• 
<tr id="yyy80"></tr>
    • <sup id="yyy80"></sup>
  • 

    <tfoot id="yyy80"><noscript id="yyy80"></noscript></tfoot>
  • 
99热精品在线国产_美女午夜性视频免费_国产精品国产高清国产av_av欧美777_自拍偷自拍亚洲精品老妇_亚洲熟女精品中文字幕_www日本黄色视频网_国产精品野战在线观看 
?
    
	
    
		
		
		
	
    

    

    
    
    
    
    
        
    
            
    GaN基LED光效下降的研究進展
    
                
    2014-07-18 12:09:10徐迪牛鳳娟
    
                
    決策與信息 2014年33期 
    關(guān)鍵詞:郴州研究進展湖南
    
                    
    徐迪,牛鳳娟
    湘能華磊光電股份有限公司 湖南郴州
    GaN基LED光效下降的研究進展
    徐迪,牛鳳娟
    湘能華磊光電股份有限公司 湖南郴州
    The inner mechanisms accounting for the efficiency droop in III-Nitride based LEDs have been investigated extensively. Here we give a brief discussion of the possible mechanisms: defect &dislocations related SRH non-radiative recombination, reduced spontaneous emission, Auger nonradiative recombination, electron leakage, polarization field, current crowding effect. Dislocations do not strongly impact high-current performance; a reduced spontaneous emission reduces internal quantum efficiency (IQE); Defect-assisted and polarization field induced Auger process, electron overflow will strongly influence the droop characteristics at elevated current injection. Current crowding should results to a lower IQE.
    Introduction
    Due to the rapid advance in epitaxial growth, chip design and fabrication technologies, great progress have been achieved in III-Nitrides based light emitting diodes (LEDs). In order to ultimate substitute the conventional lighting sources, efficiency is still in needs to be further improved. “efficiency droop” describes a commonly known phenomenon that LEDs suffer from severe external quantum efficiency (EQE) loss at the high current injection condition1. The inner mechanisms accounting for the efficiency droop have been investigated and proposed by different groups, which includes the polarization mismatch and the drifting current in p-GaN layer1, the dislocations-related defects2, the poor hole injection3, the delocalization of carriers4, and Auger recombination5. However, due to different sample preparation methods and test conditions, it is still under debate and deserved further deep investigation. In this paper, we will examine the different responsible mechanisms and give a mini review on efficiency droop of III-Nitride based LEDs.
    ABC Model
    The total decay rate for the carriers in the quantum wells (QWs) can be written as in the following:
    Where n represents the QW carrier density, A is the SRH parameter, and the corresponding An in the right part of equ.(1) represents the dislocation related SRH contribution; B is the radiative coefficient and C is the Auger coefficient, f(n) is used to represent the leakage current. So the radiative recombination efficiency can be written as:6
    Droop mechanisms
    Defect &Dislocations related mechanism
    Typical nonradiative electron?hole recombination at crystal defects is described by the SRH model. S. F. Chichibu et al7 conclude that localizing valence states associated with atomic condensates of In?N preferentially capture holes, which have a positive charge similar to positrons. The holes form localized excitons to emit the light, some of the excitons recombine at non-radiative centres. Fig.1 shows the calculated IQE droop curves with different A values. As we can see, with higher A values, i.e. dislocation & defect density, the IQEpeak decreased and the current corresponding to IQEpeak increased, IQE approaches closely at elevated current. The droop length thus surprisingly increased with a higher dislocation. Martin F. Schubert et al8 experimentally found that: dislocations do not strongly