[1] Mao Shu. Study on infrared selective characteristic of the optical filter in TPV system[D]. Nanjing:Nanjing University of Science and Technology,2007

[2] Chen Xue,Xuan Yimin. Principle and progress on thermophotovoltaic technology[J]. Semiconductor Optoelectronics,2006,27(4):353-358

[3] Fang Silin,Yu Shuwen,Liu Weifeng et al.. Recent development of TPV based on III-V group semiconductor materials[J]. Semiconductor Technology,2008,33(8):649-653

[4] Qiao Zaixiang,Chen Wenjun,Du Shaomei. Recent development of thermophotovoltaic technologies[J]. Chinese J. Power Sources,2005,29(1):57-61

[5] D. M. de Poy,P. M. Fourspring,P. F. Baldasaro et al.. Thermophotovoltaic spectral control[C]. 2nd International Energy Conversion Engineering Conference,Providence,Rhode Island,2004. 16-19

[6] Tian Xiaofei,Yang Haiyang,Zhou Hui. Discussion on optical-to-electricity conversion efficiency of PV power generation[J]. Science and Technology Innovation Herald,2008,(22):115

[7] Wu Yonghong,Xia Dehong. The selective heat radiative mechanism of materials[J]. Metallurgy Energy Sourse,2003,22(6):15-18

[8] John D. Joannopoulos,Robert D. Meade,Joshua N. Winn．Photonic Crystals-Molding the Flow of Light[M]. Princeton:Princeton University Press,1995

[9] Chen Kai,Sheng Qiuqin,Han Jun et al.. Study on photonic cystaland its application[J]. Optoelectronic Technology,2003,23(1):16-23

[10] Liu Guangping,Xuan Yimin,Han Yuge et al.. Thermal radiation spectral control by one-dimensional metallodielectric photonic crystal[J]. J. Engineering Thermophysics,2007,28(3):475-477

[11] Hitoshi Sai,Hiroo Yugami,Yasuhiro Akiyama et al.. Surface microstructured selective emitters for TPV systems[C]. Photovoltaic Specialists Conference,2000. Conference Record of the Twenty-Eighth IEEE,2000. 1016-1019

[12] Hitoshi Sai,Hiroo Yugami,Yasuhiro Akiyama et al.. Spectrally selective radiators and absorbers with periodic microstructured surface for high temperature applications[J]. Nanoscale and Microscale Thermophysical Engineering,2003,7(2):101-115

[13] M. U. Pralle,N. Moelder,M. P. McNeal et al.. Photonic crystal enhanced narrow-band infrared emitters[J]. Appl. Phys. Lett.,2002,81(25):4685

[14] M. Laroche,R. Carminati,J.-J. Greffet. Coherent thermal antenna using a photonic crystal slab[J]. Phys. Rev. Lett.,2006,96(12):123903

[15] J. G. Fleming,S. Y. Lin,I. El-kady et al.. All-metallic 3D photonic crystals with a large infrared band gap[J]. Nature,2002,417(6884):52-55

[16] S. Y. Lin,J. Moreno,J. G. Fleming. A 3D photonic-crystal emitter for thermal photovoltaic generation[J]. Appl. Phys. Lett.,2003,83(2):380

[17] Timothy A. Walsh,Shawn-Yu Lin. Power density and efficiency of thermophotovoltaic energy conversion using a photonic-crystal emitter and a 2-D metal-grid filter[J]. IEEE Transactions on Electron Devices,2008,55(5): 1101-1108

[18] David L. C. Chan,Marin Soljai,J. D. Joannopoulos. Direct calculation of thermal emission for three-dimensionally periodic photonic crystal slabs[J]. Phys. Rev. E,2006,74(3):036615

[19] Vassilios Yannopapas. Thermal emission from three-dimensional arrays of gold nanoparticles[J]. Phys. Rev. B,2006,73(11):113108

[20] Jeffrey Chi,Wai Lee,C. T. Chan. Circularly polarized thermal radiation from layer-by-layer photonic crystal structures[J]. Appl. Phys. Lett.,2007,90(5):051912

[21] I. EI-Kady,G. B. Farfan,R. Rammohan et al.. Photonic crystal high-efficiency multispectral thermal emitters[J]. Appl. Phys. Lett.,2008,93(15):153501

[22] Hao Xin,Wu Ziran,Abram Young et al.. THz thermal radiation enhancement using an electromagnetic crystal[J]. IEEE Trans. Antennas & Propag.,2008,56(9):2970-2980