用低温化学溶液法在100℃制备了非层状结构的单晶ZnO纳米带.在反应初期先形成层状结构的碱式醋酸锌(Zn(OH)_(2-x)(CH_3COO)_xnH_2O)前驱体,然后在水热条件下使其转化成单晶ZnO纳米带.用透射电子显微镜(TEM),场发射扫描电子显微镜(FESEM)、X射线衍射(XRD)、高分辨透射电子显微镜(HRTEM)和荧光光谱(PL)对ZnO纳米带的形态,结构和光学性质进行了表征.结果表明,在上述反应中醋酸根阴离子和弱有机碱六次甲基四胺(HMT)对前驱体和ZnO纳米带的形成起了关键作用.
Single-crystalline ZnO nanobelts with non-layered structure were synthesized by the solution route at 100 ℃ based on the transformation of the layered precursor (Zn(OH)_(2-x)(CH_3COO)_x nH_2O).The morphology, structure and optical property of the ZnO nanobelts were characterized by transmission electron microscopy (TEM), field emission scanning electron microscopy (FESEM), X-ray powder diffraction (XRD), high-resolution transmission electron microscopy (HRTEM) and photoluminescence (PL),respectively. It is indicated that the acetate anion and the weak organic alkali hexamethylenetetramine (HMT) play the critical role in the formation of the layered precursors at the beginning of the process.
参考文献
| [1] | Z.W.Pan,Z.R.Dai,Z.L.Wang,Nanobelts of semiconducting oxides,Science,291(5510),1947(2001) |
| [2] | X.Y.Kong,Z.L.Wang,Spontaneous polarization-induced nanohelixes,nanosprings,and nanorings of piezoelectric nanobelts,Nano Lett.,3(12),1625(2003) |
| [3] | P.X.Gao,Y.Ding,W.J.Mal,W.L.Hughes,C.S.Lao,Z.L.Wang,Conversion of zinc oxide nanobelts into superlattice-structured nanohelices,Science,309(5741),1700(2005) |
| [4] | C.Ma,D.Moore,J.Li,Z.L.Wang,Nanobelts,nanocombs,and nanowindmills of wurtzite zns,Adv.Mater.,15(3),228(2003) |
| [5] | M.S.Hu,W.M.Wang,T.T.Chen,L.S.Hong,C.W.Chen,C.C.Chen,Y.F.Chen,K.H.Chen,L.C.Chen,Sharp infrared emission from single-crystalline indium nitride nanobelts prepared using guided-stream thermal chemical vapor deposition,Adv.Funct.Mater.,16(4),537(2006) |
| [6] | L.G.Zhang,H.Jin,W.Y.Yang,Z.P.Xie,H.Z.Miao,L.N.An,Optical properties of sing]e-crystalline α-Si_3N_4 nanobelts,Appl.Phys.Lett.,86,061908(2005) |
| [7] | M.S.Mo,J.H.Zeng,X.M.Liu,W.C.Yu,S.Y.Zhang,Y.T.Qian,Controlled hydrothermal synthesis of thinsingle-crystal tellurium nanobelts and nanotubes,Adv.Mater.,14(22),1658(2002) |
| [8] | Y.G.Sun,B.Mayer,Y.N.Xia,Transformation of silver nanospheres into nanobelts and triangular nanoplates through a thermal process,Nano Lett.,3(5),675(2003) |
| [9] | Q.Y.Lu,F.Gao,S.Komarneni,Cellulose-directed growth of selenium nanobelts in solution,Chem.Mater.,18(1),159(2006) |
| [10] | M.B.Sigman,B.A.Korgel,Strongly birefringent Pb_3O_2Cl_2 nanobelts,J.Am.Chem.Soc.,127(28),10089(2005) |
| [11] | J.G.Yu,J.C.Yu,W.K.Ho,L.Wu,X.C.Wang,A simple and general method for the synthesis of multicomponent Na_2V_6O_(16)-3H_2O single-crystal nanobelts,J.Am.Chem.Soc.,126(11),3422(2004) |
| [12] | J.L.Zhang,J.M.Du,B.X.Han,Z.M.Liu,B.Jiang,Z.F.Zhang,Sonochemical formation of single-crystalline gold nanobelts,Angew.Chem.Int.Ed.,45(7),1116(2006) |
