参考文献/References:
[1]OU J P,ZHANG J,ZHAN R H.International Journal of Aerospace Engineering[J],2020,2020:1-19.
[2]RAO G A,MAHULIKAR S P.The Aeronautical Journal[J],2002,106(1066):629-642.
[3]何小锋.现代导报[J],2015,6(3):306-309.HE X F.Modern Navigation[J],2015,6(3):306-309.
[4]YUAN J J,MENG G P,GU M,et al.Nuclear Science and Techniques[J],2022,33(6):1-9.
[5]KONG L B,LI Z W,LIU L,et al.International Materials Reviews[J],2013,58(4):203-259.
[6]韩敏阳,韦国科,周明,等.复合材料学报[J],2022,39(4):1363-1377.HAN M Y,WEI G K,ZHOU M,et al.Acta Materiae Compositae Sinica[J],2022,39(4):1363-1377.
[7]来侃,陈美玉,孙润军,等.西安工程大学学报[J],2015,29(6):655-665.LAI K,CHEN M Y,SUN R J,et al.Journal of Xi‘an Polytechnic University[J],2015,29(6):655-665.
[8]JAYALAKSHMI C G,INAMDAR A,ANAND A,et al.Journal of Applied Polymer Science[J],2018,136(14):47241.
[9]李洪瑞,刘长华,朱守中.中国西部科技[J],2008,7(25):6-16.
LI H R,LIU C H,ZHU S Z.Science and Technology in Weatern China[J],2008,7(25):6-16.
[10]LI M,CAO X J,ZHENG S R,et al.Journal of Materials Science: Materials in Electronics[J],2017,28:16802-16812.
[11]周聪俐.MXene复合物的合成及其在微波吸收中的应用[D].青岛:青岛大学,2020.ZHOU C L.Synthesis of MXene Complex and Its Application in Microwave Absorption[D].Qingdao:Qingdao University,2020.
[12]SUN X X,LI Y B,HUANG Y X,et al.Advanced Functional Materials[J],2021,32(5):2107508.
[13]LI Y Q,ZHANG Q,XIE X,et al.Journal of Materials Science:Materials in Electronics[J],2020,31:13273-13283.
[14]CHADHA N,SAINI P.Materials Research Bulletin[J],2021,143:111458.
[15]WANG L,SHI X T,ZHANG J L,et al.Journal of Materials Science & Technology[J],2020,52:119-126.
[16\]倪梦然,张超智,高蕾.南京大学学报(自然科学)[J],2022,58(3):540-559.NI M R,ZHANG C Z,GAO L.Journal of Nanjing University (Natural Science)[J],2022,58(3):540-559.
[17]TAN L,ZHU M H,LI X Y,et al.Journal of Saudi Chemical Society[J],2020,24(1):9-19.
[18]LI T,ZHI D D,GUO Z H,et al.Journal of Materials Engineering[J],2021,49(11):14-29.
[19]BHATTACHARYYA R,KUMAR S V,BHATTACHARYYA S,et al.Applied Surface Science[J],2021,537:147840.
[20]SHEN B,LI Y,YI D,et al.Carbon[J],2016,102:154-160.
[21]金伦,郝雅鸣,陈国华.安全与电磁兼容[J],2017,1:53-58.JIN L,HAO Y M,CHEN G H.Safety and Electromagnetic Compatibility[J],2017,1:53-58.
[22]金宇龙,董胜奎.材料导报[J],2015,29(26):19-22.JIN Y L,DONG S K.Materials Reports[J],2015,29(26):19-22.
[23]王生浩,文峰,李志.材料导报[J],2006,20(S2):99-102.WANG S H,WEN F,LI Z.Materials Reports[J],2006,20(S2):99-102.
[24]邱军,王玉磊.玻璃钢/复合材料[J],2012,3:80-84.QIU J,WANG Y L.FRP/Composite[J],2012,3:80-84.
[25]孙晓刚,程利,杜国平.人工晶体学报[J],2009,38(5):1114-1118.
SUN X G,CHENG L,DU G P.Journal of Synthetic Crystals[J],2009,38(5):1114-1118.
