1031.

[12] [12] QIN Z X, CUI J C, WEN M, et al. Synthesis of high-efficiency fluorescent carbon dots for the detection of metal ions［J］. Acta Photonica Sinica, 2020, 49(6): 616001-616001.

[13] [13] WANG Z J, ZHAO X J, GUO Z Z, et al. Carbon dots based nanocomposite thin film for highly efficient luminescent solar concentrators［J］. Organic Electronics, 2018, 62: 284-289.

[14] [14] CHEN J C, ZHAO H G, LI Z L, et al. Highly efficient tandem luminescent solar concentrators based on eco-friendly copper iodide based hybrid nanoparticles and carbon dots［J］. Energy & Environmental Science, 2022, 15(2): 799-805.

[15] [15] LI J R, ZHAO H G, ZHAO X J, et al. Red and yellow emissive carbon dots integrated tandem luminescent solar concentrators with significantly improved efficiency［J］. Nanoscale, 2021, 13(21): 9561-9569.

[16] [16] ZHANG X W, MIAO R Z, XU F L, et al. Crystalline phase-tuned multicolor luminescence of carbon dots for white-light-emitting diode devices［J］. Chinese Journal of Luminescence, 2023, 44(2): 298-306.

[17] [17] WU Y H, ZHAN Y, XIN W, et al. Highly emissive carbon dots/organosilicon composites for efficient and stable luminescent solar concentrators［J］. ACS Applied Energy Materials, 2022, 5(2): 1781-1792.

[18] [18] TALITE M J, HUANG H Y, CAI K B, et al. Visible-transparent luminescent solar concentrators based on carbon nanodots in the siloxane matrix with ultrahigh quantum yields and optical transparency at high-loading contents［J］. The Journal of Physical Chemistry Letters, 2020, 11(2): 567-573.

[19] [19] HU G Z, WANG Y, ZHANG S, et al. Rational synthesis of silane-functionalized carbon dots with high-efficiency full-color solid-state fluorescence for light emitting diodes［J］. Carbon, 2023, 203: 1-10.

[20] [20] ZHAN Z H, CHEN C E, MO D X, et al. Preparation, fluorescent properties and cell imaging of near infrared fluorescent carbon quantum dots with single excited double emission［J］. Chinese Journal of Luminescence, 2021, 42(8): 1307-1313.

[21] [21] DING H, WEI J S, ZHONG N, et al. Highly efficient red-emitting carbon dots with gram-scale yield for bioimaging［J］. Langmuir: the ACS Journal of Surfaces and Colloids, 2017, 33(44): 12635-12642.

[22] [22] YAN F Y, ZHANG H, XU J X, et al. Color emission carbon dots with quench-resixastant solid-state fluorescence for light-emitting diodes［J］. ACS Sustainable Chemistry & Engineering, 2021, 9(10): 3901-3908.

[23] [23] WANG J L, YANG Y Z, LIU X G. Solid-state fluorescent carbon dots: quenching resistance strategies, high quantum efficiency control, multicolor tuning, and applications［J］. Materials Advances, 2020, 1(9): 3122-3142.

[24] [24] YANG C C, ATWATER H A, BALDO M A, et al. Consensus statement: standardized reporting of power-producing luminescent solar concentrator performance［J］. Joule, 2022, 6(1): 8-15.