| [13] | P.J.Li,Z.M.Liao,X.Z.Zhang,X.J.Zhang,H.C.Zhu,J.Y.Gao,K.Laurent,Y.L.Wang,N.Wang,D.P.Yu,Electrical and photoresponse properties of an intramolecular p-n homojunction in single phosphorus-doped ZnO nanowires,Nano Letters,9(7),2513(2009) |
| [14] | M.Huang,S.Mao,H.Feick,H.Yan,Y.Wu,H.Kind,E.Weber,R.Russo,P.Yang,Room-temperature ultraviolet nanowire nanolasers,Science,292(5523),1897(2001) |
| [15] | F.Hu,Y.F.Gao,S.Singamaneni,V.V.Tsukruk,Z.L.Wang,Converse piezoelectric effect induced transverse deflection of a free-standing ZnO microbelt,Nano Letters,9(7)2661(2009) |
| [16] | Y.Yang,A.Wolcott,G.M.Wang,A.Sobo,R.C.Fitzmorris,F.Qian,J.Z.Zhang,Y.Li,Nitrogen-doped ZnO nanowire arrays for photoelectrochemical water splitting,Nano Letters,9(6),2331(2009) |
| [17] | Y.Zhang,H.J.Zhou,S.W.Liu,Z.R.Tian,M.Xiao,Second harmonic whispering-gallery modes in ZnO nanotetrapod,Nano Letters,9(5),2109(2009) |
| [18] | Z.H.Jing,J.H.Zhan,Fabrication and gas-sensing properties of porous ZnO nanoplates,Adv.Mater.,20(23),4547(2008) |
| [19] | S.S.Kwon,W.K.Hong,G.H.Jo,J.S.Maeng,T.W.Kim,S.H.Song,T.Lee,Piezoelectric effect on the electronic transport characteristics of ZnO nanowire field-effect transistors on bent flexible substrates,Adv.Mater.,20(23),4557(2008) |
| [20] | Z.L.Wang,Towards self-powered nanosystems:from nanogenerators to nanopiezotronics,Adv.Funct.Mater.,18(22),3553(2008) |
| [21] | T.Voss,G.T.Svacha,E.Mazur,S.Muller,C.Ronning,D.Konjhodzic,F.Marlow,High-order waveguide modes in ZnO nanowires,Nano Letters,7(12),3675 (2007) |
| [22] | D.D.Lin,H.Wu,W.Pan,Photcewitches and memories assembled by Eelectrospinning aluminum-doped Zinc Oxide single nanowires,Adv.Mater.,19(22),3968 (2007) |
| [23] | X.Y.Kong,Y.Ding,R.S.Yang,Z.L.Wang,Single-crystal nanorings formed by epitaxial self-coiling of polar nanobelts,Science,303(5662),1348(2004) |
| [24] | J.Y.Lao,J.Y.Huang,D.Z.Wang,Z.F.Ren,ZnO nanobridges and nanonails,Nano Lett.,3(2),235(2003) |
| [25] | J.Y.Lao,J.Y.Huang,D.Z.Wang,Z.F.Ren,Hierarchical ZnO nanostructures,Nano Lett.,2(11),1287(2002) |
| [26] | H.Zhang,D.Yang,Y.Ji,X.Ma,J.Xu,D.Que,Low temperature synthesis of flowerlike ZnO nanostructures by cetyltrimethylammonium bromide-assisted hydrothermal process,J.Phys.Chem.B,108(13),3955(2004) |
| [27] | C.H.Liu,J.A.Zapien,Y.Yao,X.M.Meng,C.S.Lee,S.S.Fan,Y.Lifshitz,S.T.Lee,High-Density,Ordered ultraviolet light-emitting ZnO nanowire arrays,Adv.Mater.,15(10),838(2003) |
| [28] | H.Zhang,D.Yang,D.Li,X.Ma,S.Li,D.Que,Controllable growth of ZnO microcrystals by a capping-molecule-assisted hydrothermal process,Cryst.Growth Des.,5(2),547(2005) |
| [29] | L.P.Xu,Y.L.Hu,C.Pelligra,C.H.Chen,L.Jin,H.Huang,S.Sithambaram,M.Aindow,R.Joesten,S.L.Suib,ZnO with different morphologies synthesized by solvothermal methods for enhanced photocatalytic activity,Chem.Mater.,21(13),2875(2009) |
