{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"Activity of TiO_2 in the molten blast furnace slag containing TiO_2 has been examined at 1500℃ by means of “molten slag-Sn” chemical equilibrium method,using metallic Sn as flux and graphite as deoxidizer,together with phase diagram caIculation.In the pentary slag system CaO-MgO-SiO_2-TiO_2-Al_2O_3,a_(TiO_2)=0.01—0.05 or 0.02—0.10 with pure liquid or solid TiO_2 as standard state,respectively.The activity and activity coefficient of TiO_2 in relation to concentration of TiO_2 have been discussed.","authors":[{"authorName":"LIU Huanming DU Hong Benxi Iron and Steel Company","id":"9428e24f-c524-431e-bb2c-926385ebef67","originalAuthorName":"LIU Huanming DU Hong Benxi Iron and Steel Company"},{"authorName":"Benxi","id":"4bfd7603-1dd1-4d13-8bdc-bf72ab322f0a","originalAuthorName":"Benxi"},{"authorName":"ChinaYANG Zupan Northeast University of Technology","id":"083b9b10-bf54-4911-a96f-524d8d424cbd","originalAuthorName":"ChinaYANG Zupan Northeast University of Technology"},{"authorName":"Shenyang","id":"58e5338f-3425-4e83-accd-3c74711379dc","originalAuthorName":"Shenyang"},{"authorName":"ChinaLI Guodong DU Kun Centrel Iron and Steel Research Institute","id":"15283357-a71e-4ff6-bce6-541098241f6d","originalAuthorName":"ChinaLI Guodong DU Kun Centrel Iron and Steel Research Institute"},{"authorName":"Ministry of Metallurgical Industry","id":"b9be113e-7c30-4286-9db9-018777f86ac0","originalAuthorName":"Ministry of Metallurgical Industry"},{"authorName":"Beijing","id":"f1f40c21-2d51-4649-ae95-72e3883602cd","originalAuthorName":"Beijing"},{"authorName":"China","id":"32c6b1d5-3531-4c75-a43c-4117ac2ef14b","originalAuthorName":"China"}],"categoryName":"|","doi":"","fpage":"274","id":"2dc25723-d610-470a-b925-01c161d307c2","issue":"10","journal":{"abbrevTitle":"JSXBYWB","coverImgSrc":"journal/img/cover/amse.jpg","id":"49","issnPpub":"1006-7191","publisherId":"JSXBYWB","title":"金属学报(英文版)"},"keywords":[{"id":"faa961f8-0689-43b0-b1b9-7d44bfa3a1d8","keyword":"TiO_2","originalKeyword":"TiO_2"},{"id":"d6dd3ef6-daf7-4c03-93f8-5205c489f197","keyword":"null","originalKeyword":"null"},{"id":"a8db65f8-da4d-4902-bac9-dfc3674a17cb","keyword":"null","originalKeyword":"null"},{"id":"d58a0852-9d42-43d9-9032-69f4ad7083eb","keyword":"null","originalKeyword":"null"}],"language":"en","publisherId":"1006-7191_1992_10_8","title":"ACTIVITY OF TiO_2 IN MOLTEN BLAST FURNACE SLAG","volume":"5","year":"1992"},{"abstractinfo":"研究了由TiO_2颗粒和TiO_2溶胶组成的复合TiO_2溶胶,以及其电泳制备涂层的光催化性.实验发现复合溶胶的Zeta电位小于相应的溶胶Zeta电位.对于溶胶在不同温度下煅烧制备的TiO_2粉末进行XRD表征,结果表明随着煅烧温度升高,粉末结晶程度提高,从200 ℃开始出现锐钛矿TiO_2晶相,在550 ℃出现金红石型TiO_2.