• 
<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 
?
    
	
    
		
		
		
	
    

    

    
    
    
    
    
        
    
            
    基于偶氮聯(lián)吡啶配體的銀和鈷配位聚合物的構(gòu)筑與性質(zhì)
    
                
    2016-12-15 07:43:19蹇源彭述明劉寧李明鳳何成
    
                
    關(guān)鍵詞:劉寧聯(lián)吡啶偶氮
    
                    
    蹇源 彭述明 劉寧 李明鳳 何成*,
    基于偶氮聯(lián)吡啶配體的銀和鈷配位聚合物的構(gòu)筑與性質(zhì)
    蹇源1,2彭述明1,2劉寧1李明鳳3何成*,3
    (1中國工程物理研究院核物理與化學(xué)研究所,綿陽621900)
    (2四川大學(xué)輻射物理及技術(shù)教育部重點(diǎn)實(shí)驗(yàn)室,原子核科學(xué)技術(shù)研究所,成都610064)
    (3大連理工大學(xué)精細(xì)化工國家重點(diǎn)實(shí)驗(yàn)室,大連116024)
    通過將2個4,4′-聯(lián)吡啶基團(tuán)用偶氮基團(tuán)連接,我們合成了新的配體順式-和反式-1,2-二((4,4′-聯(lián)吡啶)-3-氮烯)(cis-L和trans-L),并利用trans-L與銀離子和鈷離子構(gòu)筑了配位聚合物{[Ag2(trans-L)(ClO4)2]·4CH3CN}n(1)和{[Co(trans-L)2(H2O)2](ClO4)2}n(2)。其中1為一維梯形鏈,鏈與鏈之間通過π-π以及Ag…Ag相互作用堆積;2為三維無限dendrimer結(jié)構(gòu),其Co中心具有合適的氧化還原電位,在以熒光素為光敏劑的條件下,可作為光催化劑實(shí)現(xiàn)光解水放氫。
    偶氮聯(lián)吡啶;配位聚合物;銀離子;鈷離子;光催化放氫
    0 Introduction
    Metal-organic coordination polymers have received intense interests,especially in the fast developed field on metal-organic frameworks(MOFs) with well defined pore architectures,due to their tunable structural features and high surface areas[1-3]. The research for these materials with functional properties had led to intense studies because they possess advantageous cumulative attributes emerging from both metal and ligand components[4-5].The structural and functional diversity of thesecoordination polymers has brought these materials wide attention in recent years.They had the tenability,versatility and original flexibility,of which place themselves at the frontier between zeolites and enzymes[6-8].
    Compounds containing azo groups are well known for their excellent photoisomerizable properties[9-12]. The MOFs constructed with azo-based ligand also have shown interesting application on such as the photoswitchable CO2adsorption capacity[13-18].Among the azo-based ligands,azo-4,4′-bipyridine,in which two pyridine rings linked by the azo moiety,has been used to construct several MOFs which exhibited a wide variety of architectures and attractive electric/ magnetic properties due to its controllability on the coordination configuration of the metal centers[19-20]. Herein,we extend the construction strategy of azopyridine by linking two 4,4′-bipyridine groups by an azo linker.The syntheses of two silver and cobalt complexes were reported respectively,and the application of Co complex as a catalyst on the light driven hydrogen evolution is shown.
    1 Experimental
    1.1 Reagents and measurements
    All chemicals were of reagent grade quality obtained from commercial sources and used without further purification.The elemental analyses of C,H and N were performed on a Vario ELⅢelemental analyzer.1H NMR spectra were measured on a Varian INOVA 400M spectrometer.Solution fluorescent spectra were measured on JASCO FP-6500.Both excitation and emission slit widths were 2 nm.
    Electrochemical measurements were carried under nitrogen at room temperature,performed on ZAHNER ENNIUM Electro-chemical Workstation with a conventional three-electrode system with a homemade Ag/AgClelectrode as a reference electrode, a platinum silk with 0.5 mm diameter as a counter electrode,and glassy carbon electrode as a working electrode.The solution concentrations in cyclic voltammograms were ca.1.0 mmol·L-1for the cobaltbased compounds and 0.1 mol·L-1for the supporting electrolyte,(n-Bu4N)PF6.The addition of NEt3HCl (0.1 mmol·L-1in DMF)was carried out with syringe.
    Photoinduced hydrogen evolution was performed in a 40 mL flask.The flask was sealed with a septum, pre-degassed by bubbling nitrogen for 15 min under atmospheric pressure at room temperature.In the experiment,the catalyst was solved in little amount of DMF,and the EtOH/H2O solution(1∶1,V/V)containing fluorescein(FL)and triethylamine were added with the total volume of 5.0 mL.The pH value of the solution was adjusted to a suitable pH value by adding HCl or NaOH and was measured by the pH value meter. Then the samples were irradiated by a 500 W Xenon lamp,and the reaction temperature was maintained at 293 K by using a water filter to absorb heat.The generated photoproduct of H2was characterized by GC 7890T instrument analysis using a 5A molecular sieve column(0.6 m×3 mm),thermal conductivity detector, and nitrogen used as carrier gas.The amount of H2generated was determined by the external standard method.Hydrogen in the resulting solution was not measured and the slight effect of the hydrogen gas generated on the pressure of the flask was neglected for calculation ofthe volume ofhydrogen gas.