impact high-current performance; instead they contribute to increased nonradiative recombination at lower currents and a suppression of peak efficiency. The effect of dislocation &defect on IQE and IQE droop can be understand as this: at low current density, almost all the carriers were localized at a potential minima, and the IQE exhibited less dependence with TD density. However, at high carrier density, the localized carriers at potential minima will gradually release into conduction band due to band filling effect and easily move to the site around dislocations. The recombination mechanism could be both SRH and Auger, we will continue this discussion in Auger part.
    Spontaneous emission
    Auger recombination
    Auger recombination is a type of non-radiative recombination, describing a physical phenomenon in which excess electron energy was transferred to other electrons or holes. The probability of Auger process inversely related with energy band gap, so it is generally considered negligible in wide-gap materials. However, many researchers have extracted the C values, which are much higher than the theoretically predicted values. Through photoluminescence (PL) lifetime studies on quasi-bulk InGaN layers, Shen et al.10. extracted an Auger coefficient of C~2×10-30cm6/s. As can be seen from Fig.3, with C increased, IQE decreases greatly, especially at high injection current. Recalling from the defect related non-radiative part, we suggest a dislocationassisted mechanism. Because if it is the SRH dominates, the nonradiative recombination-rate should be saturated at high current density. However, this is contradictory with our calculation and the experimental results.
    Electron overflow and hole insufficient injection
    It is a common problem of the electrons overflow beyond the QWs due to band flattened at high injection condition and this is AlGaN electron blocking layer is adopted in III-nitride LEDs11.Hot electrons and the associated ballistic and quasiballistic transport across the active regions of InGaN LEDs have been incorporated into a first order simple model by X. Ni12et. al to explains the experimental observations of electron spillover and the efficiency degradation at high injection levels. On the other hand, due to inefficient p-type doping and the low hole mobility, the hole injection is insufficient. Various other approaches have been proposed to cool down or block the injected hot electrons to reduce IQE droop, among them are electron cooler, staircase electron injector, p- AlInGaN/AlGaN EBL Layer, p-InGaN/AlGaN.
    Polarization field and IQE droop
    As well known, InGaN/GaN LEDs grown along [0001] orientation possess very strong positive polarization charges, which lowers the effective conduction band barrier height for electrons, thus making the EBL relatively ineffective in confining the electrons. Also Roman Vaxenburg13found the polarization field in QWs not only suppresses the radiative recombination but also strongly enhances the rate of Auger recombination. So it is important to structure design to minimize the effect of the polarization field in III-nitride LEDs. Roman Vaxenburg13used a gradual variation of the QW layer composition, which compensates the effect of the electric field acting on holes. Semipolar and nonpolar growths have already yielded devices with superior performance. Zi-Hui Zhang14proposed polarization self-screening effect through growing a p-type EBL with AlN composition partially graded along the [0001] orientation, which induces the bulk polarization charges. These bulk polarization charges are utilized to effectively self-screen the positive polarization induced interface charges located at the interface between the EBL and the last quantum barrier when designed properly.
