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  4. Sm掺杂对Ca3Co4O9+δ基化合物高温热电性能的影响

无机材料学报, 2004, 19(6): 1329-1333. doi: 10.3321/j.issn:1000-324X.2004.06.017

Sm掺杂对Ca3Co4O9+δ基化合物高温热电性能的影响

王东立 1, , 陈立东 2, , 柏胜强 {"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"介绍了超声电催化降解废水中苯酚及用Pd、Ru制作催化电极的方法,并用SEM和XPS测试了电极表面结构,研究了pH值、电压、处理时间、电解质等因素对苯酚降解率、COD(化学需氧量)去除率的影响.实验结果表明:以Pd、Ru为催化材料,采用超声电催化降解,苯酚降解率可达100%,COD去除率>90%.","authors":[{"authorName":"张静","id":"911caf8f-14f9-447b-959a-b4827c8c6d1a","originalAuthorName":"张静"},{"authorName":"杨庆良","id":"304f7169-7133-48ba-96c8-fa0f4d92d3ad","originalAuthorName":"杨庆良"},{"authorName":"王艳","id":"5b82409b-0369-4e31-b983-a8faf76b1fa1","originalAuthorName":"王艳"},{"authorName":"尹臣","id":"1fec6b05-568b-4386-b45a-8b969733ffa9","originalAuthorName":"尹臣"},{"authorName":"冯易君","id":"94213b76-ebc2-490d-a6ae-775521af9899","originalAuthorName":"冯易君"}],"doi":"10.3969/j.issn.1004-0676.2004.01.005","fpage":"24","id":"421f68c0-90fb-47f9-bd60-0234bd1c6594","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"be1c84b3-f2e6-4e5e-927a-30bf6f4c948c","keyword":"电化学工程","originalKeyword":"电化学工程"},{"id":"9ace111e-2243-4674-b992-8ef1269c46c1","keyword":"钯","originalKeyword":"钯"},{"id":"0cd75fac-76ca-4cb3-abfd-805824855159","keyword":"钌","originalKeyword":"钌"},{"id":"44933532-f025-4905-9e28-c259e283a63c","keyword":"超声","originalKeyword":"超声"},{"id":"e46cac0e-3808-4bfa-a3dc-15548c263a72","keyword":"电催化","originalKeyword":"电催化"},{"id":"c8525300-ecbc-4b6c-9631-c58baa06ca12","keyword":"苯酚","originalKeyword":"苯酚"},{"id":"bce1efe0-fab5-42d2-86c5-c2a9d9173ae3","keyword":"降解","originalKeyword":"降解"}],"language":"zh","publisherId":"gjs200401005","title":"Pd、Ru / Ti催化电极超声电催化降解废水中苯酚的研究","volume":"25","year":"2004"},{"abstractinfo":"在不使用还原剂和乳化剂的条件下,利用超声辐射引发无皂乳液聚合双原位合成纳米银/乙酰乙酸基甲基丙烯酸乙酯和苯乙烯共聚物[P(AAEM-St)]复合材料,并通过UV-Vis、XRD、TEM、HRTEM和TG等分析方法对其进行表征.结果表明:纳米银粒子具有面心立方结构和球形或近球形形貌,且较均匀地分散在聚合物基体中;纳米银粒子的存在降低了基体P(AAEM-St)的热学性能.","authors":[{"authorName":"高圣涛","id":"eb0f2d02-8e78-4122-b3c6-8540e30b1f31","originalAuthorName":"高圣涛"},{"authorName":"邢宏龙","id":"ae220b44-9098-4b29-8bc3-06a683c85cff","originalAuthorName":"邢宏龙"},{"authorName":"徐国财","id":"f2c90307-dd61-4ca6-bbba-ffe7be78e5fa","originalAuthorName":"徐国财"}],"doi":"10.11896/j.issn.1005-023X.2015.10.014","fpage":"61","id":"0d3ecc1f-3430-4ebc-b2d6-ed717570754a","issue":"10","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"c6cb80f7-aaec-4554-a607-cbccc9426f96","keyword":"纳米银","originalKeyword":"纳米银"},{"id":"5d0307e7-b2ab-4a23-9de3-c8aee1d4b8f8","keyword