    Scheme 1 Synthesis of trans-and cis-1,2-di((4,4′-bipyridine)-3-yl)diazene
    1.2 Syntheses and characterizations
    1.2.1 Synthesis of trans-1,2-di((4,4′-bipyridine)-3-yl)diazene acetate(trans-L acetate)
    3-amino-4,4′-bipyridine(0.8 g,5 mmol)[21]was added to 40 mL water at 0℃,then NaOCl(80 mL) was added,and the reaction mixture was stirred for 24 h(Scheme 1).After filtering the reaction mixture, the filtrate was then reduced in volume in vacuo to afford the orange solid.The solid then recrystallization in glacial acetic acid to give the trans-L acetate. Yield:0.65 g(46%).Anal.Calcd.for C28H30N6O8(%):C 58.13,H 5.23,N 14.53;Found(%):C 58.33,H 5.19, N 14.32.1H NMR(400 MHz,CDCl3):δ2.23(s,6H) 7.45(d,2H),7.51(d,1H),7.71(s,1H),7.76(d,2H), 8.81(d,1H).
    1.2.2 Synthesis of cis-1,2-di((4,4′-bipyridine)-3-yl) diazene(cis-L)
    When the aforementioned orange solid recrystallized in CH2Cl2,the pure cis-L was obtained. Yield:0.34 g(40%).Anal.Calcd.for C20H14N6(%):C 70.99,H 4.17,N 24.84;Found(%):C 58.33,H 5.19, N 14.32.1H NMR(400 MHz,CDCl3):δ7.35(d,1H), 7.38(d,2H),7.60(s,1H),8.57(d,2H),8.71(d,1H).
    1.2.3 Synthesis of{[Ag2(trans-L)(ClO4)2]·4CH3CN}n(1)
    Complex 1 was obtained from the mixture of trans-L acetate(43 mg,0.075 mmol)in dichloromethane and AgClO4(31 mg,0.15 mmol)in acetonitrile as orange crystals.Yield:41 mg(60%). Anal.Calcd.for C28H26Ag2Cl2N10O8(%):C 36.67,H 2.86,N 15.27;Found(%):C 36.22,H 2.76,N 14.84. >
    1.2.4 Synthesis of{[Co(trans-L)2(H2O)2](ClO4)2}n(2)
    Complex 2 was obtained from the mixture of trans-L acetate(86 mg,0.15 mmol)in dichloromethane and Co(ClO4)2·6H2O(27 mg,0.075 mmol)in methanol after two days as orange red crystals.Yield:29 mg(40%).Anal.Calcd.for C40H32Cl2Co N12O10(%):C 49.50,H 3.32,N 17.32; Found(%):C 49.92,H 3.52,N 17.80.
    Table 1 Crystal data of the complexes
    1.3 Crystallography
    The intensities of the complexes were collected on a Bruker SMART APEX CCD diffractometer with graphite-monochromated Mo Kα(λ=0.071 073 nm) using the SMART and SAINT programs[22].The structure was solved by direct methods and refined on F2by full-matrix least-squares methods withSHELXTL program[23].In all of the structural refinements,the non-hydrogen atoms were refined anisotropically.Hydrogen atoms were fixed geometrically at calculated distances and allowed to ride on the parent non-hydrogen atoms.For the refinement of 2,one of the perchlorate ions was restrained with idealized distance on the Cl-O bond. Crystaldata ofthe complexes were listed in Table 1.
    2 Results and discussion
    Ligand 1,2-di((4,4′-bipyridin)-3-yl)diazene was synthesized via the condensation of 3-amino-4,4′-bipyridine,and both trans-and cis-forms of the compound were present in the product.The cis-form was separated directly,and the trans-form was recrystallized from ice acetic acid as an acetate compound.The cis-configuration ligand crystallized in a space group of C2/c,with the two bipyridine groups sitting in the same side of N=N bond.While the transform ligand crystallized as an acetate salt in a space group of P21/c,with the two bipyridine groups sitting in the opposite side of N=N bond.The N=N distances of the azo group in both form are same(0.125 6(3) nm).
