{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"利用垂直两温区透明油浴炉,采用升华法成功生长了α-HgI2单晶体.通过对比不同生长阶段晶体生长界面,观察到HgI2晶体在气相生长中存在界面形貌转变.晶体生长初期的生长面呈棱面,然后逐渐转变为圆滑界面.利用XRD、透射光谱以及I-V测试对所生长晶体的性能进行了表征.XRD结果表明所生长的晶体为单相的α-HgI2晶体,晶体的生长方向为[001].紫外-可见-红外透过光谱分析发现,HgI2晶体的截至波长为580 nm,对应的禁带宽度为2.12 eV,红外区内透过约为45%.由于空穴的俘获及陷阱能级作用,在2307.5 nm和1731.4 nm处产生了两个明显的吸收峰.所生长的α-HgI2晶体电阻约为1011Ω·cm,满足制作核辐射探测器的要求.","authors":[{"authorName":"","id":"f6f02e94-70c1-483e-bf2e-e8827afbc29e","originalAuthorName":""},{"authorName":"介万奇","id":"90537b51-6c2c-422a-8ee4-ec315d885e6b","originalAuthorName":"介万奇"},{"authorName":"","id":"dcac7605-44c1-440a-84ca-60a532230f1b","originalAuthorName":""}],"doi":"","fpage":"795","id":"872f28f0-eb0a-4ba1-9510-9a4cf9a92efe","issue":"4","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"ce321879-0255-45e6-a7a8-3c1d84bb9308","keyword":"碘化汞晶体","originalKeyword":"碘化汞晶体"},{"id":"2a05739e-5b05-41f6-9acc-a28c76a320c0","keyword":"形貌转变","originalKeyword":"形貌转变"},{"id":"79169213-f229-4859-8edd-2dd8da124a28","keyword":"XRD","originalKeyword":"XRD"},{"id":"4987aaf1-ad10-432f-8771-0962d084c251","keyword":"红外透过","originalKeyword":"近红外透过率"},{"id":"f75593ee-9d13-4cf3-a006-be19a7e6fba5","keyword":"I-V特性","originalKeyword":"I-V特性"}],"language":"zh","publisherId":"rgjtxb98200804005","title":"碘化汞(α-HgI2)晶体生长及其性能表征","volume":"37","year":"2008"},{"abstractinfo":"以溶胶-凝胶法制备镁铝尖晶石(以下简称“尖晶石”)粉末, 掺入0~2.5wt%的LiF, 经球磨后, 测试混合粉末的物相组成. 采用热压(HP; 32 MPa/1550℃)及热压结合热等静压(HP/HIP; 热等静压工艺条件为150 MPa/1700℃)工艺制备出尖晶石透明陶瓷. 分析测试了掺入不同LiF的尖晶石陶瓷的结构和红外透过, 采用感应耦合等离子体(Inductively Coupled Plasma, 或ICP)方法测定了LiF掺杂后的粉料和透明陶瓷中的Li离子含量. 实验显示, LiF的加入促进了尖晶石晶粒长大和气孔的排除, 并促进了尖晶石陶瓷烧结的致密化进程. 添加1.0wt%~1.5wt% LiF的尖晶石透明陶瓷具有最高的红外透过. LiF在尖晶石陶瓷中形成残余物质, 添加过量的LiF对尖晶石陶瓷的光学性能会产生不利影响.","authors":[{"authorName":"李法荟","id":"0a8ace4c-73f6-4bad-b901-7e75576cbf11","originalAuthorName":"李法荟"},{"authorName":"林红","id":"12ebf32a-ca0d-4f2b-86f1-42cfbae12091","originalAuthorName":"林红"},{"authorName":"李俊峰","id":"9b78fcf8-3e5b-46ec-889b-a17de2f310fa","originalAuthorName":"李俊峰"},{"authorName":"雷牧云","id":"f1d49739-5cc0-48d9-9b75-d693e6cb97d3","originalAuthorName":"雷牧云"},{"authorName":"李祯","id":"2a74dede-4084-44b7-9a28-6d08987fbc18","originalAuthorName":"李祯"},{"authorName":"李建保","id":"5e858ecf-4674-4611-ab05-d4ccb9b20839","originalAuthorName":"李建保"}],"categoryName":"|","doi":"10.3724/SP.J.1077.2012.00417","fpage":"417","id":"8873d733-0490-4e12-b5c4-0a7b7c3a3c21","issue":"4","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"3a0427a1-722a-4855-943d-9d5cd54ae3a6","keyword":"透明陶瓷; 