":"乙酰乙酸基甲基丙烯酸乙酯","originalKeyword":"乙酰乙酸基甲基丙烯酸乙酯"},{"id":"e25bf3c3-89d5-4215-9c7d-4d4547e4872a","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"f8502a35-b676-4f25-a67d-7270f18f4883","keyword":"超声","originalKeyword":"超声"},{"id":"9c806c5e-8182-4ad8-8eff-3feef3794490","keyword":"原位","originalKeyword":"原位"},{"id":"3813179b-d59f-45ea-9186-136d113b402f","keyword":"苯乙烯","originalKeyword":"苯乙烯"},{"id":"fa0363b9-c64f-4a74-9f1c-b7bdbab0ea8a","keyword":"热学性能","originalKeyword":"热学性能"}],"language":"zh","publisherId":"cldb201510014","title":"超声原位制备纳米银/P(AAEM-St)复合材料及其热学性能","volume":"29","year":"2015"},{"abstractinfo":"以钛酸四丁酯为钛源,活性炭(AC)为载体,采用溶胶-凝胶法合成TiO2/AC复合体,利用TGA—DSC、SEM、XRD、DRS(漫反射光谱)及FTIR对复合体表面结构、光谱特征、晶体结构进行表征分析,并通过AAS(原子吸收分光光度计)测定铬(Ⅵ)、铜(Ⅱ)离子浓度以探讨超声-TiO2光催化还原去除率。研究表明:溶胶-凝胶法制备的TiO2/AC在290℃处由板钛矿型向锐钛矿型转变,500℃下焙烧催化活性最高;TiO2/AC复合体分散性能好、团聚尺寸低、比表面积大,其接触界面处有C-O-Ti键生成;经光催化动力学研究发现,光催化吸附还原机制符合一级动力学方程ln(c0/c)=kt及Langmuir—Hinshelwood吸附理论。对比无超声光催化,超声-光催化技术对铬(Ⅵ)、铜(Ⅱ)的还原去除率分别提高了39.32%和52.95%;催化剂循环使用3次后,超声-光催化还原铬(Ⅵ)、铜(Ⅱ)的去除率仍能达到70.61%和75.30%。","authors":[{"authorName":"夏畅斌","id":"564f2652-c2a9-4c0a-882e-a42b6ed577fa","originalAuthorName":"夏畅斌"},{"authorName":"周付建","id":"a4f89c78-6a78-4edb-a7be-aca5c33c2aa9","originalAuthorName":"周付建"},{"authorName":"陈圆","id":"ad4fb92a-60ba-466a-a77c-f4e518a6e39e","originalAuthorName":"陈圆"},{"authorName":"张玲","id":"972e8c22-4762-4429-bd1e-90bbbe60a279","originalAuthorName":"张玲"}],"doi":"","fpage":"102","id":"2d6f697d-a3d3-4ddf-ab18-9067098bb7fb","issue":"6","journal":{"abbrevTitle":"FHCLXB","coverImgSrc":"journal/img/cover/FHCLXB.jpg","id":"26","issnPpub":"1000-3851","publisherId":"FHCLXB","title":"复合材料学报"},"keywords":[{"id":"8d4e6010-cd9d-4164-a200-d287e7380e23","keyword":"溶胶-凝胶法","originalKeyword":"溶胶-凝胶法"},{"id":"f6d7d78a-c365-4c41-a78c-a70ba3ef6c2a","keyword":"TiO2","originalKeyword":"TiO2"},{"id":"932405db-5502-418a-8360-9609e5eee372","keyword":"活性炭","originalKeyword":"活性炭"},{"id":"5a6b17f6-9e86-4d64-8bd0-f3bc3867f1db","keyword":"超声","originalKeyword":"超声"},{"id":"9df25151-dc3a-48dc-8763-123885570ad5","keyword":"催化还原","originalKeyword":"催化还原"},{"id":"848d80ae-628f-45a4-b37e-f083d169f765","keyword":"铬(Ⅵ)","originalKeyword":"铬(Ⅵ)"},{"id":"f1b666b6-f9cc-488f-83e0-ebf4b2055d5b","keyword":"铜(Ⅱ)","originalKeyword":"铜(Ⅱ)"}],"language":"zh","publisherId":"fhclxb201206018","title":"溶胶-凝胶法合成TiO2/活性炭光催化剂及联用超声技术还原铬(Ⅵ)和铜(Ⅱ)废水","volume":"29","year":"2012"},{"abstractinfo":"在分析自动铺带切割技术的基础上,指出了自动铺带超声切割技术的优势;基于自动铺带工况分析,对超声切割系统的性能进行了实验研究,尤其是对其稳定性进行了分析研究;通过超声切割系统可靠性实验,获得了满足自动铺带极限工况需求的超声切割系