[1] Jae K S.Characteristic enhancement of white LED lamp using low temperature co-fired ceramic-chip on board package[J].Current Appl.Phys.,2012,12 (2): 494-498.

[2] 苏达,王德苗.大功率LED散热封装技术研究[J].中国照明电器,2007,7(1):1-3.

[3] Chen Ting,Chen Zhizhong,Lin liang,et al.Methods for determining junction temperature of GaN-based white LEDs[J].Chin.J.Lumin.,2006,27(3):407-412.

[4] 张楼英,李朝树.LED封装中的散热研究[J].电子与封装,2009,9(5):1-3.

[5] 杨迎新,张乐平.提高6063铝合金导热性能的途径探讨[J].金属功能材料,2004,11(3):23-25.

[6] 胡东飞,徐军明.纳米添加剂对LED铝基板散热性能的影响[J].电子器件,2010,33(6):664-666.

[7] 张淑芳,方亮,付光宗,等.导热涂层对LED系统散热性能分析[J].半导体光电,2007,28(6):793-796.

[8] 钟前刚,方亮,何建,等.阳极氧化铝基板封装LED的结温与热阻的研究[J].半导体光电,2010,31(6):842-845.

[9] 袁柳林,刘胜.基于微通道制冷的大功率LED阵列封装热分析[J].光电器件,2006,27(6):712-716.

[10] Tuckerman D B,Pease R F W.High performance heat sinking for VLSI[J].IEEE Electron.Device Lett.,1981,2(5):126-129.

[11] Xue Shengjie,Fang Liang.Influence of ITO graphene thinkness and electrode buried depth on LED thermal-electrical charateristics using numerical simulation[J].Chin.Phys.Lett.,2014,31(2):1-4.

[12] Anithambigai P,Dinash K.Thermal analysis of power LED employing dual interface method and water flow as a cooling system[J].Thermochimica Acta,2011,523:237-244.

[13] 安刚,李俊明,王补宣.微小矩形通道内气体层流换热的数值模拟[J].机械工程学报,2001,37(7):5-8.

[14] Long X M,Liao R J,Zhou J.Numerical simulation on electrical-thermal properties of gallium-nitride-based light-emitting diodes embedded in board[J].Advances in Optoelectron.,2012,495981:6-12.

[15] 张淑芳,方亮,付光宗,等.硅脂导热涂层改善LED散热性能的研究[J].材料导报,2007,21(5A):145-146,149.

[16] 方亮,钟前刚,何建,等.大功率 LED 封装用散热铝基板的制备与性能研究[J].材料导报,2011,30(1):130-134.

[17] 杨占海,姜云鹏.大功率LED阵列散热结构热分析[J].江南大学学报:自然科学版,2012,11(5):548-551.

[18] 李华平.大功率LED的封装及其散热基板研究[J].半导体光电,2007,28(1):47-50.

[19] 王静,五福根.改善大功率LED散热的关键问题[J].电子设计工程,2009,17(4):123-125.