    Current crowding effect on IQE and EQE droop
    Most of the previous researches are concentrated on the vertical distribution of carriers in the multiple quantum wells. However, the in-plane (lateral) distribution of carriers is also important and crucial due to the current crowding effect (CCE). The lateral carrier distribution obviously relates to IQE. Furthermore, since the current tends to crowd under the metal electrode, whereas large percentage of the generated photons cannot be extracted due to the electrode absorption. This certainly has a negative effect on the light extraction efficiency (LEE), which is lacked in the previous part of this paper. As we know, the EQE is the product of the IQE and the LEE, so the variation of current diffusion shall have a significant influence on the IQE, LEE and thus ultimately the EQE droop level. By incorporating transparent conductive layer15, current blocking layer16can increase the current spreading length and thus improve the efficiency and suppress the efficiency droop.
    Conclusion
    The inner mechanisms accounting for the efficiency droop in III-Nitride based LEDs have been investigated extensively. Here we give a brief discussion of the possible mechanisms: defect &dislocations related SRH non-radiative recombination, reduced spontaneous emission, Auger nonradiative recombination, electron leakage, polarization field, current crowding effect. Dislocations do not strongly impact high-current performance, instead they contribute to increased nonradiativere combination at lower currents and a suppression of peak efficiency; a reduced spontaneous emission reduces internal quantum efficiency (IQE) and deteriorates IQE droop; Defect-assisted and polarization field induced Auger process, electron overflow will strongly influence the droop characteristics at elevated current injection. Current crowding should results to a lower IQE, light extraction efficiency (LEE) and the ultimate external quantum efficiency (EQE).
    1.J. Cho, E. F. Schubert, and J. K. Kim, Laser & Photonics Reviews 7 (3), 408-421 (2013).
    2.G. Venturi, A. Castaldini, and C. Humphreys, Applied Physics Letters 104 (21), - (2014).
    3.Y. Ji, Z.-H. Zhang, and H. V. Demir, Opt. Lett. 38 (2), 202-204 (2013).
    4.A. Kim, W. G?tz, and R. Kern, physica status solidi(a) 188 (1), 15-21 (2001).
    5.F. R?mer and B. Witzigmann, Opt. Express 22 (S6), A1440-A1452 (2014).
    6.H.-Y. Ryu, H.-S.Kim, and J.-I. Shim, Applied Physics Letters 95 (8), 081114 (2009).
    7.S. F. Chichibu, A. Uedono, and T. Sota, Nature materials 5 (10), 810-816 (2006).
    8.M. F. Schubert, S. Chhajed, and M. A. Banas, Applied Physics Letters 91 (23), 231114 (2007).
    9.A. David, and M. J. Grundmann, Appl. Phys. Lett.96, 103504(2010).
    10.Y. C. Shen, G. O. Mueller, and M. R. Krames, Appl. Phys. Lett.91(14),141101 (2007).
    11.J. P ipr ek a nd S. Na k a mu r a, I EE P ro c. Optoelectron.149, 145(2002).
    12.X. Ni, X. Li, and A. Matulionis, Journal of Applied Physics 108 (3), - (2010).
    13.R. Vaxenburg, A. Rodina, and A. L. Efros, Applied Physics Letters 103 (22), - (2013).
    14Z.-H. Zhang, W. Liu, and H. Volkan Demir, Applied Physics Letters 104 (24), - (2014).
    15.L. Wang, Y. Zhang, and G. Wang, Applied Physics Letters 101 (6), 061102 (2012).
    16.T.-M. Chen, K. Uang, and H. Kuan, Photonics Technology Letters, IEEE 20 (9), 703-705 (2008).
    Efficiency droop in III-Nitride based light emitting diodes
    Di Xu,F(xiàn)engJuan Niu
    XiangNeng Hualei Opotoelectronic Co., LTD, Chenzhou, Hunan
    

