[1] Csete de Gyrgyfalva G D C, Nolte C, Reaney I M, et al. Correlation between microstructure and conductance in NTC thermistors produced from oxide powders[J]. J.Eur. Ceram. Soc., 1999,19:857-860.

[2] Schmidt R, Stiegelschmidt A, Roosen A, et al. Screen printing of co-precipitated NiMn2O4+δ for production of NTCR thermistors[J]. J. Eur. Ceram. Soc., 2003,23:1549-1558.

[3] Shan P C, Celik-Butler Z, Buter D P, et al. Investigation of semiconducting YBaCuO thin films : a new room temperature bolometer[J]. J. Appl. Phys., 1996, 80(12): 7118-7123.

[4] Lavenuta G．Negative temperature coefficient thermistors [J]．Sensors, 1997, 14: 46-55．

[5] Suzuki M．Ac hopping conduction in Mn-Co-Ni-Cu complex oxide semiconductors with spinel structure[J]．J. Phys．Chem．Solids, 1980, 41(11): 1253- 1260．

[6] Austin l G, Mott N F．Polarons in crystalline and non-crystalline materials [J]．Adv．Phys, 1969, 18(71): 4l-102.

[7] Abe Y, Meguro Y, Yokoyama T, et al. Electrical properties of sintered bodies composed of a monophase cubic spinel structure Mn(1.5-0.5x)Co(1+0.5x)Ni0.5O4(0≤X≤1) [J]. J. Ceram. Process. Res. , 2003 , 4(3): 140-144.

[8] Csete de Gyr gyfalva G D C, Reaney I M．Decomposition of NiMn2O4 spinel: an NTC thermistor material[J]．J.Eur．Ceram. Soc, 2001, 21(10-11): 2145-214 8．

[9] GAO Jun-Feng. Preparation and electrical properties of the negative temperature coefficient thermistor[D]. Master's degree thesis of China University of Science and Technology. 2006(高俊峰. 负温度系数热敏电阻的制备和电性能研究. 中国科学技术大学硕士学位论文)2006.

[10] ZHANG Heng, HAO Tian-Liang, SHI Cheng-Ru, et al．Low-temperature growth of ultra-thin nano-crystalline diamond films by HFCVD in a CH4/H2 mixture[J]．J. lnfrared Millim. Waves(张衡, 郝天亮, 石成儒, 等．热丝化学气相沉积法在CH4/H2混合气体中低温生长超薄纳米金刚石膜．红外与毫米波学报), 2006, 25(2): 81-85．

[11] Hou Y, Huang Z M, Gao Y Q, et al. Characterization of Mn1.56Co0.96Ni0.48O4 films for infrared detection.[J]. Appl. Phys. Lett. , 2008, 92(20): 202115-202115-3.

[12] Zhang L B, Hou Y, Huang Z M, et al. Optical properties of Ni(1-x)Mn(2+x)O4 films studied by spectroscopic ellipsometry[J]. Proc. SPIE., 2010, 7995: 79950J.

[13] Cho C R, Lee W J, Yu B G, et al．Dielectric and ferroelectric response as a function of annealing temperature and film thickness of sol-gel deposited Pb(Zr0.52 Ti0 48)O3 thin film[J]．J. Appl．Phys, 1999, 86(5): 2700-2711.

[14] Moyer J G, Kukuruznyak D A, Nguyen N. Thermopower and electrical conductivity of Mn1.68-XCu0.6+X+Y+ZCo0.24-YNi0.48-Z thin film oxides obtained through metal organic decomposition processing.[J]. J. Appl. Phys, 2006, 100(8):083504.

[15] YANG Wen, YANG Bang-Chao. Correlation between cation distribution and electrical propertyin spinel ceramic thermistor[J]. Journal of Functional Materials. (杨文, 杨邦朝.阳离子分布对尖晶石型热敏陶瓷电性能的影响. 功能材料), 2000, 31(5):513-515.

[16] HUANG Zhi-Ming, JIN Shi-Rong, CHEN Shi-Wei, et al．Development of infrared spectroscopic ellipsometer by synchronous rotation of the polarizer and analyzer [J]．J.Infrared Millim．Waves(黄志明, 金世荣, 陈诗伟, 等．同时旋转起偏器和检偏器的红外光谱仪研制．红外与毫米波学报), 1998, 17(5): 321-326．

[17] Lichtenstein T. Handbook of thin film materials[M], University of Rochester, 1979.

[18] WU Jing. The electrical,magnetic and optical properties of Mn-Co-Ni transition metal oxides[D].Chinese Academy of Sciences Doctoral Dissertation of Graduate School. 2010(吴敬. Mn-Co-Ni-O过渡金属氧化物的电学、磁学及光学性质研究. 中国科学院研究生院博士学位论文)2010.

[19] Athey P R, Urban F K, Tabet M F et al. Optical properties of cobalt oxide films deposited by spray pyrolysis[J]. J. Vac. Sci. Technol. 1996, A14(3): 685-692 .

[20] Kukuruznyak D A, Bulkley S A, Omland K A, et al. Preparation and properties of thermistor thin-films by metal organic decomposition.[J]. Thin Solid Films, 2001, 385(1-2) :89-95.