镁铝尖晶石; LiF; 红外透过; 感应耦合等离子体法","originalKeyword":"透明陶瓷; 镁铝尖晶石; LiF; 红外透过率; 感应耦合等离子体法"}],"language":"zh","publisherId":"1000-324X_2012_4_9","title":"LiF对镁铝尖晶石透明陶瓷红外透过的影响","volume":"27","year":"2012"},{"abstractinfo":"以溶胶-凝胶法制备镁铝尖晶石(以下简称“尖晶石”)粉末,掺入0~2.5wt%的LiF,经球磨后,测试混合粉末的物相组成.采用热压(HP; 32 MPa/1550℃)及热压结合热等静压(HP/HIP;热等静压工艺条件为150 MPa/1700℃)工艺制备出尖晶石透明陶瓷.分析测试了掺入不同LiF的尖晶石陶瓷的结构和红外透过,采用感应耦合等离子体(Inductively Coupled Plasma,或ICP)方法测定了LiF掺杂后的粉料和透明陶瓷中的Li离子含量.实验显示,LiF的加入促进了尖晶石晶粒长大和气孔的排除,并促进了尖晶石陶瓷烧结的致密化进程.添加1.0wt%~l.5wt% LiF的尖晶石透明陶瓷具有最高的红外透过.LiF在尖晶石陶瓷中形成残余物质,添加过量的LiF对尖晶石陶瓷的光学性能会产生不利影响.","authors":[{"authorName":"李法荟","id":"42f8d82f-41d7-4ce7-94d0-c15e9b565dbb","originalAuthorName":"李法荟"},{"authorName":"林红","id":"74208269-f9be-46a4-9c43-7af509dd1dd1","originalAuthorName":"林红"},{"authorName":"李俊峰","id":"00749543-9657-40de-a7d5-201d365cc360","originalAuthorName":"李俊峰"},{"authorName":"雷牧云","id":"b051c8ad-7f81-42f4-804a-1a971471feb5","originalAuthorName":"雷牧云"},{"authorName":"李祯","id":"868db3e8-a592-448f-b9f3-a99248faf537","originalAuthorName":"李祯"},{"authorName":"李建保","id":"85f8eaf0-c6bc-46c0-8234-0140c14aac46","originalAuthorName":"李建保"}],"doi":"10.3724/SP.J.1077.2012.00417","fpage":"417","id":"9e78d391-89d4-4967-af62-cc689e63b4a2","issue":"4","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"ee3b3418-2686-4946-b7c7-90f5e0766f38","keyword":"透明陶瓷","originalKeyword":"透明陶瓷"},{"id":"f18a67de-f7fc-4c00-a9b5-50e9db6a15e6","keyword":"镁铝尖晶石","originalKeyword":"镁铝尖晶石"},{"id":"5f0e7a9c-aaac-47d8-9215-9fe4ee0eb433","keyword":"LiF","originalKeyword":"LiF"},{"id":"9a32ba1d-bbea-4c89-acc1-4e5db504cc7e","keyword":"红外透过","originalKeyword":"红外透过率"},{"id":"696431a9-9b5f-497a-b398-aa0848ca925e","keyword":"感应耦合等离子体法","originalKeyword":"感应耦合等离子体法"}],"language":"zh","publisherId":"wjclxb201204016","title":"LiF对镁铝尖晶石透明陶瓷红外透过的影响","volume":"27","year":"2012"},{"abstractinfo":"根据气凝胶遮光剂复合材料的微观结构特性,首次提出用多体散射理论计算其遮光剂球形颗粒分散体系的红外透过.通过分析小角度近似和多次散射因子对比尔-朗伯定律中散射传递函数的影响,建立了气凝胶遮光剂复合材料前向散射透过的计算方法,编写计算程序,对SiO2气凝胶中遮光剂为SiC和ZrO2的两种材料进行了计算.