    
                        
    猜你喜歡
    
                        
    郴州研究進展湖南
    
                        
    Indoor orchids take the spotlight
    郭文龍
    湖南郴州糧油機械有限公司
    為人民對美好生活的向往而努力奮斗——中共郴州歷史的重要啟示
    MiRNA-145在消化系統(tǒng)惡性腫瘤中的研究進展
    離子束拋光研究進展
    與愛同行 
    ——郴州慈善之歌
    三線建設(shè)在湖南
    湖南是我家
    獨腳金的研究進展
    中成藥(2017年9期)2017-12-19 13:34:44
    
                    
    
            
    
        
    
        
        
    
    
    

    










特大巨黑吊av在线直播|
日韩av不卡免费在线播放|
日本色播在线视频|
日韩强制内射视频|
国产成人免费无遮挡视频|
久久 成人 亚洲|
av卡一久久|
国产 精品1|
新久久久久国产一级毛片|
中文资源天堂在线|
欧美精品一区二区大全|
五月玫瑰六月丁香|
美女cb高潮喷水在线观看|
婷婷色av中文字幕|
亚洲人成网站在线观看播放|
永久网站在线|
97超视频在线观看视频|
最近手机中文字幕大全|
高清在线视频一区二区三区|
日本黄色日本黄色录像|
午夜福利在线在线|
久久ye,这里只有精品|
在线免费十八禁|
丝瓜视频免费看黄片|
在线精品无人区一区二区三
|
嫩草影院新地址|
亚洲人与动物交配视频|
亚洲丝袜综合中文字幕|
边亲边吃奶的免费视频|
一级片'在线观看视频|
性色avwww在线观看|
高清毛片免费看|
久久精品国产亚洲av涩爱|
国产乱人视频|
黑人猛操日本美女一级片|
婷婷色综合www|
老熟女久久久|
人人妻人人澡人人爽人人夜夜|
久久国产乱子免费精品|
国产精品女同一区二区软件|
色视频www国产|
国产在线男女|
亚洲精品视频女|
大码成人一级视频|
一本一本综合久久|
精品久久久噜噜|
国产av码专区亚洲av|
日韩不卡一区二区三区视频在线|
久久韩国三级中文字幕|
狠狠精品人妻久久久久久综合|
人人妻人人爽人人添夜夜欢视频
|
国产一区二区在线观看日韩|
亚洲,一卡二卡三卡|
91精品国产九色|
尾随美女入室|
欧美日韩在线观看h|
国产精品一区二区在线不卡|
国产乱来视频区|
av专区在线播放|
人妻夜夜爽99麻豆av|
各种免费的搞黄视频|
18禁裸乳无遮挡免费网站照片|
亚洲图色成人|
色网站视频免费|
成人国产麻豆网|
久久国产亚洲av麻豆专区|
国产一级毛片在线|
精品酒店卫生间|
欧美日韩视频精品一区|
av在线播放精品|
美女视频免费永久观看网站|
成人免费观看视频高清|
成人国产麻豆网|
亚洲成人手机|
精品亚洲成国产av|
寂寞人妻少妇视频99o|
黑人高潮一二区|
亚洲欧美清纯卡通|
大又大粗又爽又黄少妇毛片口|
肉色欧美久久久久久久蜜桃|
各种免费的搞黄视频|
亚洲四区av|
成人美女网站在线观看视频|
日韩av不卡免费在线播放|
国国产精品蜜臀av免费|
国产精品国产三级国产专区5o|
久久毛片免费看一区二区三区|
天天躁夜夜躁狠狠久久av|
国产精品免费大片|
亚洲精品成人av观看孕妇|
国产av一区二区精品久久
|
成人无遮挡网站|
久久久久久久久久久丰满|
看免费成人av毛片|
国产精品av视频在线免费观看|
免费观看无遮挡的男女|
av在线app专区|