光催化性能表明,由溶胶而得到的TiO_2涂层的光催化性能要好于复合TiO_2溶胶的光催化性能.","authors":[{"authorName":"谢冰","id":"6582defe-930f-41a6-a147-82b4e70dfc7f","originalAuthorName":"谢冰"},{"authorName":"章少华","id":"d9800d31-d771-48ad-b08e-dcf2c630ede2","originalAuthorName":"章少华"},{"authorName":"刘青","id":"1f1fc983-3416-4bb0-8e49-55d62a7aaab0","originalAuthorName":"刘青"},{"authorName":"李辉糯","id":"67d4988b-a111-4238-96a6-2cba92eecdd9","originalAuthorName":"李辉糯"}],"doi":"","fpage":"1274","id":"572fb89d-482e-4bec-8661-ff6619a2284b","issue":"z2","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"45e74112-56d2-4740-9d35-7b3e0ab5fa72","keyword":"TiO_2","originalKeyword":"TiO_2"},{"id":"81df3e5b-256e-4185-a19c-d52f36b6f81d","keyword":"复合溶胶","originalKeyword":"复合溶胶"},{"id":"4050da0c-8f15-4b15-b1a0-bd3e632c958d","keyword":"光催化","originalKeyword":"光催化"},{"id":"fa90a0c9-d1d6-4875-ba40-0e6dcc3cc7a0","keyword":"电泳","originalKeyword":"电泳"}],"language":"zh","publisherId":"xyjsclygc2009z2338","title":"复合溶胶电泳制备TiO_2涂层的研究","volume":"38","year":"2009"},{"abstractinfo":"本文主要研究TiO_2陶瓷晶粒半导化的途径及晶粒电阻率的测试方法。实验结果表明,通过掺入Nb_2O_5施主杂质可以有效地降低晶粒电阻率,并使TiO_2系陶瓷具有良好的压敏特性。","authors":[{"authorName":"武明堂","id":"b25bed79-fed5-402d-b46b-55c24f95fef7","originalAuthorName":"武明堂"},{"authorName":"李平","id":"73d47849-9d4b-43f5-87de-22e20b60249e","originalAuthorName":"李平"},{"authorName":"方湘怡","id":"91eb4d1c-03ea-414e-acb9-cb68f2c4a622","originalAuthorName":"方湘怡"}],"categoryName":"|","doi":"","fpage":"244","id":"3a172369-ca8d-4b03-bee4-39d4d7590c8a","issue":"3","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"ad5de9d4-0ab2-42eb-be94-38ba56569668","keyword":"压敏陶瓷","originalKeyword":"压敏陶瓷"},{"id":"7871d8da-1bd2-48b7-b6a7-49c71f3e481b","keyword":"grain semiconducting","originalKeyword":"grain semiconducting"},{"id":"980926bc-1b6c-42e7-8ece-1c83bd869776","keyword":"donor doping","originalKeyword":"donor doping"}],"language":"zh","publisherId":"1005-3093_1993_3_7","title":"TiO_2压敏陶瓷晶粒半导化","volume":"7","year":"1993"},{"abstractinfo":"用胶溶法合成了TiO_2超微粒子。研究了反应物浓度、胶溶剂用量、胶溶温度对胶溶过程的影响,以及表面活性剂DBS 的量与Ti 萃取率的关系。探讨了合成超微粒子TiO_2的最佳条件,分析了产品的特性。200℃热处理得到的产品为非晶型圆球状,粒度均匀,平均6.0nm,在许多有机溶剂中具有良好的分散性和透明性。550℃得到晶态锐钛矿型超微粒子TiO_2,粒度为8.5nm。700℃热处理得到金红石型TiO_2,粒度为33.2nm。","authors":[{"authorName":"王晓慧","id":"a6164d09-a9a5-4268-9969-2ec1cfeaac42","originalAuthorName":"王晓慧"},{"authorName":"王子忱","id":"0d074690-6a3e-4f94-b248-e6307a0de5ab","originalAuthorName":"王子忱"},{"authorName":"李熙","id":"3d043910-f562-4ecb-aafc-471b568a7d8b","originalAuthorName":"李熙"},{"authorName":"张丽华","id":"0c5d2596-f099-4c68-b000-f2d37d2e8c24","originalAuthorName":"张丽华"},{"authorName":"肖良质","id":"ef68e4be-5f8e-4f27-903e-3ed622b816ce","originalAuthorName":"肖良质"}],"categoryName":"|","doi":"","fpage":"533","id":"1d27ab36-9d98-4f94-9554-0ec30081d5e7","issue":"6","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"e9673682-c181-4c2b-88c0-534ea4a0109a","keyword":"超微粒子","originalKeyword":"超微粒子"},{"id":"405df38b-53d2-4237-a905-2163bc9ce01b","keyword":"TiO_2","originalKeyword":"TiO_2"},{"id":"e51af0e1-37f0-4656-a96b-fc0119b5b978","keyword":"colloidal