计算结果表明:在实验允许的范围内,遮光剂质量分数越大、材料厚度越大,复合材料隔热效果越好;在遮光剂质量分数和材料厚度一定的情况下,由于复折射的影响,不同的遮光剂材料有不同的最佳制备半径,SiC和ZrO2遮光剂球形颗粒的最佳制备半径分别为1.2μm和0.7μm.","authors":[{"authorName":"凌俐","id":"3fcdddb3-2c0d-4ca2-8a9b-79e2e293cac9","originalAuthorName":"凌俐"},{"authorName":"毕岗","id":"00622fd7-4456-4e19-bf7e-6ce38232ea9b","originalAuthorName":"毕岗"},{"authorName":"黄敏","id":"c8c9dc36-81bd-4715-ba06-3d5b5f3b5e5f","originalAuthorName":"黄敏"},{"authorName":"丁金婷","id":"3cbcf52f-5ca9-4710-929a-dfb7eb4ff101","originalAuthorName":"丁金婷"},{"authorName":"陈国宏","id":"938cb8d2-66fd-4aba-894b-a1a86248a0ec","originalAuthorName":"陈国宏"}],"doi":"","fpage":"136","id":"843e366b-d07a-43fb-975f-6df398afb89c","issue":"24","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"0913b663-ec10-42b4-b469-bbe88c8b9533","keyword":"气凝胶","originalKeyword":"气凝胶"},{"id":"cd569d09-f7d6-4624-afa6-3b285526ce91","keyword":"遮光剂","originalKeyword":"遮光剂"},{"id":"f15e35a4-35ed-41ad-ac9f-43de0b87c08c","keyword":"多体散射理论","originalKeyword":"多体散射理论"},{"id":"ee09e4f5-33a3-4de4-ac8b-d45d8b13c046","keyword":"红外透过","originalKeyword":"红外热透过率"}],"language":"zh","publisherId":"cldb201324036","title":"遮光剂球形颗粒分散系红外透过研究","volume":"27","year":"2013"},{"abstractinfo":"采用射频磁控反应溅射法,以高纯Si为靶材,高纯O2和N2气为反应气体,在蓝宝石衬底上制备了氧化硅和氮化硅薄膜.讨论了N2气流量、射频功率、溅射气压和靶基距等工艺参数对Si3N4薄膜沉积速率的影响规律.结果表明:随N2气流量的增加,沉积速率先降低,最后趋于稳定;随射频功率增加,沉积速率增加;随溅射气压和靶基距增加,沉积速率先增后减.同时,高温强度试验和FTIR测试结果表明:在800℃时,镀膜后蓝宝石的弯曲强度比镀膜前提高了50.2%;平均透过净增加8%以上,达到了很好的增透保护效果.","authors":[{"authorName":"宋文燕","id":"c374c6b4-ad18-4415-8105-a77b32314f47","originalAuthorName":"宋文燕"},{"authorName":"崔虎","id":"62944219-102a-45e1-a422-098297c8fed6","originalAuthorName":"崔虎"},{"authorName":"刘正堂","id":"ce17f34a-ed7c-442d-b94d-7e20943204c6","originalAuthorName":"刘正堂"},{"authorName":"冯丽萍","id":"82f6cff6-5930-48f6-9470-a25fe3f69aac","originalAuthorName":"冯丽萍"}],"doi":"10.3969/j.issn.1004-244X.2006.05.003","fpage":"9","id":"9dda1f1e-3f16-4bf3-a29c-21b9d310d35c","issue":"5","journal":{"abbrevTitle":"BQCLKXYGC","coverImgSrc":"journal/img/cover/BQCLKXYGC.jpg","id":"4","issnPpub":"1004-244X","publisherId":"BQCLKXYGC","title":"兵器材料科学与工程 "},"keywords":[{"id":"efc3fe79-fd1a-4520-a7ff-78bc70a5030a","keyword":"蓝宝石","originalKeyword":"蓝宝石"},{"id":"c6ab52b6-74a8-4203-a8c1-380d3db21acf","keyword":"氮化硅","originalKeyword":"氮化硅"},{"id":"50ce74ab-c514-4b7a-9fab-3dd0f441e2a2","keyword":"高温强度","originalKeyword":"高温强度"},{"id":"f873740b-9d7b-4c0c-be09-a38072bfd5ab","keyword":"透过","originalKeyword":"透过率"},{"id":"088b6055-d3a1-487c-93ec-2fbf76e7911c","keyword":"镀膜","originalKeyword":"镀膜"}],"language":"zh","publisherId":"bqclkxygc200605003","title":"提高蓝宝石高温强度和红外透过的镀膜法研究","volume":"29","year":"2006"},{"abstractinfo":"采用微波PCVD方法制备出直径50mm膜厚300um的大尺寸透明自支撑金刚石膜.