[26]DHAHRI A,DHAHRI J,ZEMNI S,et al.Journal of Alloys and Compounds[J],2006,420:15-19.
[27]LI D F,ZHENG J,ZOU Z G.Journal of Physics and Chemistry of Solids[J],2006,67(4):801-806.
[28]李宝华,郑文君,庞文琴.无机化学学报[J],1998,14(4):116-118.
LI B H,ZHENG W J,PANG W Q.Journal of Inorganic Chemistry[J],1998,14(4):116-118.
[29]袁华,杜波,刘俊峰,等.材料科学与工程学报[J],2009,27(1):68-71.YUAN H,DU B,LIU J F,et al.Journal of Materials Science and Engineering[J],2009,27(1):68-71.
[30]张靓,冯辉霞,徐海东,等.化工新型材料[J],2022,50(8):7-18.
ZHANG L,FENG H X,XU H D,et al.New Chemical Materials[J],2022,50(8):7-18.
[31]WANG H G,MENG F B,HUANG F,et al.ACS Applied Materials & Interfaces[J],2018,11(12):12142-12153.
[32]贺可强,郁黎明,盛雷梅.复合材料学报[J],2011,28(4):112-116.
HE K Q,YU L M,SHENG L M.Acta Materiae Compositae Sinica[J],2011,28(4):112-116.
[33]EISAZADEH H,KHORSHIDI H R.PolymerPlastics Technology and Engineering\[J\],2010,49(15):1591-1596.
\[34\]郭亚晋,刘峥,魏席.化工新型材料\[J\],2016,44(4):14-16.
GUO Y J,LIU Z,WEI X.New Chemical Materials\[J\],2016,44(4):14-16.
\[35\]WEI J J,ZHAO R,LIU X B.Journal of Magnetism and Magnetic Materials\[J\],2012,324(20):3323-3327.
\[36\]吴友朋,刘祥萱,张泽洋.表面技术\[J\],2010,39(5):58-83.
WU Y P,LIU X X,ZHANG Z Y.Surface Technology\[J\],2010,39(5):58-83.
\[37\]魏子涵,彭雨晴,康治伟,等.陶瓷学报\[J\],2021,42(4):547-559.
WEI Z H,PENG Y Q,KANG Z W,et al.Journal of Ceramics\[J\],2021,42(4):547-559.
\[38\]王军,陈革,宋永才,等.功能材料\[J\],2001(1):37-39.
WANG J,CHEN G,SONG Y C,et al.Journal of Functional Materials\[J\],2001(1):37-39.
\[39\]王桂芹,陈晓东,段玉平,等.无机材料学报\[J\],2007,2:293-297.
WANG G Q,CHEN X D,DUAN Y P,et al.Journal of Inorganic Materials\[J\],2007,2:293-297.
\[40\]韩霞光. BaTiO3及稀土掺杂BaTiO3吸波材料的制备与性能研究\[D\].哈尔滨:哈尔滨工业大学,2007.
HAN X G.Preparation and Properties of BaTiO3 and Rare Earth Doped BaTiO3 Microwave Absorbing Materials\[D\].Harbin:Harbin Institute of Technology,2007.
\[41\]马立欣.钛酸钡复合粉体的制备及电磁性能研究\[D\].大连:大连理工大学,2011.
MA L X.Preparation and Electromagnetic Properties of Barium Titanate Composite Powders\[D\].Dalian:Dalian University of Technology,2011.
\[42\]GAIROLA S P,VERMA V,KUMAR L. Synthetic Metals\[J\],2010,160(21/22):2315-2318.
\[43\]POLITIS J K,NEMES J C. Journal of the American Chemical Society\[J\],2001,123(11):2537-2547.
\[44\]贺正义.钛酸钡/碳复合材料的制备及吸波性能研究\[D\].海口:海南大学,2019.
HE Z Y.Preparation and Microwave Absorbing Properties of Barium Titanate/Carbon Composites\[D\].Haikou:Hainan University,2019.
\[45\]刘延坤.稀土掺杂钛酸钡和铁氧体纳米材料的制备及吸波性能研究\[D\].哈尔滨:哈尔滨工业大学,2008.
