瑙莫汗, 付晓娟, 雷艳秋, 等.介孔Ni-β-Mo2C/SBA-16催化剂在CH4/CO2重整制合成气反应中的催化性能[J].催化学报, 2013, 34(2):379-384.NAO M H, FU X J, LEI Y Q, et al.Catalytic performance of mesoporous material supported bimetallic carbide Ni-β-Mo2C/SBA-16 catalyst for CH4/CO2 reforming to syngas[J].Chinese Journal of Catalyst, 2013, 34(2):379-384.
[2]
徐东阳, 李涤尘, 吴海华, 等.钇铝石榴石对氧化铝基陶瓷型芯高温性能的影响[J].航空材料学报, 2011, 31(2):67-71.XU D Y, LI D C, WU H H, et al. Effect of yttrium aluminum garnet on high-temperature properties of alumina-based ceramic cores[J]. Journal of Aeronautical Materials, 2011, 31(2):67-71.
[3]
刘培生, 夏凤金, 崔光.一种具有微纳孔隙结构的二氧化钛多孔膜层光催化系统[J].材料工程, 2012, (3):93-96.LIU P S, XIA F J, CUI G. Study on a porous titanium dioxide film photocatalytic system with micro-nano porous structure[J].Journal of Materials Engineering, 2012, (3):93-96.
[4]
邹晓蓉, 张长瑞, 王思青, 等.空心石英纤维增强氮化物基低介电复合材料的制备及其性能[J].航空材料学报, 2010, 30(3):38-42.ZOU X R, ZHANG C R, WANG S Q, et al.Fabrication and properties of hollow silica fiber reinforced nitride composites of low dielectric[J].Journal of Aeronautical Materials, 2010, 30(3):38-42.
[5]
HOU Z L, CAO M S, YUAN J, et al. High-temperature conductance loss dominated defect level in h-BN: Experiments and first principles calculations[J].Journal of Applied Physics, 2009, 105(7):076103-076106.
[6]
WU J C S, LIN Z A, PAN J W, et al.A novel boron nitride supported Pt catalyst for VOC incineration[J].Applied Catalysis A, 2001, 219(1-2):117-124.
[7]
WU J C S, LIN S J.Novel BN supported bi-metal catalyst for oxydehydrogenation of propane[J].Chemical Engineering Journal, 2008, 140(1-3):391-397.
[8]
WU J C S, CHOU H C.Bimetallic Rh-Ni/BN catalyst for methane reforming with CO2[J].Chemical Engineering Journal, 2009, 148(2-3):539-545.
[9]
WOOD G L, PAINE R, PAINE T.Aerosol synthesis of hollow spherical morphology boron nitride particles[J].Chem Mater, 2006, 18(20):4716-4718.
[10]
ZHENG M T, LIU Y L, GU Y L, et al.Synthesis and characterization of boron nitride sponges as a novel support for metal nanoparticles[J].Sci China Ser B-Chem, 2008, 51(3):205-210.
[11]
MENG X L, LUN N, QI Y Q, et al.Low-temperature synthesis of meshy boron nitride with a large surface area[J].Eur J Inorg Chem, 2010, 12(20):3174-3178.
[12]
VINU A, TERRONES M, GOLBERG D, et al.Synthesis of mesoporous BN and BCN exhibiting large surface areas via templating methods[J].Chem Mater, 2005, 17(24):5887-5890.
[13]
SCHLIENGER S, ALAUZUN J, MICHAUX F, et al.Micro-mesoporous boron nitride-based materials templated from zeolites[J].Chem Mater, 2012, 24 (1):88-96.
[14]
YUAN S D, ZHU L H, FAN M X, et al. Fluffy-like spherical structure of boron nitride synthesized by epitaxial growth[J]. Mater Chem Phys, 2008, 112(3):912-915.
[15]
POSTOLE G, CALDARARU M, BONNETOT B, et al.Characterization of high surface area hexagonal boron nitride by in situ electrical conductivity[J].Diamond & Related Materials, 2009, 18(5-8):1052-1056.
[16]
YUAN S D, DING X X, HUANG Z X, et al. Synthesis of BN nanobamboos and nanotube from barium metaborate[J]. Journal of Crystal Growth, 2003, 256(1-2):67-72.