    Both the trans-and cis-form ligand reacted with metal ion Ag and Co,however,only the trans-form gave the crystalline compound suitable for X-ray crystal analysis,perhaps due to the lower stretching force for the trans-configuration which is more suitable to form stable complex when coordinated with the metal ions.Complex 1 crystallized in C2/c space group.Single crystal analysis showed that there are one Ag ion,one half ligand,one perchlorate counter ion and two acetonitrile solvent molecules present in an asymmetric unit.It could be found that all the four N atom of the pyridine rings coordinated to the Ag ions,and each Ag ion was coordinated with two pyridine N atoms from two different ligands in a linear way with the Ag-N bond distance being 0.224 nm on average.The structure could be described as two infinite chain of alternating Ag(Ⅰ)separated by 1.176 nm linked by the azo group to form an infinite ladder chain.The closest introchain Ag…Ag distance is 0.672 nm.The pairs of ladder chains stack together byπ…πinteractions between the ligands and in which the ligands lie parallel to each other with a distance of 0.346 nm,and the weak interchain Ag…Ag interaction with a Ag…Ag distance of 0.365 nm between the differentladder chains,forming a stair up two-dimensional sheet.
    Fig.1 Structure of cis-form(left)and trans-form(right)of liagnd 1,2-di((4,4′-bipyridin)-3-yl)diazene
    Complex 2 crystallized in Fddd space group. Single crystal analysis showed that the complex exists as a three-dimensional polymer in which each Co(Ⅱ)is coordinated in an octahedral geometry to four ligands and two water molecules occupied on the axialplaces. In this complex,there are only two opposite N atoms on the different pyridine rings(N1 and N1A as shown in Fig.1)of the ligand participate in the coordination to metal centers,thus the ligand act as aμ2-bridge ligand,the four ligand coordinated in one Co centerextend in a stair-up way,and the whole 3D structure compose of several infinite chains.It could not be found a cycle rings in the structure,thus the structure of 2 could be described as a dendrimer.Nevertheless, viewed from a axle,the structure seems to have a one dimension channel(Fig.3).
    Fig.2(a)Coordination environment of Ag center in 1 with 30%probability displacement ellipsoids;Top(b) and side(c)view of complex 1
    Solar energy conversion of water into the environmentally clean fuel hydrogen offers one of the best long-term solutions for meeting future energy demands.Current solar fuel research involves developing these molecular based systems containing a photosensitizer for light absorption,a catalyst for H2generation,an electron source for proton reduction and a means of electron transfer to the catalyst.The coordination atoms around the Co ions in this structure were quite similar with that of the normal used[Co(dmgBF2)2(OH2)2]photocatalyst[24],and 2 is soluble in DMF solution,providing the possibility of using it in the homogeneous light driven hydrogen production system.
    Fig.3(a)Coordination environment of Co center in 2;View of compound 2 from a(a),b(b)and c(c)axle
    Cyclic voltammogram of 2 in a DMF solution exhibited an irreversible Co2+/Co+redox process at -0.67 V(vs Ag/AgCl).Photolysis of a solution of FL (photosensitizer,3.0 mmol·L-1)and 2(20μmol·L-1)in a solvent mixture containing triethylamine(NEt3, electron donor,10%,V/V)in H2O/EtOH(1∶1,V/V)at25℃results the direct H2generation.The volume of H2was quantified at the end of the photolysis by GC analysis of the headspace gases[25].The amount of H2generation in 12 hours photolysis maximizes at pH 10.5(Fig.4a).The increase of pH values really decreased the efficiency,due to the lower proton concentration in solution and the fact that the H2generation became more thermodynamically unfavourable with increasing pH value.Whereas at lower pH value,the potential protonation of NEt3diminishes its ability to function as an electron donor, and the NEt3decomposition becomes less facile[26].The light induced H2evolution depends on the concentration of sacrificial reagent NEt3,the optimal concentration is 10%with a decrease in activity at both lower and higher concentration.The turnover number(TON)calculated was about 340 moles H2per mole of catalyst.Control experiment of this system without either the complex 2,the FL or the NEt3were carried out,the absence of any of them yielded unobservable amount of H2,demonstrating that they are essential for H2generation.Moreover,these artificial photosynthetic systems could not work well in the absence of the light.With the fixed concentration of FL(2 mmol·L-1),the TON reach the platform value when the concentration of 2 varied to 20μmol·L-1,further addition of 2 causes a very little hydrogen evolution enhancement corresponding to the catalyst(Fig.4b).These results suggest FL were decomposed during the photolysis,similar to those related systems containing photosensitizer FL and NEt3as sacrificialelectron donor[26].