chemical method","originalKeyword":"colloidal chemical method"}],"language":"zh","publisherId":"1005-3093_1992_6_10","title":"胶溶法合成 TiO_2超微粒子","volume":"6","year":"1992"},{"abstractinfo":"A study was carried out on the formation of Ti(C,N) during smelting vanadium-bearing titanomagnetite in blast furnace and the influence of MnO content on reduction of TiO_2 in the slag containing high titania. The reduction of TiO_2 is restricted by MnOpredominantly at the slag-metal interface and no more at the slag-coke one. The formation of Ti(C,N) is remarkably restricted by MnO in the slag when the MnO content is about 4% and the basicity from 0.6 to 1.2 in the slag. MnO may also retards the reduction of SiO_2 and accelerates the desulphidation under certain condition.","authors":[{"authorName":"DU Hegui","id":"69192fd5-974f-4cdb-bbe3-d977026c3546","originalAuthorName":"DU Hegui"},{"authorName":" ZOU Anhua","id":"0d3775d9-d6b3-4aec-80fc-e6640e0c5300","originalAuthorName":" ZOU Anhua"},{"authorName":" Northeast University of Technology","id":"50347e7b-176c-4a78-b36f-6f1084ecf351","originalAuthorName":" Northeast University of Technology"},{"authorName":" Shenyang","id":"38a33185-edd5-4d4b-89e1-c326a2b718a3","originalAuthorName":" Shenyang"},{"authorName":" China Du Hegui","id":"52ec3169-7e0e-4196-9030-4337936c0e60","originalAuthorName":" China Du Hegui"},{"authorName":" Professor","id":"2f6cb8e1-0509-4d86-a5bd-81585a4bd035","originalAuthorName":" Professor"},{"authorName":" Department of Ferrous Metallurgy","id":"11f1ad91-9fb2-49b2-b9eb-c6db814531e8","originalAuthorName":" Department of Ferrous Metallurgy"},{"authorName":" Northeast University of Technology","id":"5c27c872-df73-4ca7-8df0-31bfbd079e2a","originalAuthorName":" Northeast University of Technology"},{"authorName":" Shenyang 110006","id":"fcb7bb07-fc85-45d8-9b54-0e734885dd97","originalAuthorName":" Shenyang 110006"},{"authorName":" China","id":"3e795d65-2711-4d38-9fb4-e0525a6915df","originalAuthorName":" China"}],"categoryName":"|","doi":"","fpage":"1","id":"66657911-9175-43b4-af2a-86b7ae336b64","issue":"7","journal":{"abbrevTitle":"JSXBYWB","coverImgSrc":"journal/img/cover/amse.jpg","id":"49","issnPpub":"1006-7191","publisherId":"JSXBYWB","title":"金属学报(英文版)"},"keywords":[{"id":"500742f0-25c7-4c37-8252-dbc5c4b6e864","keyword":"blast