人体艺术视频欧美日本|
在线观看三级黄色|
久久久久国产精品人妻一区二区|
国产伦在线观看视频一区|
蜜桃亚洲精品一区二区三区|
videos熟女内射|
欧美区成人在线视频|
美女国产视频在线观看|
最后的刺客免费高清国语|
国产日韩欧美在线精品|
91午夜精品亚洲一区二区三区|
a级毛片免费高清观看在线播放|
最近的中文字幕免费完整|
另类亚洲欧美激情|
日本与韩国留学比较|
色哟哟·www|
少妇裸体淫交视频免费看高清|
狂野欧美激情性xxxx在线观看|
99精国产麻豆久久婷婷|
国产精品国产三级国产av玫瑰|
久久综合国产亚洲精品|
秋霞在线观看毛片|
国产伦精品一区二区三区四那|
五月开心婷婷网|
久久精品人妻少妇|
国产亚洲午夜精品一区二区久久|
一级黄片播放器|
在线观看免费视频网站a站|
久久99热6这里只有精品|
99热全是精品|
蜜桃在线观看..|
国产成人精品久久久久久|
国产精品av视频在线免费观看|
av在线播放精品|
美女视频免费永久观看网站|
国产精品一区二区在线观看99|
视频区图区小说|
好男人视频免费观看在线|
午夜福利视频在线观看免费|
国产福利在线免费观看视频|
欧美大码av|
丰满饥渴人妻一区二区三|
精品少妇黑人巨大在线播放|
精品久久久久久电影网|
一区二区三区乱码不卡18|
亚洲成人免费av在线播放|
欧美日韩亚洲综合一区二区三区_|
久久99精品国语久久久|
天堂8中文在线网|
女性被躁到高潮视频|
精品国产超薄肉色丝袜足j|
免费在线观看完整版高清|
夫妻性生交免费视频一级片|
七月丁香在线播放|
国产黄色视频一区二区在线观看|
中文字幕人妻丝袜一区二区|
亚洲伊人久久精品综合|
亚洲国产精品成人久久小说|
欧美黑人欧美精品刺激|
亚洲国产av新网站|
亚洲国产精品成人久久小说|
精品人妻熟女毛片av久久网站|
日本色播在线视频|
一级毛片我不卡|
国产真人三级小视频在线观看|
黑丝袜美女国产一区|
一本色道久久久久久精品综合|
国产片特级美女逼逼视频|
午夜免费男女啪啪视频观看|
日韩伦理黄色片|
精品久久久精品久久久|
国产不卡av网站在线观看|
免费人妻精品一区二区三区视频|
精品高清国产在线一区|
男人添女人高潮全过程视频|
午夜av观看不卡|
91精品国产国语对白视频|
午夜免费成人在线视频|
电影成人av|
久久ye,这里只有精品|
亚洲中文字幕日韩|
国产一区二区激情短视频
|
亚洲av片天天在线观看|
一区福利在线观看|
中文字幕人妻熟女乱码|
亚洲国产最新在线播放|
80岁老熟妇乱子伦牲交|
日韩制服骚丝袜av|
欧美精品亚洲一区二区|
国产成人精品在线电影|
多毛熟女@视频|
热re99久久精品国产66热6|
www.av在线官网国产|
日韩一卡2卡3卡4卡2021年|
午夜91福利影院|
在线观看人妻少妇|
麻豆av在线久日|
免费在线观看日本一区|
国产精品麻豆人妻色哟哟久久|
最近最新中文字幕大全免费视频
|
a级片在线免费高清观看视频|
欧美亚洲 丝袜 人妻 在线|
啦啦啦在线免费观看视频4|
国产深夜福利视频在线观看|
男女边摸边吃奶|
啦啦啦中文免费视频观看日本|
av线在线观看网站|
亚洲精品日韩在线中文字幕|
亚洲av片天天在线观看|
国产伦理片在线播放av一区|
18禁裸乳无遮挡动漫免费视频|
一级黄片播放器|
波野结衣二区三区在线|
欧美国产精品一级二级三级|
亚洲精品国产av蜜桃|
久久中文字幕一级|
久久久久久久久免费视频了|
乱人伦中国视频|
51午夜福利影视在线观看|
一级毛片电影观看|
男女午夜视频在线观看|
大香蕉久久成人网|
亚洲自偷自拍图片 自拍|
另类亚洲欧美激情|
老司机午夜十八禁免费视频|
日韩一区二区三区影片|
国产av精品麻豆|