| [30] | J.Y.Yoo,Y.J.Hong,H.S.Jung,Y.J.Kim,C.H.Lee,J.H.Cho,Y.J.Doh,L.S.Dang,K.H.Park,G.C.Yi,Fabrication and optical characteristics of position-controlled ZnO nanotubes and ZnO/Zn_8Mg_(0.2)O coaxial nanotube quantum structure arrays,Adv.Funct.Mater.,19(10),1601(2009) |
| [31] | B.Liu,H.C.Zeng,Hollow ZnO microspheres with complex nanobnilding units,Chem.Mater.,19(24),5824(2007) |
| [32] | X.Y.Zhang,J.Y.Dal,H.C.Ong,N.Wang,H.L.W.Chan,C.L.Choy,Hydrothermal synthesis of oriented ZnO nanobelts and their temperature dependent photolumines cence,Chem.Phys.Lett.,393(1-3),17(2004) |
| [33] | C.H.Lu,L.M.Qi,J.H.Yang,L.Tang,D.Y.Zhang,J.M.Ma,Hydrothezmal growth of large-scale micropatterned arrays of ultralong ZnO nanowires and nanobelts on zinc substrate,Chem.Commun.,33,3551(2006) |
| [34] | H.D.Yu,Z.P.Zhang,M.Y.Han,X.T.Hao,F.R.Zhu,A general low-temperature route for large-scale fabrication of highly oriented ZnO nanorod/nanotube arrays,J.Am.Chem.Soc.,127(8),2378(2005) |
| [35] | Y.Sun,G.M.Fuge,N.A.Fox,D.J.Riley,M.N.R.Ashfold,Synthesis of aligned arrays of ultrathin ZnO nanotubes on a Si wafer coated with a thin ZnO film,Adv.Mater.,17(20),2477(2005) |
| [36] | H.Zhang,D.Yang,X.Ma,N.Du,J.Wu,D.Que,Straight and thin ZnO nanorods:hectogram-scale synthesis at low temperature and cathodoluminescence,J.Phys.Cem.B,110(2),827(2006) |
| [37] | J.Joo,S.G.Kwon,J.H.Yu,T.Hyeon,Synthesis of ZnO nanocrystals with cone,hexagonal cone,and rod shapes via non-hydrolytic ester elimination sol-gel reactions,Adv.Mater.,17(15),1873(2005) |
| [38] | F.Li,Y.Ding,P.X.Gao,X.Q.Xin,Z.L.Wang,Single-crystal hexagonal disks and rings of zno:low-temperature,large scale synthesis and growth mechanism,Angew.Chem.Int.Ed.,43(39),5238(2004) |
| [39] | M.S.Mo,J.C.Yu,L.Z.Zhang,S.K.Li,Self-assembly of Zno nanorods and nanosheets into hollow microhemispheres and microspheres,Adv.Mater.,17(6),756(2005) |
| [40] | L.Poul,N.Jouini,F.Fievet,Layered hydroxide metal acetates (metal=zinc,cobalt,and nickel):elaboration via hydrolysis in polyol medium and comparative study,Chem.Mater.,12(10),3123(2000) |
| [41] | C.L.Jiang,W.Q.Zhang,G.F.Zou,W.C.Yu,Y.T.Qian,Precursor-induced hydrothermal synthesis of flowerlike cupped-end microrod bundles of ZnO,J.Phys.Chem.B,109(4),1361(2005) |
| [42] | H.Zhang,D.Yang,X.Ma,Y.Ji,J.Xu,D.Que,Synthesis of flower-like ZnO nanostructures by an organic-free hydrothermal process,Nanotechnology,15(5),622(2004) |
| [43] | J.Zhang,L.D.Sun,J.L.Yin,H.L.Su,C.S.Liao,C.H.Yan,Control of ZnO morphology via a simple solution route,Chem.Mater.,14(10),4172(2002) |
| [44] | K.Vanheusden,W.L.Warren,C.H.Seager,D.R.Tallant,J.A.Voigt,B.E.Gnade,Mechanisms behind green photoluminescence in ZnO phosphor powders,J.Appl.Phys.,79(10),7983(1996) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%