    Fig.4(a)Hydrogen production of the systems containing 2(20μmol·L-1),FL(3.0 mmol·L-1)and NEt3(10%,V/V)in EtOH/H2O (1∶1,V/V)with the pH value varied;(b)Hydrogen production of the systems containing FL(3.0 mmol·L-1),NEt3(10%,V/V) in EtOH/H2O(1∶1,V/V)at pH=11.0 in 5 mL solution with different concentrations of the redox catalyst 2
    3 Conclusions
    In a summary,we prepared two metal organic coordination polymer assembled by Ag ion or Co ion with the azo based ligand trans-L.The complex 1 forms a one dimension infinite ladder chain,while the structure of complex 2 is a 3D infinite chain model. The application of the Co complex(2)as a catalyst is showed on the light driven hydrogen evolution.
    [1]Long J R,Yaghi O M.Chem.Soc.Rev.,2009,38:1213-1214
    [2]Xu Y,Luo F,Che Y X,et al.Inorg.Chem.Commun.,2009, 12:639-641
    [3]Hasegawa S,Horike S,Matsuda R,et al.J.Am.Chem.Soc., 2007,129:2607-2614
    [4]Han S S,Mendoza-Cortés J L,GoddardⅢW A.Chem.Soc. Rev.,2009,38:1460-1476
    [5]Rosi N L,Kim J,Eddaoudi M,etal.J.Am.Chem.Soc.,2005, 127:1504-1518
    [6]Yoon,M,Srirambalaji R,Kim K.Chem.Rev.,2012,112: 1196-1231
    [7]Lee J Y,Farha O K,Roberts J,etal.Chem.Soc.Rev.,2009, 38:1450-1459
    [8]Luo F,Che Y X,Zheng J M.Inorg.Chem.Commun.,2008, 11:142-144
    [9]Wegner H A.Angew.Chem.Int.Ed.,2012,51:4787-4788
    [10]Stoll R S,Hecht S.Angew.Chem.Int.Ed.,2010,49:5054-5075
    [11]Yu H,Ikeda T.Adv.Mater.,2011,23:2149-2180
    [12]Beharry A A,Woolley G A.Chem.Soc.Rev.,2011,40:4422-4437
    [13]Lyndon R,Konstas K,Ladewig B P,et al.Angew.Chem. Int.Ed.,2013,52:3695-3698
    [14]Buyukcakir O,Je S H,Park J,et al.Chem.Eur.J.,2015, 21:15320-15327
    [15]Brown J W,Henderson B L,Kiesz M D,et al.Chem.Sci., 2013,4:2858-2864
    [16]Modrow A,Zargarani D,Herges R,et al.Dalton Trans., 2011,40:4217-4222
    [17]Modrow A,Zargarani D,Herges R,et al.Dalton Trans., 2012,41:8690-8696
    [18]Gong L L,Feng X F,Luo F.Inorg.Chem.,2015,54:11587 -11589
    [19]He C,Zhang B G,Duan C Y,et al.Eur.J.Inorg.Chem., 2000:2549-2554
    [20]Halder G J,Kepert C J,Moubaraki B.Science,2002,298: 1762-1765
    [21]Zhang L J,Jian Y,Wang J,et al.Dalton Trans.,2012,41: 10153-10155
    [22]SMART and SAINT,Area Detector Control and Integration Software,Siemens Analytical X-ray Systems,Inc.,Madison, WI,1996.
    [23]Sheldrick GM.SHELXTLVer5.1,Software Reference Manual, Bruker AXS,Inc.,Madison,WI,1997.
    [24]Dong J F,Wang M,Zhang P.J.Phys.Chem.C,2011,115: 15089-15096
    [25]Zhang P,Wang M,Na Y,et al.Dalton Trans.,2010,39: 1204-1206
    [26]McNamara W R,Han Z,Alperin P J,et al.J.Am.Chem. Soc.,2011,133:15368-15371
    Structures of Silver and Cobalt Coordination Polymers Constructed with Azo-Bipyridine Ligand
    JIAN Yuan1,2PENG Shu-Ming1,2LIU Ning1LIMing-Feng3HE Cheng*,3
    (1Institute of Nuclear Physics and Chemistry,China Academy of Engineering Physics,Mianyang,Sichuan 621900,China)
    (2Key Laboratory of Radiation Physics and Technology(Sichuan University),Ministry of Education;Institute of Nuclear Science and Technology,Sichuan University,Chengdu 610064,China)
    (3State Key Laboratory of Fine Chemicals,Dalian University of Technology,Dalian,Liaoning 116024,China)
    By linking two 4,4′-pyridine groups through an azo linker,ligand trans-and cis-1,2-di((4,4′-bipyridine)-3-yl)diazene(trans-and cis-L)were obtained.And the syntheses oftwo silver and cobaltcomplexes{[Ag2(trans-L) (ClO4)2]·4CH3CN}n(1)and{[Co(trans-L)2(H2O)2](ClO4)2}n(2)with the trans-form ligand are reported respectively.The complexes exhibited diverse structure features.And the application of Co complex as a photocatalystwas showed on the lightdriven hydrogen evolution.CCDC:1497801,trans-L acetate;1497799,cis-L;1497798,1;1497800,2.
    azo-bipyridine;coordination polymer;Ag ion;Co ion;light driven hydrogen production
    O614.81+2;O614.122
    A
    1001-4861(2016)09-1676-07
    10.11862/CJIC.2016.211
    2016-04-18。收修改稿日期:2016-08-07。
    國家自然科學(xué)基金(No.21531001)資助項(xiàng)目。
    *通信聯(lián)系人。E-mail:hecheng@dlut.edu.cn
    