furnace smelting","originalKeyword":"blast furnace smelting"},{"id":"94e8be16-4692-405b-b8c3-9d56ceef4e5d","keyword":"null","originalKeyword":"null"},{"id":"5eb00b6d-5de6-4310-a4da-8b63a8a8701f","keyword":"null","originalKeyword":"null"},{"id":"2701eee6-00d6-4f60-b2f2-eef7b70ba336","keyword":"null","originalKeyword":"null"},{"id":"b302b736-69bc-4da8-aafa-496993b3edcc","keyword":"null","originalKeyword":"null"}],"language":"en","publisherId":"1006-7191_1992_7_5","title":"INFLUENCE OF MnO ON REDUCTION OF TiO_2 IN BLAST FURNACE TYPE SLAG","volume":"5","year":"1992"},{"abstractinfo":"Using DTA (difFerential thermal analysis) measurement on nanostructured TiO2, we find two endothermic peaks on the DTA curve. From XRD (X-ray diffraction) analysis of the original nanostructured TiO2 and its heat-treated samples, we obtain the following results: the first endothermic peak corresponds to the desorption of physical or chemical absorption, the second one is related to the structural phase transition from brookite to anatase then to rutile, and this structural phase transition is beneficial to the grain growth of nanocrystal","authors":[{"authorName":"Xisheng YE","id":"558362a8-7b99-4fae-857b-aed32ea4ad3a","originalAuthorName":"Xisheng YE"},{"authorName":"Jian SHA and Zhengkuan JIAO(Dept. of Physics","id":"6db1488b-152e-44a2-a674-0bb391462ea1","originalAuthorName":"Jian SHA and Zhengkuan JIAO(Dept. of Physics"},{"authorName":" Zhejiang University","id":"41e3874e-e023-4a56-b778-7170957721bb","originalAuthorName":" Zhejiang University"},{"authorName":" Hangzhou 310027. China)Zifei PENG and Lide ZHANG(Institute of Solid State Physics","id":"1e848570-88a1-4974-9112-daff89ea864c","originalAuthorName":" Hangzhou 310027. China)Zifei PENG and Lide ZHANG(Institute of Solid State Physics"},{"authorName":" Chinese Academy of Sciences","id":"0a05a18f-8d5d-40ba-a1df-0fc3015e4ec5","originalAuthorName":" Chinese Academy of Sciences"},{"authorName":" Hefei 230031","id":"bfc0fcff-394b-456d-866e-79d767856ff9","originalAuthorName":" Hefei 230031"},{"authorName":" China)","id":"bff8a8f3-3d28-4c4e-aa8b-fe3b72e45559","originalAuthorName":" China)"}],"categoryName":"|","doi":"","fpage":"359","id":"bc620f2d-2171-4b71-a79e-06cf376df455","issue":"4","journal":{"abbrevTitle":"CLKXJSY","coverImgSrc":"journal/img/cover/JMST.jpg","id":"11","issnPpub":"1005-0302 ","publisherId":"CLKXJSY","title":"材料科学技术(英文)"},"keywords":[],"language":"en","publisherId":"1005-0302_1997_4_27","title":"Structural Phase Transition in Nanostructured TiO_2","volume":"13","year":"1997"},{"abstractinfo":"采用原子力显微镜(AFM)研究了TiO_2颗粒在不同介质条件下的聚集行为.