LIU Y K.Preparation and Microwave Absorbing Properties of Rare Earth Doped Barium Titanate and Ferrite Nanomaterials\[D\].Harbin:Harbin Institute of Technology,2008.
\[46\]汪忠柱,毕红,林玲,等.安徽大学学报(自然科学版)\[J\],2006,30(2):64-66.
WANG Z Z,BI H,LIN L,et al.Journal of Anhui University (Natural Science Edition)\[J\],2006,30(2):64-66.
\[47\]MU G H,SHEN H,QIU J,et al.Applied Surface Science\[J\],2006,253:2278-2281.
\[48\]宣益民,李强,杨岗,等.材料导报\[J\],2007,21(5):198-203.
XUAN Y M,LI Q,YANG G,et al.Materials Reports\[J\],2007,21(5):198-203.
\[49\]WANG J,ZHANG H,BAI S X,et al.Journal of Magnetism and Magnetic Materials\[J\],2007,312(2):310-313.
\[50\]GUO C,YANG Z H,SHEN S,et al.Journal of Magnetism and Magnetic Materials\[J\],2018,454:32-38.
\[51\]DANG S C,LIN Y,WEI X Z,et al.Journal of Materials Science:Materials in Electronics\[J\],2018,29:17651-17660.
\[52\]高芳乾.中国粉体技术\[J\],2011,17(4):29-31.
GAO F Q.China Powder Science and Technology\[J\],2011,17(4):29-31.
\[53\]KHSNI O,ZARGAR M Z,ACKLAND K,et al.Journal of Magnetism and Magnetic Materials\[J\],2017,428:28-35.
\[54\]王超.改性羰基铁粉复合材料的制备与吸波性能\[D\].哈尔滨:哈尔滨工业大学,2008.
WANG C.Preparation and Microwave Absorption Properties of Modified Carbonyl Iron Powder Composites\[D\].Harbin:Harbin Institute of Technology,2008.
\[55\]王相元,钱鉴,伍瑞新,等.南京大学学报(自然科学版)\[J\],2001,37(5):625-629.
WANG X Y,QIAN J,WU R X,et al.Journal of Nanjing University(Natural Science)\[J\],2001,37(5):625-629.
\[56\]DUAN W J,LI X D,WANG Y,et al.Applied Surface Science\[J\],2018,427:594-602.
\[57\]罗平,刘朝辉,陶睿,等.电镀与涂饰\[J\],2018,37(6):247-253.
LUO P,LIU C H,TAO R,et al.Electroplating & Finishing\[J\],2018,37(6):247-253.
\[58\]CHEN C C,LIANG W F,NIEN Y H,et al.Materials Research Bulletin\[J\],2017,96:81-85.
\[59\]LI C P,SUI J,ZHANG Z Q,et al.Chemical Engineering Journal\[J\],2019,375(1):122017.
\[60\]刘唯,马振叶.南京师大学报(自然科学版)\[J\],2023,46(2):15-24.
LIU W,MA Z Y.Journal of Nanjing Normal University (Natural Science Edition)\[J\], 2023, 46(2): 15-24.
\[61\]康帅,乔士亚,胡祖明,等.中国材料进展\[J\],2020,39(1):64-69.
KANG S,QIAO S Y,HU Z M,et al.Materials China\[J\],2020,39(1):64-69.
\[62\]秦秀兰,黄英,杜朝锋.磁性材料及器件\[J\],2007,4:15-24.
QIN X L,HUANG Y,DU C F.Magnetic Materials and Devices\[J\],2007,4:15-24.
\[63\]王彩霞,刘元军.丝绸\[J\],2021,58(2):27-34.
WANG C X,LIU Y J.Silk\[J\],2021,58(2):27-34.
\[64\]赵佳,姚艳青,杨煊赫,等.复合材料学报\[J\],2020,37(11):2684-2699.