在甲烷体积分数2%的条件下制备的透明自支撑金刚石膜经过两面抛光后在500cm-1-4000cm-1红外波段范同内红外透过达到70%,但是其生长速率只有1um/h-2um/h.在体积分数4%甲烷浓度下制备的自支撑透明金刚石膜,其生长速率达到7um/h~8um/h,经过两面抛光之后膜厚为260um的金刚石膜的在500cm-1~4000cm-1红外波段范围内红外透过达到60%左右,而且膜中心和边缘区的红外透过基本相同.这些结果为大尺寸金刚石厚膜在红外窗口上的实际应用奠定了基础.","authors":[{"authorName":"李博","id":"4813384b-cdf2-45c8-ab55-d600d3c50c53","originalAuthorName":"李博"},{"authorName":"韩柏","id":"238499e2-6d13-4c62-aafd-9f38d80286bf","originalAuthorName":"韩柏"},{"authorName":"吕宪义","id":"5214a53d-db61-48b4-87b9-3d7e1949a91d","originalAuthorName":"吕宪义"},{"authorName":"李红东","id":"21e92e90-9eca-49a2-9c02-8a1c1e3812a0","originalAuthorName":"李红东"},{"authorName":"汪剑波","id":"c7e560e5-0aa3-4949-8317-4762ba835444","originalAuthorName":"汪剑波"},{"authorName":"金曾孙","id":"24c52306-6305-4d04-b8fc-231d04bf8444","originalAuthorName":"金曾孙"}],"doi":"","fpage":"245","id":"7ab8aca1-31b5-4693-a778-a19f81894432","issue":"3","journal":{"abbrevTitle":"XXTCL","coverImgSrc":"journal/img/cover/XXTCL.jpg","id":"70","issnPpub":"1007-8827","publisherId":"XXTCL","title":"新型炭材料"},"keywords":[{"id":"55f6fb26-a802-4c5f-aac9-384466053568","keyword":"微波PCVD","originalKeyword":"微波PCVD"},{"id":"e06755f4-f501-45c2-a1c2-93d7b023b0f3","keyword":"透明自支撑金刚石膜","originalKeyword":"透明自支撑金刚石膜"},{"id":"c75d1ad2-1ed3-4fe6-94d0-6b1f7a1a3bb0","keyword":"红外透过","originalKeyword":"红外透过率"}],"language":"zh","publisherId":"xxtcl200803010","title":"微波PCVD法大尺寸透明自支撑金刚石膜的制备及红外透过","volume":"23","year":"2008"},{"abstractinfo":"以硝酸铁、硝酸铬、柠檬酸、乙二醇为原料,采用溶胶-凝胶法制备了纳米红外高反射黑色陶瓷颜料,探讨了Fe/Cr摩尔比、水解温度、溶液pH值、金属离子浓度、煅烧温度等因素对溶胶-凝胶过程及样品性能的影响.结果表明,在Fe/Cr摩尔比为0.50,水解温度70℃,溶液pH值=3~4,金属离子浓度为2.5~3.5mol/L,煅烧温度为900℃时,制备的颜料主晶相为CrL3Fe0.7O3,平均颗粒尺寸为50~150nm,在700~2500nm波段内的平均反射为77.58%.","authors":[{"authorName":"张潇予","id":"5c286d73-1a8f-4800-863f-fe8896c22a1e","originalAuthorName":"张潇予"},{"authorName":"张玉军","id":"e5546d41-06fb-4da4-866b-1979da63f4d2","originalAuthorName":"张玉军"},{"authorName":"龚红宇","id":"f10180b9-04e0-4c3a-90fc-3a1f308f2727","originalAuthorName":"龚红宇"},{"authorName":