    
                        
    猜你喜歡
    
                        
    劉寧聯(lián)吡啶偶氮
    
                        
    偶氮類食品著色劑誘惑紅與蛋溶菌酶的相互作用研究
    跨越13年的暗戀
    37°女人(2019年9期)2019-12-16 06:50:12
    專題III物質(zhì)的化學(xué)變化
    小麥粉中偶氮甲酰胺的太赫茲時域光譜檢測
    基于偶氮苯的超分子凝膠材料的研究進(jìn)展
    純手性的三聯(lián)吡啶氨基酸—汞(II)配合物的合成與表征
    功能化三聯(lián)吡啶衍生物的合成及其對Fe2+識別研究
    咪唑-多聯(lián)吡啶釕配合物的合成、晶體結(jié)構(gòu)和性能研究
    基于環(huán)己烷甲酸根和2,2′-聯(lián)吡啶配體的雙核錳(Ⅱ)配合物的合成與表征
    劉寧詩詞選
    中國詩歌(2013年8期)2013-05-07 03:38:38
    
                    
    
            
    
        
    
        
        
    
    
    

    










免费高清在线观看日韩|
欧美亚洲 丝袜 人妻 在线|
精品国产露脸久久av麻豆|
国产成人精品在线电影|
日本免费在线观看一区|
久久久久国产网址|
热99国产精品久久久久久7|
日韩av不卡免费在线播放|
欧美日韩一区二区视频在线观看视频在线|
国产免费一级a男人的天堂|
满18在线观看网站|
永久网站在线|
亚洲第一区二区三区不卡|
久久久欧美国产精品|
国产 一区精品|
日韩,欧美,国产一区二区三区|
十八禁高潮呻吟视频|
日本av免费视频播放|
日本av免费视频播放|
亚洲国产av新网站|
亚洲av.av天堂|
国产男人的电影天堂91|
国产高清国产精品国产三级|
亚洲av电影在线观看一区二区三区|
久久久国产一区二区|
高清av免费在线|
av又黄又爽大尺度在线免费看|
亚洲国产av影院在线观看|
色吧在线观看|
各种免费的搞黄视频|
精品久久国产蜜桃|
又粗又硬又长又爽又黄的视频|
www.熟女人妻精品国产
|
最后的刺客免费高清国语|
国产1区2区3区精品|
最近最新中文字幕大全免费视频
|
国产男女内射视频|
永久网站在线|
午夜视频国产福利|
巨乳人妻的诱惑在线观看|
伊人久久国产一区二区|
热re99久久精品国产66热6|
伦理电影大哥的女人|
国产精品国产av在线观看|
国产探花极品一区二区|
色94色欧美一区二区|
中文天堂在线官网|
亚洲精品乱码久久久久久按摩|
国产精品国产三级专区第一集|
亚洲在久久综合|
王馨瑶露胸无遮挡在线观看|
美女国产视频在线观看|
日本vs欧美在线观看视频|
日韩中文字幕视频在线看片|
日本猛色少妇xxxxx猛交久久|
国产成人av激情在线播放|
精品国产乱码久久久久久小说|
蜜桃国产av成人99|
国产爽快片一区二区三区|
巨乳人妻的诱惑在线观看|
欧美激情 高清一区二区三区|
久久国产精品大桥未久av|
一级毛片黄色毛片免费观看视频|
亚洲精品aⅴ在线观看|
欧美精品一区二区免费开放|
国产精品秋霞免费鲁丝片|
精品一区二区三区四区五区乱码
|
人妻人人澡人人爽人人|
欧美少妇被猛烈插入视频|
久久影院123|
91在线精品国自产拍蜜月|
国产精品欧美亚洲77777|
亚洲国产日韩一区二区|
成年人免费黄色播放视频|
五月开心婷婷网|
国产精品成人在线|
777米奇影视久久|
久久午夜福利片|
在线观看www视频免费|
精品一区二区三卡|
久久av网站|
满18在线观看网站|
少妇人妻 视频|
av一本久久久久|
色视频在线一区二区三区|
国产精品久久久久久av不卡|
久久久久精品久久久久真实原创|
亚洲精品国产av蜜桃|
亚洲av综合色区一区|
亚洲av在线观看美女高潮|
日本av手机在线免费观看|
91精品伊人久久大香线蕉|
9热在线视频观看99|
一二三四在线观看免费中文在
|
成人18禁高潮啪啪吃奶动态图|
亚洲成人手机|
国产精品一区www在线观看|
国产成人欧美|
一区二区日韩欧美中文字幕
|
永久网站在线|
成人黄色视频免费在线看|
只有这里有精品99|
男女啪啪激烈高潮av片|
亚洲av成人精品一二三区|
国国产精品蜜臀av免费|
久久青草综合色|
国产 精品1|
亚洲欧美清纯卡通|
久久97久久精品|
卡戴珊不雅视频在线播放|
亚洲精品第二区|
尾随美女入室|
免费在线观看黄色视频的|
久久韩国三级中文字幕|
欧美97在线视频|
美女大奶头黄色视频|
伦理电影免费视频|
国产无遮挡羞羞视频在线观看|
不卡视频在线观看欧美|
