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以三聚氰胺和硼酸为原料通过水浴加热合成晶须前驱体,然后经高温烧结成功制备出BN晶须.扫描电镜显示制备的BN晶须为针状结构,其直径和长径比分别为2~3 μm和40~100.通过X射线衍射分析,制备的BN晶须为六方晶相,晶格参数为a=0.2524 nm和c=0.6592 nm.红外光谱图谱表明在1383 cm-1和 812 cm-1处存在两个明显的B-N特征吸收带.晶须的烧成制度以及除碳温度对晶须形貌和性能的影响研究结果表明,当烧成温度为1700 ℃、除碳温度为600 ℃时可制备出形貌良好和结晶度高的氮化硼晶须.

Boron nitride (BN) whiskers were prepared successfully by calcining the whisker precursors, which were synthesized via the reaction of melamine (C3N6H6) with boric acid (H3BO3) in a water-bath. SEM shows the as-prepared BN whiskers is needle structure with diameter 2-3 μm and aspect ratio 40-100. Hexagonal phase with lattice parameters a=0.2524 nm and c=0.6592 nm is shown with XRD. FT-IR has strong B-N absorption bands at 1383 cm-1 and 812 cm-1. The influence of calcining temperature and decarbonization temperature on the morphology and property of the BN whiskers were investigated. The optimal calcining and decarbonization temperature to prepare BN whiskers with better morphology and crystallinity were 1700 ℃ and 600 ℃, respectively.

参考文献

[1] Duclaus L;Nystue B;Issi J P et al.Structure and Low-temperature Thermal Conductivity of Pyrolytic Boron Nitride[J].Physical Review B,1992,46(06):3362-3367.
[2] Paine R T;Narula C K .Synthetic Routes to Boron Nitride[J].Chemical Reviews,1990,90:73-91.
[3] Laurence V;GeHrard D;Etourneau J .Cubic Boron Nitride:Synthesis,Physic Chemical Properties and Applications[J].Materials Science and Engineering B,1991,10:149-164.
[4] A. Aydogdu;N. Sevinc .Carbothermic formation of boron nitride[J].Journal of the European Ceramic Society,2003(16):3153-3161.
[5] Hirano S I;Yogo T;Asada S et al.Synthesis of Amorphous Boron Nitride by Pressure Pyrolysis of Borazine[J].Journal of the American Ceramic Society,1989,72(01):66-70.
[6] Chengchun Tang;Yoshio Bando;Dmitri Golberg .Large-scale synthesis and structure of boron nitride sub-micron spherical particles[J].Chemical communications,2002(23):2826-2827.
[7] Deepak FL.;Vinod CP.;Mukhopadhyay K.;Govindaraj A.;Rao CNR. .Boron nitride nanotubes and nanowires[J].Chemical Physics Letters,2002(5-6):345-352.
[8] Xu F.;Xie Y.;Zhang X.;Zhang SY.;Liu XM.;Tian XB. .Synergic nitrogen source route to inorganic fullerene-like boron nitride with vessel, hollow sphere, onion, and peanut nanostructures[J].Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics,2004(2):822-829.
[9] Cumings J.;Zettl A. .Mass-production of boron nitride double-wall nanotubes and nanococoons[J].Chemical Physics Letters,2000(3-4):211-216.
[10] Renzhi Ma;Yoshio Bando;Tadao Sato .Controlled Synthesis of BN Nanotubes, Nanobamboos, and Nanocables[J].Advanced Materials,2002(5):366-368.
[11] Terrones M.;Mantecadiego C.;Hsu WK.;Osman OI.;Hare JP. Reid DG.;Terrones H.;Cheetham AK.;Prassides K.;Kroto HW.;Walton DRM.;Benito AM. .PYROLYTICALLY GROWN BXCYNZ NANOMATERIALS - NANOFIBRES AND NANOTUBES[J].Chemical Physics Letters,1996(5-6):576-582.
[12] Cholet V;Vandenbulcke L;Rouan J P et al.Characterization of Boron Nitride Films Deposited from BCl3-NH3-H2 Mixtures in Chemical Vapour Infiltration Conditions[J].Journal of Materials Science,1994,29(06):1417-1435.
[13] Sadananda S;Stefan K;Lubica I et al.Formation of Boron Nitride Thin Films on β-Si3N4 Whiskers and α-SiC Platelets by Dip-coating[J].Journal of the European Ceramic Society,1998,18(08):1037-1043.
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