"王翠玲","id":"0bf478fd-5ec6-4a06-8227-039386a44b9f","originalAuthorName":"王翠玲"},{"authorName":"赵新巧","id":"b409c58f-efad-434b-8bb8-07e81e82f93c","originalAuthorName":"赵新巧"},{"authorName":"朱洪立","id":"4b6ce684-a41c-4d66-b690-c2913af18166","originalAuthorName":"朱洪立"},{"authorName":"熊天农","id":"af4780ea-5eeb-4a16-a9a6-c39487a369c0","originalAuthorName":"熊天农"}],"doi":"","fpage":"417","id":"e13b926e-5ef6-45fd-9dc0-cd8b8ac3132b","issue":"3","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"34a16a33-0d31-4479-8a36-14eb9aa908d8","keyword":"溶胶-凝胶","originalKeyword":"溶胶-凝胶"},{"id":"181683e0-32eb-4e35-84e3-0f9423ad177a","keyword":"红外","originalKeyword":"近红外"},{"id":"e5f64a9e-c754-465e-9428-520b0f3022f7","keyword":"高反射","originalKeyword":"高反射率"},{"id":"bb2c1547-876b-4a4a-8ba0-06202b5403e7","keyword":"纳米","originalKeyword":"纳米"},{"id":"3d4ad28c-6136-4326-9edd-82c39499255f","keyword":"颜料","originalKeyword":"颜料"}],"language":"zh","publisherId":"gncl201303028","title":"溶胶-凝胶法制备纳米红外高反射黑色陶瓷颜料","volume":"44","year":"2013"},{"abstractinfo":"以聚甲基丙烯酸甲酯(PMMA)为基体,红外吸收染料NIR756和NIR858为添加剂,采用熔融混合、分散成型的方法制备了红外吸收滤光薄膜。热失重分析(TG)表明,两种染料都具有较好的热稳定性。透射光谱显示,试样薄膜具有较好的红外吸收性能,在660nm-930nm波段平均光透过低于0.2%;同时具有较高的可见光透过,在400nm-630nm波段平均光透过高于20%。薄膜具有较好的耐热老化性能。红外吸收染料在基材中的分散不均匀,有颗粒存在。","authors":[{"authorName":"孟凡富","id":"10942e47-16b4-4b41-8c56-b6e945b6c696","originalAuthorName":"孟凡富"},{"authorName":"王庭慰","id":"0edccb6c-d780-4d9d-a760-a415c1e65c5e","originalAuthorName":"王庭慰"},{"authorName":"张其土","id":"ac225a94-1dad-4cb3-8720-35cf11223184","originalAuthorName":"张其土"},{"authorName":"姚娇娇","id":"f1d4d80b-621a-4187-b406-8a253418e024","originalAuthorName":"姚娇娇"},{"authorName":"曹飞","id":"e062edd6-8b10-4668-a450-e3a93b8642fa","originalAuthorName":"曹飞"},{"authorName":"王景春","id":"d5f1e8be-480a-4e8b-bf1d-822b6ed9d597","originalAuthorName":"王景春"}],"doi":"","fpage":"167","id":"2219a7bf-2d0d-4d93-bc1d-f646daf2a62f","issue":"8","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"a39ff422-d3db-41ab-9530-af8e81502475","keyword":"红外吸收","originalKeyword":"近红外吸收"},{"id":"aca0c715-f351-4758-851d-f762c8c41330","keyword":"滤光","originalKeyword":"滤光"},{"id":"6ca9c977-69e6-4b81-a453-43c24066e19c","keyword":"薄膜","originalKeyword":"薄膜"},{"id":"dde768e5-fa46-475f-8317-2a1098a1d398","keyword":"熔融","originalKeyword":"熔融"}],"language":"zh","publisherId":"gfzclkxygc201208042","title":"吸收型红外滤光薄膜的制备与性能","volume":"28","year":"2012"},{"abstractinfo":"采用射频磁控反应溅射法在蓝宝石衬底上制备了SiO2薄膜, 测试了镀膜前后蓝宝石试样的红外透过, 测试并分析了镀膜与未镀膜蓝宝石试样在高温及雨蚀后的红外透过性能. 结果表明, 蓝宝石衬底上镀SiO2膜后红外透过明显提高; 在高温下, SiO2薄膜依然具有很好的增透作用, 镀膜蓝宝石试样的平均透过明显高于未镀膜蓝宝石试样的平均透过; 雨蚀测试后, 镀膜蓝宝石试样的平均透过损失很小, 镀膜蓝宝石的红外透过明显高于未镀膜蓝宝石的红外透过.