ZHAO J,YAO Y Q,YANG X H,et al.Acta Materiae Compositae Sinica\[J\],2020,37(11):2684-2699.
\[65\]LANDY N I,SAJUYIGBE S,MOCK J J,et al. Physical Review Letters\[J\],2008,100(20):207402.
\[66\]TAO H,LANDY N I,BINGHAM C M,et al.Optics Express\[J\],2008,16(10):7181-7188.
\[67\]LIU B Q,ZHAO X P,ZHU W R,et al.Advanced Functional Materials\[J\],2008,18(21):3523-3528.
\[68\]GRANT J,MA Y,SAHA S,et al.Optics Letters\[J\],2011,36(8):1524-1526.
\[69\]PARK J W,TUONG P V,RHEE J Y,et al.Optics Express\[J\],2013,21(8):9691-9702.
\[70\]JIANG Z H,YUN S,TOOR F,et al.ACS Nano\[J\],2011,5(6):4641-4647.
\[71\]SHEN X P,CUI T J,ZHAO J M,et al.Optics Express\[J\],2011,19(10):9401-9407.
\[72\]ALICI K B,BILOTTI F,OZBAY E,et al.Open Journal of Antennas and Propagation\[J\],2016,4(1):1-11.
\[73\]CHENG Y Z,NIE Y,GONG R Z,et al.Applied Physics Letters\[J\],2014,105(18):31301.
\[74\]HUANG X,HE W,YANG F,et al.Optics Express\[J\],2018,26(20):25558-25566.
\[75\]HUANG L,CHEN H.Progress in Electromagnetics Research\[J\],2011,113:103-110.
\[76\]MONIRUZZAMAN M,ISLAM M T,SAMSUZZAMAN M,et al.Scientific Reports\[J\],2022,12:12497.
\[77\]GHOSH S,BHATTACHARYYA S,SRIVASTAVA K V.PIERS Proceedings\[J\],2013,2:1097-1101.
\[78\]XU Z X,MENG H Y,CHEN A,et al.Journal of Applied Physics\[J\],2021,129(9):094502.
\[79\]MEHRAN M Z,ARCHANA R,KUSHMANDA S,et al.IET Microwaves,Antennas and Propagation\[J\],2020, 14(11): 1296-1303.
\[80\]SMITH D R,VIER D C,KOSCHNY T.Physical Review E\[J\],2005,71:036617.
\[81\]MULLA B,SABAH C.Plasmonics\[J\],2016,11:1313-1321.
\[82\]ZARGAR M M, RAJPUT A, SAURAV K, et al.IEEE Access\[J\],2021,9:150426-150442.
\[83\]FAHMI A,HAKIM L,RINI E M.2019 2nd International Conference of Computer and Informatics Engineering(IC2IE)\[C\].America:IEEE,2019:110-115.
\[84\]WANG W J,YAN M B,PANG Y Q,et al.Applied Physics\[J\],2014,118(2):443-447.
\[85\]OZTURK Y,YILMAZ A E.Applied Computational Electromagnetics Society Journal\[J\],2016,31(12):1445-1451.
\[86\]CUI Y X,FUNG K H,XU J,et al.Nano Letters\[J\],2012,12(3):1443-1447.
\[87\]LIU X,TYLER T,STARR T,et al.Physics Review Letters\[J\],2011,107(4):045901.
\[88\]AUBRY A,LEI D Y,PENDRY J B.Nano Letters\[J\],2010,10(7):2574-2579.
\[89\]AYDIN K,FERRY V,BRIGGS R,et al.Nature Communications\[J\],2011,2:517.
\[90\]GONG G, YANG F, ZHANG X.Journal of Physics D: Applied Physics\[J\],2017,50(45):455105.
\[91\]SNDERGAARD THOMAS,NOVIKOV S M,HOLMGAARD T,et al.Nature Communications\[J\],2012,3:969-969.
\[92\]SONG Z Y,WANG Z S,WEI M L.Materials Letters\[J\],2019,234:138-141.
\[93\]TEPERIK T V,GARCA DE ABAJO F J,BORISOV A G,et al.Nature Photonics\[J\],2008,2:299-301.
\[94\]XIONG Y,CHEN F,CHENG Y Z,et al.Journal of Alloys and Compounds\[J\],2022,920:166008.
\[95\]邓显玲,黎泽伦,杨孟涛,等.重庆大学学报\[J\],2020,43(8):47-53.