黑人猛操日本美女一级片|
性色av一级|
90打野战视频偷拍视频|
午夜久久久在线观看|
丝袜在线中文字幕|
欧美精品一区二区大全|
大片免费播放器 马上看|
久久精品熟女亚洲av麻豆精品|
亚洲美女黄色视频免费看|
国产免费视频播放在线视频|
欧美变态另类bdsm刘玥|
性少妇av在线|
免费看av在线观看网站|
国产精品 国内视频|
高潮久久久久久久久久久不卡|
韩国精品一区二区三区|
亚洲美女黄色视频免费看|
老司机深夜福利视频在线观看
|
欧美精品一区二区免费开放|
中文乱码字字幕精品一区二区三区|
久久亚洲国产成人精品v|
亚洲第一av免费看|
亚洲人成77777在线视频|
国产人伦9x9x在线观看|
国产真人三级小视频在线观看|
日本色播在线视频|
久久人人爽人人片av|
午夜福利免费观看在线|
9色porny在线观看|
精品国产一区二区三区四区第35|
亚洲av成人精品一二三区|
丝袜脚勾引网站|
岛国毛片在线播放|
亚洲精品国产色婷婷电影|
亚洲精品一区蜜桃|
麻豆国产av国片精品|
在线 av 中文字幕|
亚洲av电影在线进入|
av天堂久久9|
97在线人人人人妻|
免费在线观看黄色视频的|
9热在线视频观看99|
国产免费现黄频在线看|
肉色欧美久久久久久久蜜桃|
少妇猛男粗大的猛烈进出视频|
欧美黑人精品巨大|
久久久久久亚洲精品国产蜜桃av|
少妇粗大呻吟视频|
汤姆久久久久久久影院中文字幕|
女性被躁到高潮视频|
五月开心婷婷网|
中文字幕最新亚洲高清|
日韩精品免费视频一区二区三区|
中文字幕人妻熟女乱码|
亚洲精品在线美女|
一级,二级,三级黄色视频|
天天躁日日躁夜夜躁夜夜|
亚洲男人天堂网一区|
亚洲综合色网址|
午夜精品国产一区二区电影|
欧美亚洲 丝袜 人妻 在线|
超碰成人久久|
亚洲av电影在线进入|
两个人看的免费小视频|
午夜福利视频在线观看免费|
极品人妻少妇av视频|
国产精品一二三区在线看|
国产免费福利视频在线观看|
咕卡用的链子|
亚洲中文av在线|
男女国产视频网站|
日韩 欧美 亚洲 中文字幕|
99热国产这里只有精品6|
97精品久久久久久久久久精品|
免费观看人在逋|
国精品久久久久久国模美|
91麻豆精品激情在线观看国产
|
夜夜骑夜夜射夜夜干|
久久精品国产亚洲av涩爱|
国产亚洲欧美精品永久|
午夜福利视频在线观看免费|
免费不卡黄色视频|
18禁观看日本|
日本色播在线视频|
亚洲av综合色区一区|
交换朋友夫妻互换小说|
a级片在线免费高清观看视频|
亚洲欧美成人综合另类久久久|
欧美成人午夜精品|
日韩人妻精品一区2区三区|
99九九在线精品视频|
亚洲久久久国产精品|
www.精华液|
亚洲国产毛片av蜜桃av|
性少妇av在线|
精品人妻1区二区|
午夜av观看不卡|
亚洲精品成人av观看孕妇|
在线看a的网站|
亚洲国产欧美网|
www.999成人在线观看|
高清av免费在线|
亚洲少妇的诱惑av|
日本wwww免费看|
亚洲精品国产区一区二|
国产精品成人在线|
欧美成人午夜精品|
只有这里有精品99|
国产视频一区二区在线看|
男女免费视频国产|
亚洲精品日本国产第一区|
免费高清在线观看日韩|
午夜福利视频精品|
19禁男女啪啪无遮挡网站|
久久久久久久久免费视频了|
高清视频免费观看一区二区|
久久影院123|
av欧美777|
国产精品亚洲av一区麻豆|
黑人巨大精品欧美一区二区蜜桃|
亚洲人成电影免费在线|
另类精品久久|
中文欧美无线码|
国产精品国产三级国产专区5o|
男女免费视频国产|
亚洲一区中文字幕在线|
国产成人精品无人区|
美国免费a级毛片|
女性生殖器流出的白浆|
国产成人精品久久二区二区免费|
国产精品一区二区在线观看99|
亚洲精品av麻豆狂野|