","authors":[{"authorName":"冯丽萍,刘正堂,李强","id":"1a5ac54c-4114-401e-afe0-af636bbd5d54","originalAuthorName":"冯丽萍,刘正堂,李强"}],"categoryName":"|","doi":"10.3724/SP.J.1077.2007.00529","fpage":"529","id":"d72e0096-622d-46cd-9586-62ce011119eb","issue":"3","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"317155e8-a217-451d-ab18-9d53f2adbd2a","keyword":"蓝宝石","originalKeyword":"蓝宝石"},{"id":"0b5f1e7c-1b0d-4599-8ccd-77b292761ec3","keyword":"infrared transmission","originalKeyword":"infrared transmission"},{"id":"7415a429-da40-416b-8cee-a4327d299e8c","keyword":"SiO2 film","originalKeyword":"SiO2 film"},{"id":"110da8d7-745d-475c-98e2-88a3d46d596c","keyword":"rain erosion","originalKeyword":"rain erosion"}],"language":"zh","publisherId":"1000-324X_2007_3_27","title":"SiO2薄膜对蓝宝石红外透过性能的改善","volume":"22","year":"2007"},{"abstractinfo":"采用射频磁控反应溅射法在蓝宝石衬底上制备了SiO2薄膜,测试了镀膜前后蓝宝石试样的红外透过,测试并分析了镀膜与未镀膜蓝宝石试样在高温及雨蚀后的红外透过性能.结果表明,蓝宝石衬底上镀SiO2膜后红外透过明显提高;在高温下,SiO2薄膜依然具有很好的增透作用,镀膜蓝宝石试样的平均透过明显高于未镀膜蓝宝石试样的平均透过;雨蚀测试后,镀膜蓝宝石试样的平均透过损失很小,镀膜蓝宝石的红外透过明显高于未镀膜蓝宝石的红外透过.","authors":[{"authorName":"冯丽萍","id":"f754acfd-9719-48d2-b415-bbfa179055c4","originalAuthorName":"冯丽萍"},{"authorName":"刘正堂","id":"0314d0d0-c491-48f3-b513-f13840adab20","originalAuthorName":"刘正堂"},{"authorName":"李强","id":"2a6e0388-c289-4998-918f-971a7848ca61","originalAuthorName":"李强"}],"doi":"10.3321/j.issn:1000-324X.2007.03.031","fpage":"529","id":"67cf7360-e74a-443e-a759-2fb66bf7eba8","issue":"3","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"2fe25f99-cb76-442b-8c80-6fc7b1b9f4b7","keyword":"蓝宝石","originalKeyword":"蓝宝石"},{"id":"60ddd2fb-8c27-4a67-abe1-712116a79256","keyword":"红外透过","originalKeyword":"红外透过率"},{"id":"66b3305a-8754-48a3-9a8a-fd96ce301628","keyword":"SiO2薄膜","originalKeyword":"SiO2薄膜"},{"id":"0a48fc94-0230-433d-9815-ca8a8b586fc8","keyword":"雨蚀","originalKeyword":"雨蚀"}],"language":"zh","publisherId":"wjclxb200703031","title":"SiO2薄膜对蓝宝石红外透过性能的改善","volume":"22","year":"2007"}],"totalpage":4450,"totalrecord":44495}