DENG X L,LI Z L,YANG M T,et al.Journal of Chongqing University\[J\],2020,43(8):47-53.
\[96\]房新蕊,王茜,张庆东,等.电子技术与软件工程\[J\],2020(6):216-218.
FANG X R,WANG Q,ZHANG Q D,et al.Electronic Technology and Software Engineering\[J\],2020(6):216-218.
\[97\]ZHANG C,CHENG Q,YANG J,et al.Applied Physics Letters\[J\],2017,110(14):143511.
\[98\]孔祥林,马洪宇,陈鹏,等.电波科学学报\[J\],2021,36(6):947-952.
KONG X L,MA H Y,CHEN P,et al.Chinese Journal of Radio Science\[J\],2021,36(6):947-952.
\[99\]张泽奎,王东红,王蓬,等.功能材料\[J\],2018,49(4):4213-4216.
ZHANG Z K,WANG D H,WANG P,et al.Journal of Functional Materials\[J\],2018,49(4):4213-4216.
\[100\]WANG C X,CHEN M J,LEI H S,et al.Composite Structures\[J\],2020,235(1):1-8.
\[101\]TIWARI P, PATHAK S K, ANITHA V P. Waves in Random and Complex Media\[J\],2021, doiorg/101080/1745503020211972182.
\[102\]OLSZEWSKAPLACHA M,SALSKI B,JANCZAK D,et al.IEEE Transactions on Antennas and Propagation\[J\],2015,63(2):565-572.
\[103\]DENG G,LV K,SUN H,et al.Nanomaterials and Nanotechnology\[J\],2020,10:1847980420935718.
\[104\]LONG L V,KHIEM N S,TUNG B S,et al.Photonics\[J\],2021,8(10):440.
\[105\]邓光晟,陈文卿,余振春,等.光学学报\[J\],2022,42(22):119-126.
DENG G S,CHEN W Q,YU Z C,et al.Acta Optica Sinica\[J\],2022,42(22):119-126.
\[106\]CHEN X,CHEN Y,YAN M,et al.ACS Nano\[J\],2012,6(3):2550-2557.
\[107\]CHENG Y,YANG H.Journal of Applied Physics\[J\],2010,108(3):034906.
\[108\]COSTA F,GENOVESI S,MONORCHIO A,et al.IEEE Transactions on Antennas and Propagation\[J\],2013,61(3):1201-1209.
\[109\]LI L,YANG Y,LIANG C.Journal of Applied Physics\[J\],2011,110(6):63702.
\[110\]MAIER T,BRUCKL H.Optics Letters\[J\],2009,34(19):3012-3014.
\[111\]NARIMANOV E E,KILDISHEV A V.Applied Physics Letters\[J\],2009,95(4):41106.
\[112\]WILLIAMS G P.Reports on Progress in Physics\[J\],2005,69(2):301.
\[113\]TONOUCHI M.Nature Photonics\[J\],2007,1:97-105.
\[114\]HAO J,WANG J,LIU X L,et al.Applied Physics Letters\[J\],2010,96(25):251104.
\[115\]LIU N,MESCH M,WEISS T,et al.Nano Letters\[J\],2010,10(7):2342-2348.
\[116\]LIU X L,STARR T,STARR A F,et al.Physical Review Letters\[J\],2010,104(20):207403.
\[117\]YU S,PIAO X,HONG J,et al.Physical Review A\[J\],2015,92(1):011802.
\[118\]MIN C,VERONIS G.Optics Express\[J\],2009,17(13):10757-10766.
\[119\]LIU X M,REN Z Y,YANG T,et al.Journal of Materials Science & Technology\[J\], 2021, 62: 249-253.
\[120\]WEN Q,ZHANG H,XIE Y,et al.Applied Physics Letters\[J\],2009,95(24):1111.
\[121\] BUTUN S,AYDIN K.Optics Express\[J\],2014,22(16):19457-19468.
