[1] Sun Y, Xi Y H, Zhang X M et al. P‐12.6: research on color conversion model of multi-primary-color display[J]. SID Symposium Digest of Technical Papers, 52, 982-984(2021).

[2] Huraibat K, Perales E, Viqueira V et al. A multi-primary empirical model based on a quantum dots display technology[J]. Color Research & Application, 45, 393-400(2020).

[3] Hexley A C, Yöntem A Ö, Spitschan M et al. Demonstrating a multi-primary high dynamic range display system for vision experiments[J]. Journal of the Optical Society of America A, 37, A271-A284(2020).

[4] Lin S Y, Tan G J, Yu J H et al. Multi-primary-color quantum-dot down-converting films for display applications[J]. Optics Express, 27, 28480-28493(2019).

[5] Kim H J, Shin M H, Lee J Y et al. Realization of 95% of the Rec. 2020 color gamut in a highly efficient LCD using a patterned quantum dot film[J]. Optics Express, 25, 10724-10734(2017).

[6] Xiong Y, Deng F, Xu S et al. Performance analysis of multi-primary color display based on OLEDs/PLEDs[J]. Optics Communications, 398, 49-55(2017).

[7] Centore P. Minimal-energy control sequences for linear multi-primary displays[J]. Journal of Imaging Science and Technology, 59, 050502(2015).

[8] Luo Z Y, Wu S T. A spatiotemporal four-primary color LCD with quantum dots[J]. Journal of Display Technology, 10, 367-372(2014).

[9] Sano Y, Nonaka R, Baba M. Wide gamut LCD using locally dimmable four-primary-color LED backlight[J]. Journal of the Society for Information Display, 20, 539-546(2012).

[10] Teragawa M, Yoshida A, Yoshiyama K et al. Review paper: multi-primary-color displays: the latest technologies and their benefits[J]. Journal of the Society for Information Display, 20, 1-11(2012).

[11] Cheng H C, Rao L H, Wu S T. Color breakup suppression in field-sequential five-primary-color LCDs[J]. Journal of Display Technology, 6, 229-234(2010).

[12] Cheng H C, Ben-David I, Wu S T. Five-primary-color LCDs[J]. Journal of Display Technology, 6, 3-7(2010).

[13] Ouyang M, Huang S W. Determination of gamut boundary description for multi-primary color displays[J]. Optics Express, 15, 13388-13403(2007).

[14] Takaya M, Ito K, Ohashi G et al. Color-conversion method for a multi-primary display to reduce power consumption and conversion time[J]. Journal of the Society for Information Display, 13, 685-690(2005).

[15] Motomura H. Color conversion for a multi-primary display using linear interpolation on equi-luminance plane method (LIQUID)[J]. Journal of the Society for Information Display, 11, 371(2003).

[16] Ajito T, Ohsawa K, Obi T et al. Color conversion method for multiprimary display using matrix switching[J]. Optical Review, 8, 191-197(2001).

[17] Tomizawa K, Nakamura K, Ueki S et al. Multi-primary-color LCD: its characteristics and extended applications[J]. Journal of the Society for Information Display, 19, 369-379(2011).

[18] Ajito T, Obi T, Yamaguchi M et al. Expanded color gamut reproduced by six-primary projection display[J]. Proceedings of SPIE, 3954, 130-137(2000).

[19] Xu P, Zhang H J, Zhang K Q et al. Optimization of colorimetric characterization target for color digital cameras based on uniform color samples[J]. Acta Optica Sinica, 41, 1133001(2021).

[20] Liu H X, Zheng L, Dai L et al. Color characterization of LCD based on spectral additive properties[J]. Acta Optica Sinica, 31, 1233002(2011).

[21] Wang L R, Li F L, Sun Y X et al. Optical properties of quantum dots color-conversion using micro-LED illumination[J]. Laser & Optoelectronics Progress, 58, 2325002(2021).