精品久久蜜臀av无|
久久久精品区二区三区|
国产在线免费精品|
黄片无遮挡物在线观看|
日韩av免费高清视频|
久久国产亚洲av麻豆专区|
日韩制服骚丝袜av|
欧美精品高潮呻吟av久久|
午夜福利,免费看|
国产成人精品无人区|
日本av免费视频播放|
亚洲精品国产色婷婷电影|
啦啦啦中文免费视频观看日本|
国产老妇伦熟女老妇高清|
美女国产高潮福利片在线看|
麻豆精品久久久久久蜜桃|
国产成人欧美|
国产在线一区二区三区精|
日本91视频免费播放|
精品少妇黑人巨大在线播放|
午夜福利网站1000一区二区三区|
国产欧美日韩综合在线一区二区|
啦啦啦在线观看免费高清www|
国产男女超爽视频在线观看|
成年女人在线观看亚洲视频|
久久久国产精品麻豆|
18在线观看网站|
99热网站在线观看|
日韩av免费高清视频|
成人18禁高潮啪啪吃奶动态图|
国产成人免费无遮挡视频|
亚洲欧美清纯卡通|
韩国av在线不卡|
乱人伦中国视频|
成年人免费黄色播放视频|
a级毛片在线看网站|
国产一区亚洲一区在线观看|
亚洲婷婷狠狠爱综合网|
午夜免费男女啪啪视频观看|
日韩制服骚丝袜av|
久久精品夜色国产|
青春草视频在线免费观看|
色网站视频免费|
制服诱惑二区|
日本-黄色视频高清免费观看|
亚洲成人一二三区av|
午夜免费男女啪啪视频观看|
亚洲精品视频女|
日韩三级伦理在线观看|
91在线精品国自产拍蜜月|
国产精品久久久久久久久免|
亚洲精华国产精华液的使用体验|
你懂的网址亚洲精品在线观看|
免费人妻精品一区二区三区视频|
九色成人免费人妻av|
人妻人人澡人人爽人人|
老熟女久久久|
亚洲,欧美,日韩|
国产高清不卡午夜福利|
一级毛片黄色毛片免费观看视频|
日韩av不卡免费在线播放|
国产国语露脸激情在线看|
日韩三级伦理在线观看|
亚洲国产最新在线播放|
亚洲五月色婷婷综合|
成年动漫av网址|
国产av码专区亚洲av|
色哟哟·www|
蜜桃国产av成人99|
亚洲av日韩在线播放|
成人影院久久|
九九爱精品视频在线观看|
纵有疾风起免费观看全集完整版|
久久 成人 亚洲|
丁香六月天网|
丝袜人妻中文字幕|
av不卡在线播放|
免费看不卡的av|
又大又黄又爽视频免费|
免费黄色在线免费观看|
狠狠婷婷综合久久久久久88av|
国产片内射在线|
中文字幕免费在线视频6|
国产免费福利视频在线观看|
毛片一级片免费看久久久久|
a级片在线免费高清观看视频|
亚洲美女视频黄频|
成人二区视频|
亚洲欧美精品自产自拍|
一二三四中文在线观看免费高清|
妹子高潮喷水视频|
成人毛片60女人毛片免费|
视频中文字幕在线观看|
h视频一区二区三区|
国产一区二区在线观看日韩|
三级国产精品片|
老司机影院毛片|
久久久精品94久久精品|
亚洲欧美色中文字幕在线|
香蕉国产在线看|
国语对白做爰xxxⅹ性视频网站|
久久毛片免费看一区二区三区|
少妇人妻 视频|
亚洲欧美日韩另类电影网站|
日本-黄色视频高清免费观看|
欧美日韩视频高清一区二区三区二|
男女午夜视频在线观看
|
日本欧美国产在线视频|
av有码第一页|
欧美另类一区|
久久久国产欧美日韩av|
日韩不卡一区二区三区视频在线|
av女优亚洲男人天堂|
av有码第一页|
搡老乐熟女国产|
国产乱人偷精品视频|
午夜日本视频在线|
欧美国产精品va在线观看不卡|
欧美人与善性xxx|
各种免费的搞黄视频|
精品一区二区三区视频在线|
两个人免费观看高清视频|
久久久久久久久久久久大奶|
天堂中文最新版在线下载|
免费少妇av软件|
亚洲欧美精品自产自拍|
亚洲欧美成人综合另类久久久|
久久精品久久精品一区二区三区|
亚洲图色成人|
亚洲成人av在线免费|
日韩中文字幕视频在线看片|
国产免费一区二区三区四区乱码|
国产亚洲av片在线观看秒播厂|
亚洲国产精品一区二区三区在线|
又大又黄又爽视频免费|
午夜91福利影院|
天天躁夜夜躁狠狠躁躁|
精品人妻熟女毛片av久久网站|
freevideosex欧美|
青青草视频在线视频观看|
午夜精品国产一区二区电影|
久久免费观看电影|
一本久久精品|
av有码第一页|
欧美日韩视频高清一区二区三区二|
男人添女人高潮全过程视频|
成人国产麻豆网|
建设人人有责人人尽责人人享有的|
国产有黄有色有爽视频|
亚洲色图综合在线观看|
另类亚洲欧美激情|
久久久久视频综合|
国产亚洲av片在线观看秒播厂|
哪个播放器可以免费观看大片|
9热在线视频观看99|
精品国产一区二区三区久久久樱花|
国产高清国产精品国产三级|
av视频免费观看在线观看|
男人操女人黄网站|
美国免费a级毛片|
精品亚洲成国产av|
国产精品久久久久久久电影|
黑人高潮一二区|
波多野结衣一区麻豆|
成年美女黄网站色视频大全免费|
国产麻豆69|
久久国内精品自在自线图片|