统控制方案.","authors":[{"authorName":"张建宝","id":"0e7d971d-9286-4129-944a-a7a9ed3eda00","originalAuthorName":"张建宝"},{"authorName":"肖军","id":"2ad6f610-7fd2-49ae-8b55-55367a61e0c0","originalAuthorName":"肖军"},{"authorName":"文立伟","id":"77344641-bfa4-4d30-a757-cabb275cac52","originalAuthorName":"文立伟"},{"authorName":"齐俊伟","id":"144894f1-190e-4c86-8672-69f2c162046b","originalAuthorName":"齐俊伟"},{"authorName":"刘伟","id":"dedb2a9c-4e2a-49b7-a777-4adb9759cadb","originalAuthorName":"刘伟"}],"doi":"10.3969/j.issn.1007-2330.2011.02.025","fpage":"98","id":"8659daa2-43eb-4366-ac15-25db35f9168c","issue":"2","journal":{"abbrevTitle":"YHCLGY","coverImgSrc":"journal/img/cover/YHCLGY.jpg","id":"77","issnPpub":"1007-2330","publisherId":"YHCLGY","title":"宇航材料工艺 "},"keywords":[{"id":"219b0c59-5078-491b-9a5b-9a1c69dcb01f","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"60af7d12-5c05-4987-b3d6-0b4944d76569","keyword":"自动铺带","originalKeyword":"自动铺带"},{"id":"f5deca70-478d-44a1-9f59-cb2b11b32211","keyword":"超声","originalKeyword":"超声"},{"id":"34f5f0aa-3a6d-44f9-bdf1-dbf590bc6fc2","keyword":"切割","originalKeyword":"切割"},{"id":"3c417eb5-31c8-46ba-99bd-646d98403613","keyword":"频率","originalKeyword":"频率"}],"language":"zh","publisherId":"yhclgy201102025","title":"自动铺带超声切割技术研究","volume":"41","year":"2011"},{"abstractinfo":"采用亚共晶ZL101铝合金,研究了不同超声波导入条件下半固态浆料组织演化过程.结果表明,导入超声波时的温度对浆料初生晶粒的形貌影响明显.从640℃开始导入超声波,初生晶粒保持以近球状形式生长;熔体降温至610℃(固相率达0.1后)再导入超声波,初生晶粒逐渐由枝晶向非枝晶转化,120 s后初生晶粒粒状化;冷却至600℃(固相率近0.25后)再导入超声波,最终组织为粒状晶和枝晶混合组织.最后对超声场中半固态浆料组织演化机理进行了分析讨论.","authors":[{"authorName":"赵君文","id":"8e2bdd60-11d9-4160-8b0c-cad3144cb984","originalAuthorName":"赵君文"},{"authorName":"吴树森","id":"5abcf388-55c9-41ba-b2b9-be8cd9347aea","originalAuthorName":"吴树森"},{"authorName":"万里","id":"ca1f4a3a-f83e-4ce1-a2d5-5514c55e4780","originalAuthorName":"万里"},{"authorName":"陈启华","id":"21eb0368-7b6e-43c8-9548-f4d8190a019d","originalAuthorName":"陈启华"},{"authorName":"安萍","id":"7e631913-6987-489c-a01b-6f1e9c4a40e3","originalAuthorName":"安萍"}],"doi":"10.3321/j.issn:0412-1961.2009.03.010","fpage":"314","id":"12553cce-fb8d-486b-9932-773b4f922c4e","issue":"3","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"9913ae5a-c956-41ed-9121-d7a991177e9a","keyword":"超声","originalKeyword":"超声"},{"id":"3515cf86-e69c-4e33-8997-2db751b6b242","keyword":"铝合金","originalKeyword":"铝合金"},{"id":"a449d59b-27ac-4eda-b1bb-6f0ed7f96831","keyword":"半同态浆料","originalKeyword":"半同态浆料"},{"id":"5d3661ae-b12c-408a-a8ef-f3687bb4e4ce","keyword":"非枝晶组织","originalKeyword":"非枝晶组织"},{"id":"42c94448-e7c1-4764-ae7d-006cfbd0db40","keyword":"演化机理","originalKeyword":"演化机理"}],"language":"zh","publisherId":"jsxb200903010","title":"超声场中金属半固态浆料组织的演化","volume":"45","year":"2009"},{"abstractinfo":"基于超声-回弹综合法和钻芯法检测结构混凝土强度的原理及优缺点分析,对采用超声-回弹综合法和钻芯取样法联合测强的方法:超声-回弹-钻芯综合法进行了理论研究,并结合统计理论给出了其中相关参数的确定方法.