[1] DESJARDINS D, HOPPER D G. Military display market segment： aircraft cockpits[C], 5443, 88-106(2004).

[2] LIANG Q, SUN Y X, WANG L J et al. A novel inertial-aided visible light positioning system using modulated LEDs and unmodulated lights as landmarks[J]. IEEE Transactions on Automation Science and Engineering, 19, 3049-3067(2022).

[3] 王伟, 赵甜甜, 刘强. Mini/micro led巨量转移技术研究与发展现状[J]. 光学 精密工程, 31, 183-199(2023).

     WANG W, ZHAO T T, LIU Q et al. Research and development status of mini/micro led mass transfer technology[J]. Opt. Precision Eng., 31, 183-199(2023).

[4] WU T Z, SHER C W, LIN Y et al. Mini-LED and micro-LED： promising candidates for the next generation display technology[J]. Applied Sciences, 8, 1557(2018).

[5] 严子雯, 严群, 李典伦. 高度集成的ΜLED显示技术研究进展[J]. 发光学报, 41, 1309-1317(2020).

     YAN Z W, YAN Q, LI D L et al. Research progress of high integration density μLED display technology[J]. Chinese Journal of Luminescence, 41, 1309-1317(2020).

[6] HUANG Y G, HSIANG E L, DENG M Y et al. Mini-LED， micro-LED and OLED displays： present status and future perspectives[J]. Light, 9, 105(2020).

[7] WU Y F, MA J S, SU P et al. Full-color realization of micro-LED displays[J]. Nanomaterials, 10, 2482(2020).

[8] NIE J Y, UNIVERSITY X J, ZHANG Z et al. Systematic study on size and temporal dependence of micro-LED arrays for display applications[J]. Photonics Research, 11, 549-557(2023).

[9] ZHOU X J, TIAN P F, SHER C W et al. Growth， transfer printing and colour conversion techniques towards full-colour micro-LED display[J]. Progress in Quantum Electronics, 71, 100263(2020).

[10] [webpage]. https：//new.qq.com/rain/a/20210811A006B700.

     [webpage]. https：//new.qq.com/rain/a/20210811A006B700

[11] SUN N N, YANG B, CHEN F R et al. Advances in laser-assisted mass transfer of MicroLED[J]. Scientia Sinica （Technologica）, 52, 513-528(2022).

     孙宁宁, 杨彪, 陈福荣. 激光辅助MicroLED巨量转移技术进展[J]. 中国科学： 技术科学, 52, 513-528(2022).

[12] SHARMA B K, JANG B, LEE J E et al. Load-controlled roll transfer of oxide transistors for stretchable electronics[J]. Advanced Functional Materials, 23, 2024-2032(2013).

[13] CHOI M, JANG B, LEE W et al. Stretchable active matrix inorganic light-emitting diode display enabled by overlay-aligned roll-transfer printing[J]. Advanced Functional Materials, 27, 1606005(2017).

[14] VERMA A K, HADLEY M A, YEH H J J et al. Fluidic self-assembly of silicon microstructures[C], 1263-1268(1995).

[15] SASAKI K, SCHUELE P J, ULMER K et al. System and method for the fluidic assembly of emissive displays[P].

[16] RAMADAN Q, UK Y S, VAIDYANATHAN K. Large scale microcomponents assembly using an external magnetic array[J], 90, 172502(2007).

[17] YANDO S. Method and apparatus for fabricating an array of discrete elements[P].

[18] CLIFTON G, FONSTAD J. Magnetically-assisted statistical assembly-a new heterogeneous integration technique[report](2002).

[19] SHET S, MEHTA V R, FIORY A T et al. The magnetic field-assisted assembly of nanoscale semiconductor devices： a new technique[J]. JOM, 56, 32-34(2004).

[20] MORRIS C J, ISAACSON B, GRAPES M D et al. Self-assembly of microscale parts through magnetic and capillary interactions[J]. Micromachines, 2, 69-81(2011).

[21] KURAN E E, TICHEM M. Magnetic self-assembly with unique rotational alignment for thin chips[J]. Microelectronic Engineering, 141, 228-233(2015).

[22] CHANG W, KIM J, KIM M et al. Concurrent self-assembly of RGB microLEDs for next-generation displays[J]. Nature, 617, 287-291(2023).

[23] ZHANG L H, NIU D SH, ZHANG Y H. A kind of flow magnetic self-assembling mass transfer device and transfer method[P].

     张利辉, 牛德树, 张育恒. 一种流磁自组装巨量转移装置及转移方法[P].