国产精品麻豆人妻色哟哟久久|
免费观看在线日韩|
亚洲av成人精品一二三区|
国产免费视频播放在线视频|
日韩制服丝袜自拍偷拍|
国产av一区二区精品久久|
国产黄频视频在线观看|
精品第一国产精品|
三上悠亚av全集在线观看|
国产永久视频网站|
国产精品熟女久久久久浪|
女人久久www免费人成看片|
久久ye,这里只有精品|
亚洲国产看品久久|
久久久久视频综合|
丁香六月天网|
freevideosex欧美|
美女内射精品一级片tv|
一个人免费看片子|
男的添女的下面高潮视频|
观看av在线不卡|
久久久久久久久久人人人人人人|
又大又黄又爽视频免费|
一本久久精品|
国产高清三级在线|
日韩av不卡免费在线播放|
91久久精品国产一区二区三区|
国产精品久久久久久精品电影小说|
午夜免费男女啪啪视频观看|
男人操女人黄网站|
一级毛片我不卡|
久久国产精品男人的天堂亚洲
|
亚洲精品国产色婷婷电影|
亚洲精品成人av观看孕妇|
亚洲成人av在线免费|
国精品久久久久久国模美|
伦精品一区二区三区|
亚洲精品国产色婷婷电影|
日韩电影二区|
欧美精品国产亚洲|
在线观看一区二区三区激情|
一本色道久久久久久精品综合|
亚洲伊人色综图|
99热国产这里只有精品6|
久久久精品区二区三区|
大香蕉久久成人网|
建设人人有责人人尽责人人享有的|
久久免费观看电影|
99热6这里只有精品|
国产精品 国内视频|
中文乱码字字幕精品一区二区三区|
中文字幕人妻丝袜制服|
一本久久精品|
国产有黄有色有爽视频|
大香蕉97超碰在线|
天堂中文最新版在线下载|
亚洲综合精品二区|
全区人妻精品视频|
国产精品熟女久久久久浪|
中文字幕另类日韩欧美亚洲嫩草|
一本久久精品|
欧美日韩一区二区视频在线观看视频在线|
99久久精品国产国产毛片|
久久女婷五月综合色啪小说|
久久97久久精品|
不卡视频在线观看欧美|
久久 成人 亚洲|
黄色一级大片看看|
高清不卡的av网站|
女人久久www免费人成看片|
国产av国产精品国产|
欧美激情国产日韩精品一区|
亚洲色图综合在线观看|
看十八女毛片水多多多|
亚洲成人手机|
欧美日韩综合久久久久久|
9191精品国产免费久久|
99精国产麻豆久久婷婷|
欧美 亚洲 国产 日韩一|
插逼视频在线观看|
高清欧美精品videossex|
中文字幕另类日韩欧美亚洲嫩草|
亚洲激情五月婷婷啪啪|
日韩一区二区三区影片|
男人操女人黄网站|
国产爽快片一区二区三区|
国产欧美日韩综合在线一区二区|
亚洲av在线观看美女高潮|
日韩制服骚丝袜av|
国产高清三级在线|
久久久久视频综合|
国产xxxxx性猛交|
免费不卡的大黄色大毛片视频在线观看|
高清在线视频一区二区三区|
黑人高潮一二区|
国产又爽黄色视频|
国产激情久久老熟女|
在线观看免费视频网站a站|
久久久国产一区二区|
精品一品国产午夜福利视频|
成人影院久久|
欧美人与善性xxx|
久久热在线av|
欧美+日韩+精品|
两个人看的免费小视频|
十八禁网站网址无遮挡|
丝袜美足系列|
av.在线天堂|
我要看黄色一级片免费的|
中文字幕另类日韩欧美亚洲嫩草|
精品一区二区三区视频在线|
最新的欧美精品一区二区|
在线观看www视频免费|
日本色播在线视频|
免费黄网站久久成人精品|
亚洲国产av影院在线观看|
99久久人妻综合|
少妇人妻久久综合中文|
夜夜爽夜夜爽视频|
成人影院久久|
国产一区二区三区综合在线观看
|
在线天堂最新版资源|
99久久精品国产国产毛片|
午夜福利网站1000一区二区三区|
秋霞在线观看毛片|
婷婷色综合大香蕉|
亚洲图色成人|
精品午夜福利在线看|
久久这里有精品视频免费|
成人影院久久|
久久久久国产网址|
国语对白做爰xxxⅹ性视频网站|
天堂中文最新版在线下载|
亚洲国产精品成人久久小说|
欧美日韩成人在线一区二区|
国产精品久久久久久久久免|
国产成人91sexporn|
国产精品久久久av美女十八|
成人午夜精彩视频在线观看|
青春草亚洲视频在线观看|
伦精品一区二区三区|
日日摸夜夜添夜夜爱|
国产男女超爽视频在线观看|
精品一区二区三区视频在线|
大香蕉久久成人网|
欧美成人午夜免费资源|
免费不卡的大黄色大毛片视频在线观看|
男人添女人高潮全过程视频|
中国国产av一级|
亚洲国产日韩一区二区|
毛片一级片免费看久久久久|
寂寞人妻少妇视频99o|
51国产日韩欧美|
超色免费av|
欧美亚洲日本最大视频资源|
日本vs欧美在线观看视频|
tube8黄色片|
一级a做视频免费观看|
国产精品人妻久久久久久|
国产精品女同一区二区软件|
五月开心婷婷网|
午夜福利影视在线免费观看|
91午夜精品亚洲一区二区三区|
国产精品久久久久久久久免|
久久久久精品人妻al黑|
九色成人免费人妻av|
久久久国产欧美日韩av|
激情五月婷婷亚洲|