结果表明,TiO_2的聚集存在两重行为即大颗粒间的弱聚集和晶粒间的强聚集.超声条件下,水中可以打开大颗粒间的弱聚集而不能打开强聚集,但是在同样条件下通过选择含有单供电子的分子如丁酮或三乙胺为介质,可以打开强聚集得到单个晶粒.结合介质的分子结构,提出了TiO_2的聚集源于表面不饱和配位原子的氢键及配位的作用机理.对理解底端向上策略组装纳米晶粒和避免纳米颗粒在应用中存在的聚集问题有重要意义.","authors":[{"authorName":"崔举庆","id":"4a0018bd-839b-44e3-95ce-b75ffe11c871","originalAuthorName":"崔举庆"},{"authorName":"张洋","id":"488978a3-208c-4b73-b2e7-052c1516d74a","originalAuthorName":"张洋"},{"authorName":"陆现彩","id":"04c3016a-9213-429e-853c-92f51f88500f","originalAuthorName":"陆现彩"},{"authorName":"胡柏星","id":"bdeb3550-529e-4a6f-949c-90012d99517e","originalAuthorName":"胡柏星"},{"authorName":"沈健","id":"4f6408f8-6845-45c9-ac5e-a53bfe53e0de","originalAuthorName":"沈健"}],"doi":"","fpage":"95","id":"9463f432-adc8-4769-b174-aa2485b3fa85","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":"17041d8d-9a0d-420e-a6bd-14b7cade5c56","keyword":"TiO_2","originalKeyword":"TiO_2"},{"id":"eaf6119b-ac53-4ab3-be0b-0ad7e0e02b7e","keyword":"聚集","originalKeyword":"聚集"},{"id":"fe410ff3-08fa-4d1e-8413-390670ada525","keyword":"原子力显微镜","originalKeyword":"原子力显微镜"},{"id":"b9c3dc07-4a7d-48ed-b515-f503cbbb2ecd","keyword":"配位","originalKeyword":"配位"}],"language":"zh","publisherId":"cldb200924027","title":"AFM研究TiO_2纳米颗粒的聚集行为","volume":"23","year":"2009"},{"abstractinfo":"以钛酸四丁酯为前驱物,乙酸为溶剂,用溶胶-凝胶法制备了磷钨酸修饰的纳米TiO_2薄膜(PW_(12)/TiO_2).通过FT-IR、UV-Vis、XRD、BET、SEM进行了表征.结果表明,磷钨酸修饰的纳米TiO_2具有锐钛矿晶型和较大的比表面积,磷钨酸在TiO_2中仍保持Keggin结构,并抑制了粒子烧结过程中的长大.研究了PW_(12)/TiO_2薄膜在对氯苯酚光降解中的催化活性.当磷钨酸与TiO_2的摩尔比为0.02:1,240℃焙烧,PW_(12)/TiO_2薄膜的光催化降解反应遵循L-H机理,一级反应速率常数为0.016min~(-1).磷钨酸与TiO_2在光催化反应中有明显的协同作用.","authors":[{"authorName":"刘士荣","id":"64cc46fb-4ea1-43fb-8d64-2524aa868182","originalAuthorName":"刘士荣"},{"authorName":"毛明富","id":"d9ab54c3-45fb-4576-834d-1119a3d193ec","originalAuthorName":"毛明富"},{"authorName":"倪忠斌","id":"7f14a0ad-241e-411d-9d12-5757d61433af","originalAuthorName":"倪忠斌"},{"authorName":"陈明清","id":"6b0cef72-fdd1-4020-976c-f1c188ce4127","originalAuthorName":"陈明清"}],"doi":"","fpage":"346","id":"cc0b531c-7bc7-4d39-809d-c5bc73795e80","issue":"2","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"9c455498-7d19-4daa-9e8f-b77c2bf9a81f","keyword":"溶胶-凝胶法","originalKeyword":"溶胶-凝胶法"},{"id":"66a881ca-70ba-48a8-b7a6-c25f773aad5f","keyword":"光催化","originalKeyword":"光催化"},{"id":"0e1858c0-636e-44ba-8b7e-f00f6448fdb6","keyword":"TiO_2薄膜","originalKeyword":"TiO_2薄膜"},{"id":"8d8bc5d2-499f-4e81-864f-70641eeb9254","keyword":"磷钨酸","originalKeyword":"磷钨酸"}],"language":"zh","publisherId":"gncl201002047","title":"磷钨酸修饰的纳米TiO_2薄膜的制备及光催化性能","volume":"41","year":"2010"},{"abstractinfo":"以钛酸四丁酯以及六水合硝酸铈为原料,采用溶胶-凝胶法制备了纯的和Ce掺杂的TiO_2粉体,研究了不同掺杂量对TiO_2晶形转变产生的影响.