工程实例证明,该测试方法费用合理、损伤较小,且结果可靠、精度高、可在桥梁、基础等工程中推广应用.","authors":[{"authorName":"张竞男","id":"0e03cb5e-b8aa-4601-bab2-cd50ed2064ee","originalAuthorName":"张竞男"},{"authorName":"王浩","id":"4544ca96-a023-4566-a40e-01f808b3bad7","originalAuthorName":"王浩"},{"authorName":"乔建东","id":"759a32fa-4c83-4025-895c-4975de066c4a","originalAuthorName":"乔建东"}],"doi":"10.3969/j.issn.1673-2812.2003.06.029","fpage":"886","id":"458056f4-c0e0-41d5-8da9-bb88e61c3b35","issue":"6","journal":{"abbrevTitle":"CLKXYGCXB","coverImgSrc":"journal/img/cover/CLKXYGCXB.jpg","id":"13","issnPpub":"1673-2812","publisherId":"CLKXYGCXB","title":"材料科学与工程学报"},"keywords":[{"id":"53f2ae92-8f0a-42b0-a02a-a71ed2651f16","keyword":"超声","originalKeyword":"超声"},{"id":"970a28bb-c9e9-4489-bb17-e5c770b80761","keyword":"回弹","originalKeyword":"回弹"},{"id":"afc29f25-d651-42a6-8ff5-5f668907a532","keyword":"钻芯","originalKeyword":"钻芯"},{"id":"b9d165b1-66f1-4f9c-824e-c28087cc9269","keyword":"检测","originalKeyword":"检测"},{"id":"10fa171b-caaf-43cc-88b7-22b6adf43435","keyword":"混凝土强度","originalKeyword":"混凝土强度"}],"language":"zh","publisherId":"clkxygc200306029","title":"超声-回弹-钻芯综合法测强初探","volume":"21","year":"2003"},{"abstractinfo":"利用流体力学软件Fluent及动网格技术,以多相流模型中的混合物模型(Mixture)为基础,并耦合空化模型,对不同功率超声作用下7050铝合金熔体所产生的空化效应及铸造组织进行了数值模拟,并通过超声铸造试验进行了验证.结果表明:随着超声时间的延长,熔体中的空化区域逐渐扩大,并逐步向变幅杆端面中心集中;超声功率越大,空化强度越高,对铸态组织的细化效果越明显;模拟结果与试验结果基本吻合.","authors":[{"authorName":"张立华","id":"dde1f0f1-f0d7-44e3-8925-f4f77a47c504","originalAuthorName":"张立华"},{"authorName":"朱彪","id":"08c5c6e7-39f4-4128-a899-a8792e9121d9","originalAuthorName":"朱彪"}],"doi":"","fpage":"85","id":"022a189d-2308-4c5d-afee-d383efa2a650","issue":"1","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"d38f944e-4f34-4cc5-a8c6-47e18eb66bd5","keyword":"7050铝合金","originalKeyword":"7050铝合金"},{"id":"e54f5113-d0e3-43ff-9aa7-5c84dd2d191f","keyword":"超声","originalKeyword":"超声"},{"id":"5b74acd7-1276-4a68-bc22-04f51eb21d15","keyword":"铸造","originalKeyword":"铸造"},{"id":"03a23efb-fe83-4598-bfcb-5c8e3736bbfe","keyword":"空化效应","originalKeyword":"空化效应"},{"id":"edfdbc32-5a14-4e3c-a06f-19a097808c97","keyword":"数值模拟","originalKeyword":"数值模拟"}],"language":"zh","publisherId":"jxgccl201301022","title":"7050铝合金施加超声铸造的数值模拟","volume":"37","year":"2013"},{"abstractinfo":"介绍超