亚洲精品美女久久久久99蜜臀
|
永久免费av网站大全|
a级毛色黄片|
久久精品久久久久久噜噜老黄|
在线观看人妻少妇|
97在线视频观看|
久久亚洲国产成人精品v|
啦啦啦视频在线资源免费观看|
久久国产精品大桥未久av|
av不卡在线播放|
亚洲av国产av综合av卡|
男人舔女人的私密视频|
又粗又硬又长又爽又黄的视频|
日韩在线高清观看一区二区三区|
免费av中文字幕在线|
国产精品麻豆人妻色哟哟久久|
日韩精品有码人妻一区|
在线观看www视频免费|
国产成人精品无人区|
久久国产亚洲av麻豆专区|
亚洲在久久综合|
成人18禁高潮啪啪吃奶动态图|
欧美变态另类bdsm刘玥|
国产亚洲欧美精品永久|
乱人伦中国视频|
69精品国产乱码久久久|
啦啦啦啦在线视频资源|
欧美精品人与动牲交sv欧美|
一区二区三区乱码不卡18|
亚洲成色77777|
美女福利国产在线|
精品酒店卫生间|
亚洲av电影在线观看一区二区三区|
日韩视频在线欧美|
国产精品国产三级国产av玫瑰|
久久婷婷青草|
久久97久久精品|
免费观看在线日韩|
国产69精品久久久久777片|
av福利片在线|
国产精品久久久av美女十八|
两个人看的免费小视频|
99国产综合亚洲精品|
一二三四在线观看免费中文在
|
9热在线视频观看99|
免费观看a级毛片全部|
极品少妇高潮喷水抽搐|
国国产精品蜜臀av免费|
女人久久www免费人成看片|
女性被躁到高潮视频|
亚洲精品乱码久久久久久按摩|
三上悠亚av全集在线观看|
777米奇影视久久|
亚洲久久久国产精品|
9191精品国产免费久久|
国产黄色免费在线视频|
自线自在国产av|
日本猛色少妇xxxxx猛交久久|
不卡视频在线观看欧美|
在现免费观看毛片|
国产精品国产三级专区第一集|
久久精品国产a三级三级三级|
亚洲欧洲日产国产|
国产白丝娇喘喷水9色精品|
丝袜脚勾引网站|
波多野结衣一区麻豆|
国产成人精品一,二区|
久久久久人妻精品一区果冻|
亚洲经典国产精华液单|
久久久久国产精品人妻一区二区|
亚洲国产av新网站|
久久久欧美国产精品|
国产免费视频播放在线视频|
久久久久久久久久久久大奶|
精品99又大又爽又粗少妇毛片|
在线观看三级黄色|
欧美激情国产日韩精品一区|
日本欧美国产在线视频|
av免费观看日本|
国产精品久久久av美女十八|
久久久久久久精品精品|
高清黄色对白视频在线免费看|
欧美亚洲日本最大视频资源|
又粗又硬又长又爽又黄的视频|
久久精品国产亚洲av涩爱|
日本欧美国产在线视频|
欧美人与性动交α欧美精品济南到
|
9色porny在线观看|
亚洲成人av在线免费|
51国产日韩欧美|
日韩制服骚丝袜av|
熟女av电影|
欧美日韩国产mv在线观看视频|
亚洲精品久久久久久婷婷小说|
男女午夜视频在线观看
|
久久久久久久久久人人人人人人|
欧美成人午夜精品|
99热网站在线观看|
一本一本久久a久久精品综合妖精
国产伦在线观看视频一区
|
免费女性裸体啪啪无遮挡网站|
热re99久久精品国产66热6|
免费不卡的大黄色大毛片视频在线观看|
一本一本久久a久久精品综合妖精
国产伦在线观看视频一区
|
国产 精品1|
亚洲欧美成人综合另类久久久|
少妇被粗大的猛进出69影院
|
亚洲成av片中文字幕在线观看
|
黄色视频在线播放观看不卡|
波多野结衣一区麻豆|
国产淫语在线视频|
精品少妇内射三级|
欧美日韩成人在线一区二区|
av在线老鸭窝|
啦啦啦中文免费视频观看日本|
在线看a的网站|
女人被躁到高潮嗷嗷叫费观|
国产国拍精品亚洲av在线观看|
五月开心婷婷网|
免费黄色在线免费观看|
成人国产av品久久久|
国产精品久久久久久精品古装|
777米奇影视久久|
五月开心婷婷网|
99热6这里只有精品|
十分钟在线观看高清视频www|
久久亚洲国产成人精品v|
大香蕉97超碰在线|
26uuu在线亚洲综合色|
精品一品国产午夜福利视频|
精品国产国语对白av|
欧美亚洲 丝袜 人妻 在线|
一级爰片在线观看|
国产免费视频播放在线视频|
亚洲精品久久久久久婷婷小说|
国产精品久久久av美女十八|
日日摸夜夜添夜夜爱|
亚洲精品日韩在线中文字幕|
av在线老鸭窝|
免费观看无遮挡的男女|
最新的欧美精品一区二区|
又黄又爽又刺激的免费视频.|
校园人妻丝袜中文字幕|
国产永久视频网站|
精品人妻一区二区三区麻豆|
精品少妇久久久久久888优播|
边亲边吃奶的免费视频|
日日啪夜夜爽|
看免费av毛片|
亚洲精品日韩在线中文字幕|
欧美精品高潮呻吟av久久|
国产成人免费无遮挡视频|
免费高清在线观看视频在线观看|
巨乳人妻的诱惑在线观看|
av卡一久久|
只有这里有精品99|
日韩电影二区|
性色avwww在线观看|
婷婷色综合大香蕉|
国产不卡av网站在线观看|
又黄又粗又硬又大视频|
免费播放大片免费观看视频在线观看|