午夜福利,免费看|
av一本久久久久|
国产淫语在线视频|
√禁漫天堂资源中文www|
国产在线观看jvid|
亚洲综合色网址|
国产一区有黄有色的免费视频|
免费在线观看黄色视频的|
少妇粗大呻吟视频|
bbb黄色大片|
三上悠亚av全集在线观看|
欧美精品一区二区免费开放|
老司机靠b影院|
国产精品成人在线|
蜜桃国产av成人99|
一区在线观看完整版|
啦啦啦啦在线视频资源|
久久性视频一级片|
妹子高潮喷水视频|
亚洲色图 男人天堂 中文字幕|
性色av一级|
久久性视频一级片|
飞空精品影院首页|
av福利片在线|
国产在线一区二区三区精|
人人妻人人澡人人看|
午夜视频精品福利|
久久这里只有精品19|
999久久久国产精品视频|
国产精品成人在线|
国产高清视频在线播放一区
|
在线观看免费高清a一片|
日本黄色日本黄色录像|
日日夜夜操网爽|
老汉色av国产亚洲站长工具|
啦啦啦中文免费视频观看日本|
欧美日本中文国产一区发布|
日日摸夜夜添夜夜爱|
欧美人与善性xxx|
亚洲精品久久午夜乱码|
videosex国产|
欧美日韩国产mv在线观看视频|
亚洲av日韩精品久久久久久密
|
欧美黑人欧美精品刺激|
日日摸夜夜添夜夜爱|
国产成人精品在线电影|
欧美 亚洲 国产 日韩一|
国产亚洲精品久久久久5区|
老司机深夜福利视频在线观看
|
日本猛色少妇xxxxx猛交久久|
精品视频人人做人人爽|
国产高清国产精品国产三级|
老汉色av国产亚洲站长工具|
亚洲国产欧美网|
菩萨蛮人人尽说江南好唐韦庄|
久久久久久久国产电影|
国产成人91sexporn|
少妇精品久久久久久久|
一边亲一边摸免费视频|
久久久欧美国产精品|
搡老乐熟女国产|
亚洲成av片中文字幕在线观看|
午夜免费鲁丝|
女人久久www免费人成看片|
国产免费一区二区三区四区乱码|
成年美女黄网站色视频大全免费|
久热爱精品视频在线9|
亚洲五月婷婷丁香|
婷婷色av中文字幕|
少妇人妻 视频|
久久久国产欧美日韩av|
国产亚洲欧美精品永久|
欧美激情 高清一区二区三区|
日本av手机在线免费观看|
黄色视频不卡|
亚洲欧美一区二区三区久久|
国产成人精品无人区|
亚洲精品第二区|
一区二区三区精品91|
欧美日韩亚洲高清精品|
少妇人妻久久综合中文|
国产精品香港三级国产av潘金莲
|
亚洲国产日韩一区二区|
美国免费a级毛片|
男女下面插进去视频免费观看|
国产精品一区二区精品视频观看|
制服诱惑二区|
亚洲图色成人|
多毛熟女@视频|
免费在线观看完整版高清|
国精品久久久久久国模美|
精品国产一区二区三区久久久樱花|
又黄又粗又硬又大视频|
麻豆av在线久日|
999精品在线视频|
精品久久久久久电影网|
日韩精品免费视频一区二区三区|
久久久久久久久免费视频了|
天天添夜夜摸|
不卡av一区二区三区|
欧美精品人与动牲交sv欧美|
国产黄色视频一区二区在线观看|
国产一区二区三区av在线|
在线亚洲精品国产二区图片欧美|
精品人妻1区二区|
视频区图区小说|
蜜桃国产av成人99|
成人黄色视频免费在线看|
好男人电影高清在线观看|
av福利片在线|
丝袜在线中文字幕|
欧美日韩一级在线毛片|
国产亚洲av片在线观看秒播厂|
又粗又硬又长又爽又黄的视频|
亚洲人成网站在线观看播放|
国产成人免费无遮挡视频|
欧美日韩综合久久久久久|
www日本在线高清视频|
欧美 亚洲 国产 日韩一|
日韩av不卡免费在线播放|
啦啦啦啦在线视频资源|
亚洲av男天堂|
午夜福利乱码中文字幕|
欧美日韩视频高清一区二区三区二|
亚洲av电影在线进入|
国产精品久久久久久精品电影小说|
亚洲五月婷婷丁香|
十八禁高潮呻吟视频|
国产亚洲欧美精品永久|
