[1] OMASULO M, YILDIZ I, RAYMO F M. pH-sensitive quantum dots[J]. Journal of physical chemistry B, 2006, 110(9):3853-3855.
[2] HI C, BEECHER A N, LI Y, et al. Size-dependent lattice dynamics of atomically precise cadmium selenide quantum dots[J]. Physical review letters, 2019, 122:026101.
[3] IN X, XIE K, ZHANG T, et al. Cation exchange assisted synthesis of ZnCdSe/ZnSe quantum dots with narrow emission line widths and near-unity photoluminescence quantum yields[J]. Chemical communications, 2020, 56(45):6130-6133.
[4] AZDANI N, ANDERMATT S, YAREMA M, et al. Charge transport in semiconductors assembled from nanocrystal quantum dots[J]. Nature communications, 2020, 11(1):2852.
[5] ELNYCHUK C, GUYOT-SIONNEST P. Multicarrier dynamics in quantum dots[J]. Chemical reviews, 2021, 121(4):2325-2372.
[6] AI X, ZHANG Z, JIN Y, et al. Solution-processed, high-performance light-emitting diodes based on quantum dots[J]. Nature, 2014, 515:96-99.
[7] IM J, PARK Y S, KLIMOV V I. Optical gain in colloidal quantum dots achieved with direct-current electrical pumping[J]. Nature materials, 2018, 17:42-49.
[8] RQUERFP D, TALAPIN D V, KLIMOV V I, et al. Semiconductor quantum dots:technological progress and future challenges[J]. Science, 2021, 373(6555):1-14.
[9] EN Q, MA Y, ZHANG S, et al. One-step synthesis of water-soluble silver sulfide quantum dots and their application to bioimaging[J]. ACS omega, 2021, 6(9):6361-6367.
[10] U Y, HAN T T, AGREN H, et al. Design of semiconductor CdSe core ZnS/CdS multishell quantum dots for multiphoton applications[J]. Applied physics letters, 2007, 90:173102.
[11] I B, KOLEY S, SLOBODKIN I, et al. ZnSe/ZnS core/shell quantum dots with superior optical properties through thermodynamic shell growth[J]. Nano letters, 2020, 20(4):2387-2395.
[12] ANN T, SKINNER W M. Quantum dots for electro-optic devices[J]. ACS nano, 2011, 5(7):5291-5295.
[13] IM S H, MAN M T, LEE J W, et al. Influence of size and shape anisotropy on optical properties of CdSe quantum dots[J]. Nanomaterials, 2020, 10:1589.
[14] IJAZ P, IMRAN M, SOARES M M, et al. Composition-,size-, and surface functionalization-dependent optical properties of lead bromide perovskite nanocrystals[J]. Journal of physical chemistry letters, 2020, 11(6):2079-2085.
[15] HAO S, WU F, ZHANG S, et al. Components-dependent optical nonlinearity in a series of CdSexS1-x and CdSexS1-x/ZnS QDs[J] . Optics and laser technology, 2016, 82:104-107.
[16] APRA S, SARMA D D. Evolution of the electronic structure with size in II-VI semiconductor nanocrystals[J]. Physical review B, 2004, 69:125304.
[17] ERNA G, PAGLIARA S, CAPOZZI V, et al. Optical characterization of CdSxSe1-x films grown on quartz substrate by pulsed laser ablation technique[J]. Thin solid films, 1999, 349:220-224.
[18] ING Q C, JIAO S L. Colourometry[M]. Beijing:Science Press, 1979. (in Chinese)
[19] UNETSV P, KULISHN R, STRELCHUKV V, et al. CdS Se quantum dots:effect of the hydrogen RF plasma treatment on exciton luminescence[J]. Physica E, 2004, 22:804-807.