结果表明,Ce离子的掺杂阻碍了TiO_2粒子由锐钛矿型向金红石型的转变,拓宽了锐钛矿型TiO_2的使用温度范围;TiO_2晶粒的尺寸的变化是随着焙烧温度的升高逐渐长大,随掺杂量的增加逐渐减小.TiO_2粉体粒子在锐钛矿型状态下,颗粒分散较为均匀,并且无明显团聚现象.","authors":[{"authorName":"朱振峰","id":"ddfcdec1-15e8-4787-a75f-c7a2d02717d5","originalAuthorName":"朱振峰"},{"authorName":"张建权","id":"94935cb2-01d9-4c05-abfd-03cb1909c548","originalAuthorName":"张建权"},{"authorName":"李军奇","id":"314ea952-0d87-4c27-9bec-f2bd8d82c3ff","originalAuthorName":"李军奇"},{"authorName":"杨冬","id":"9bce90b6-4cdd-4892-b6c6-ef186bdbcc77","originalAuthorName":"杨冬"},{"authorName":"孙洪军","id":"6dd82ac0-6ba6-426c-a31f-9f40a5b1f3ca","originalAuthorName":"孙洪军"},{"authorName":"郭丽英","id":"50556d86-1245-4bb9-8af4-69a22ed83171","originalAuthorName":"郭丽英"}],"doi":"","fpage":"214","id":"2275528a-3003-44e0-8a0a-61ebcc4204f1","issue":"2","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"a1093f98-3c11-48c6-b32e-cc5920c7c110","keyword":"掺杂","originalKeyword":"掺杂"},{"id":"2fb38935-7bf6-4856-acf0-e015fd9bd604","keyword":"锐钛矿","originalKeyword":"锐钛矿"},{"id":"e9fdd702-9a35-464b-a2f7-f43c15397aa5","keyword":"金红石","originalKeyword":"金红石"},{"id":"6f60df78-a555-4093-bcac-69491b9f7679","keyword":"晶型转变","originalKeyword":"晶型转变"},{"id":"3bf745f0-cf43-4309-89f3-3b2b548826f9","keyword":"晶粒尺寸","originalKeyword":"晶粒尺寸"}],"language":"zh","publisherId":"gncl201002010","title":"Ce掺杂对TiO_2晶型转变的影响","volume":"41","year":"2010"},{"abstractinfo":"本文报道了用YAG 激光器在大气中加热气化制取TiO_2超细粉末的实验结果。透射电子显微镜观察表明,粉末颗粒均匀性较好,直径为6—20nm,主要为锐钛矿结构。本文对颗粒大小和结构等与所用激光束能量密度的关系进行了实验。研究表明,激光加热气化法是制备超细金属氧化物粉末的一种可行方法。","authors":[{"authorName":"沈辉","id":"ba558593-1776-4245-8507-652bf07788f7","originalAuthorName":"沈辉"},{"authorName":"朱勇","id":"82d074cf-d607-4e70-96cb-d1fbfb4e1818","originalAuthorName":"朱勇"},{"authorName":"李宗全","id":"55c32b92-7702-4176-8219-9074fff56009","originalAuthorName":"李宗全"},{"authorName":"吴希俊","id":"22e678ae-352a-4bc3-aca2-5ea490ca6196","originalAuthorName":"吴希俊"},{"authorName":"刘佩田","id":"8ac737f9-e88f-48e8-99ac-c2849ff2af9e","originalAuthorName":"刘佩田"},{"authorName":"王玉平","id":"063a50e3-8ce5-49f7-87ec-3be83c0591d2","originalAuthorName":"王玉平"}],"categoryName":"|","doi":"","fpage":"447","id":"3b874be2-f646-439a-b719-3a7f824fa772","issue":"5","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"a3868fd7-9cf4-44fc-9b06-c92b44e9a1f7","keyword":"超细粉","originalKeyword":"超细粉"},{"id":"4501c713-3108-4abf-80cd-d86006d6fb38","keyword":"TEM","originalKeyword":"TEM"},{"id":"ec8cc7e5-9855-4137-883b-1558b963f67c","keyword":"energy density","originalKeyword":"energy density"}],"language":"zh","publisherId":"1005-3093_1990_5_4","title":"激光加热气化法制备TiO_2超细粉","volume":"4","year":"1990"}],"totalpage":8012,"totalrecord":80113}