十八禁网站网址无遮挡|
一区二区三区乱码不卡18|
久久久亚洲精品成人影院|
久久久久久免费高清国产稀缺|
视频区图区小说|
美女午夜性视频免费|
欧美国产精品一级二级三级|
av有码第一页|
亚洲精品日本国产第一区|
成人手机av|
国产深夜福利视频在线观看|
√禁漫天堂资源中文www|
成年人免费黄色播放视频|
丰满少妇做爰视频|
a级毛片在线看网站|
欧美亚洲日本最大视频资源|
桃花免费在线播放|
男女无遮挡免费网站观看|
人人澡人人妻人|
亚洲人成77777在线视频|
精品福利观看|
99香蕉大伊视频|
丝袜喷水一区|
伦理电影免费视频|
老司机影院毛片|
一二三四在线观看免费中文在|
日韩伦理黄色片|
亚洲国产看品久久|
久久久久久久精品精品|
亚洲欧美一区二区三区黑人|
婷婷色av中文字幕|
精品久久蜜臀av无|
国产欧美日韩精品亚洲av|
免费在线观看视频国产中文字幕亚洲
|
免费黄频网站在线观看国产|
欧美大码av|
99精国产麻豆久久婷婷|
亚洲熟女毛片儿|
日韩伦理黄色片|
巨乳人妻的诱惑在线观看|
精品第一国产精品|
国产三级黄色录像|
一边摸一边抽搐一进一出视频|
香蕉国产在线看|
亚洲国产精品国产精品|
久久久久精品国产欧美久久久
|
99国产精品一区二区蜜桃av
|
爱豆传媒免费全集在线观看|
亚洲第一青青草原|
丰满少妇做爰视频|
在线观看免费日韩欧美大片|
tube8黄色片|
91老司机精品|
亚洲欧美一区二区三区黑人|
飞空精品影院首页|
国产精品免费大片|
成人亚洲精品一区在线观看|
久久国产精品影院|
国产精品秋霞免费鲁丝片|
亚洲精品久久成人aⅴ小说|
啦啦啦中文免费视频观看日本|
大话2 男鬼变身卡|
久久久久久人人人人人|
日韩中文字幕视频在线看片|
日韩,欧美,国产一区二区三区|
一本大道久久a久久精品|
十八禁人妻一区二区|
999久久久国产精品视频|
多毛熟女@视频|
人人妻人人澡人人爽人人夜夜|
欧美精品亚洲一区二区|
国产国语露脸激情在线看|
国产xxxxx性猛交|
久久久精品94久久精品|
久久女婷五月综合色啪小说|
久久国产精品影院|
后天国语完整版免费观看|
青春草视频在线免费观看|
91精品国产国语对白视频|
亚洲精品自拍成人|
亚洲国产精品国产精品|
国产精品一区二区免费欧美
|
亚洲成国产人片在线观看|
亚洲精品美女久久久久99蜜臀
|
婷婷色综合大香蕉|
久久久精品免费免费高清|
午夜91福利影院|
国产精品成人在线|
美女中出高潮动态图|
久久国产亚洲av麻豆专区|
亚洲精品日韩在线中文字幕|
免费黄频网站在线观看国产|
久久精品久久精品一区二区三区|
亚洲黑人精品在线|
国产高清视频在线播放一区
|
一边摸一边做爽爽视频免费|
国产成人免费观看mmmm|
欧美人与善性xxx|
亚洲国产精品成人久久小说|
亚洲国产av影院在线观看|
热99久久久久精品小说推荐|
精品国产国语对白av|
免费高清在线观看视频在线观看|
午夜福利视频在线观看免费|
国产av国产精品国产|
美女大奶头黄色视频|
婷婷成人精品国产|
多毛熟女@视频|
久久中文字幕一级|
晚上一个人看的免费电影|
免费久久久久久久精品成人欧美视频|
成人免费观看视频高清|
97精品久久久久久久久久精品|
一本—道久久a久久精品蜜桃钙片|
精品人妻熟女毛片av久久网站|
国产精品一区二区精品视频观看|
桃花免费在线播放|
成年人免费黄色播放视频|
亚洲精品第二区|
国产精品人妻久久久影院|
19禁男女啪啪无遮挡网站|
麻豆乱淫一区二区|
成人三级做爰电影|
午夜福利在线免费观看网站|
丰满饥渴人妻一区二区三|
午夜久久久在线观看|
久久中文字幕一级|
纯流量卡能插随身wifi吗|
精品一区在线观看国产|
国产成人精品久久久久久|