\[122\]MA Y,CHEN Q,GRANT J,et al.Optics Letters\[J\],2011,36(6):945-947.
\[123\]TAO H,BINGHAM C M,PILON D,et al.Journal of Physics D: Applied Physics\[J\],2010,43(22):225102.
\[124\]LIU X M,LAN C W,LI B,et al.Applied Physics Letters\[J\],2016,109(6):062902.
\[125\]AVITZOUR Y,URZHUMOV Y A,SHVETS G .Physical Review B\[J\],2009,79 :045131.
\[126\]DING F, CUI Y, GE X,et al.Applied Physics Letters\[J\],2012,100(10):103506.
\[127\]HUANG L,CHOWDHURY D R,RAMANI S,et al.Optics Letters\[J\],2012,37(2):154-156.
\[128\]刘晓明.介质超材料的设计、制备及其对电磁波的调控\[D\].北京:清华大学,2016.
LIU X M.Design, Preparation and Regulation of Dielectric Metamaterials and Their Regulation of Electromagnetic Waves\[D\].Beijing:Tsinghua University,2016.
\[129\]孙占红,郭春艳.航空制造技术\[J\],2002,1:38-40.
SUN Z H,GUO C Y.Aviation Manufacturing Technology\[J\],2002,1:38-40.
\[130\]马科峰,张广成,刘良威,等.材料开发与应用\[J\],2010,25(6):53-57.
MA K F,ZHANG G C,LIU L W,et al.Material Development and Application\[J\],2010,25(6):53-57.
\[131\]穆武第,王凤春,黄克明,等.材料保护\[J\],2013,43(S1):85-88.
MU W D,WANG F C,HUANG K M,et al.Material Protection\[J\],2013,43(S1):85-88.
\[132\]高海涛,王建江,李泽.材料工程\[J\],2019,47(1):70-76.
GAO H T,WANG J J,LI Z.Journal of Materials Engineering\[J\],2019,47(1):70-76.
\[133\]叶康平.铁氧体超构材料的电磁波吸收和超散射研究\[D\].南京:南京大学,2021.
YE K P.Study on Electromagnetic Wave Absorption and Superscattering of Ferrite Superstructured Materials\[D\].Nanjing:Nanjing University,2021.
\[134\]ADENOTENGELVIN A L,DUDEK C,TONEGUZZO P,et al.Journal of the European Ceramic Society\[J\],2007,27(2/3):1029-1033.
\[135\]ADENOTENGELVIN A L,DUDEK C,ACHER O.Journal of Magnetism and Magnetic Materials\[J\],2006,300(1):33-37.
\[136\]ZHANG L, ZHOU P, ZHANG H, et al. A Broadband Radar Absorber Based on Perforated Magnetic Polymer Composites Embedded with FSS\[C\]//2013 National Doctoral Academic Forum—Electronic Thin Films and Integrated Devices.Chengdu:Academic Degrees Committee Office of the State Council,2013:211-218.
[137]礼嵩明,蒋诗才,望咏林,等.材料工程[J],2017,45(11):10-14.
LI S M,JIANG S C,WANG Y L,et al.Journal of Material Engineering[J],2017,45(11):10-14.
[138]杨芾藜,郑可,程颖瑛.微波学报[J],2022,38(6):52-57.YANG F L,ZHENG K,CHENG Y Y.Journal of Microwave[J],2022,38(6):52-57.
[139]张娜,华伟,潘靖凯,等.高分子材料科学与工程[J],2020,36(9):124-129.ZHANG N,HUA W,PAN J K,et al.Polymeric Materials Science and Engineering[J],2020,36(9):124-129.
[140]李泽,赵芳,王建江,等.稀有金属材料与工程[J],2019,48(11):3628-3633.LI Z,ZHAO F,WANG J J,et al.Rare Metal Materials and Engineering[J],2019,48(11):3628-3633.
[141]程宗辉,段本方,陈云鹏,等.磁性材料及器件[J],2022,53(4):41-47.CHENG Z H,DUAN B F,CHEN Y P,et al.Magnetic Materials and Devices[J],2022,53(4):41-47.