声-电解复合微细加工原理,分析微细阴极工作特点及制作难点,提出微细组合放电加工制作阴极的方法;利用精密电加工设备,通过\"联动复合进给\"、\"内、外面转换\"及\"平动与拷贝\"式微细放电,制作多种截形的微细阴极;进行超声-电解复合微细加工试验,阴极可满足使用要求.","authors":[{"authorName":"朱永伟","id":"0e4aa195-ba5e-4347-9e5e-6295f60f0b51","originalAuthorName":"朱永伟"},{"authorName":"徐玉明","id":"372c9244-5e4b-4d31-a8d3-091b80d0c85f","originalAuthorName":"徐玉明"},{"authorName":"齐金华","id":"73e094f6-57c1-4d1a-a0c6-7a1c49d11f73","originalAuthorName":"齐金华"}],"doi":"10.3969/j.issn.1007-2330.2007.04.014","fpage":"46","id":"a8199ea9-8e4c-492f-bf4c-7829cf1f9c48","issue":"4","journal":{"abbrevTitle":"YHCLGY","coverImgSrc":"journal/img/cover/YHCLGY.jpg","id":"77","issnPpub":"1007-2330","publisherId":"YHCLGY","title":"宇航材料工艺 "},"keywords":[{"id":"f7cb8a86-2a1e-4684-8bb1-53299bca65f2","keyword":"超声","originalKeyword":"超声"},{"id":"a1a3cf82-3ef3-490b-9be0-722f67c52409","keyword":"电解","originalKeyword":"电解"},{"id":"4036a873-5318-498e-b0c9-d2fc8b09b0ae","keyword":"复合微细加工","originalKeyword":"复合微细加工"},{"id":"996810c3-5dce-4c84-9601-386d762a7e10","keyword":"微细阴极制作","originalKeyword":"微细阴极制作"},{"id":"75cd5712-c778-4552-8325-408b808587ce","keyword":"微细放电","originalKeyword":"微细放电"}],"language":"zh","publisherId":"yhclgy200704014","title":"超声-电解复合微细加工阴极制作工艺研究","volume":"37","year":"2007"},{"abstractinfo":"以氢氧化铜为前驱体,在超声和微波作用下制备纳米氧化铜.借助透射电镜(TEM)、X射线衍射(XRD)、粒度分析等手段,研究了超声、分散剂、微波等制备条件的影响.结果表明:采用该法可以制备粒径小(15 nm)、分散良好的纳米氧化铜粉体;超声可使前驱体Cu(OH)2转变为CuO,并粉碎颗粒间形成的团聚;分散剂通过表面修饰抑制颗粒的团聚;微波加热促进了前驱体的转化,并抑制颗粒的长大.","authors":[{"authorName":"张灿英","id":"ae029620-aaeb-4014-96ba-090362abd33a","originalAuthorName":"张灿英"},{"authorName":"朱海涛","id":"b9c07ec1-7dd3-4a55-9f8d-520f87886449","originalAuthorName":"朱海涛"},{"authorName":"王继鑫","id":"9f0d6b05-89c0-492e-84b1-e2f6458210c0","originalAuthorName":"王继鑫"},{"authorName":"常尚波","id":"f2ba7f43-da3d-4faf-a410-a4046ad63867","originalAuthorName":"常尚波"}],"doi":"","fpage":"88","id":"2ce78811-c402-423c-b0e1-17042e40af13","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":"77ebabd7-6839-4286-b1b6-8ac59d0b60f6","keyword":"纳米氧化铜","originalKeyword":"纳米氧化铜"},{"id":"70b702b4-1319-4aa5-a473-719023031df0","keyword":"超声","originalKeyword":"超声"},{"id":"b67969bb-9b5c-4f16-828f-98dcf1d56fee","keyword":"微波","originalKeyword":"微波"},{"id":"ee82e328-aff8-4bc3-8771-f87758ddf4d7","keyword":"制备","originalKeyword":"制备"}],"language":"zh","publisherId":"xyjsclygc2007z2026","title":"超声和微波作用下制备纳米氧化铜","volume":"36","year":"2007"},{"abstractinfo":"本文以Na2S·9H2O和SnCl2·2H2O为反应源物,采用超声辅助液相合成法制备SnS纳米粉.用XRD、TEM和TED等方法对粉体样品进行了表征,检测结果表明粉体样品为具有斜方晶体结构的SnS纳米微粒,其平均晶粒尺寸约为15~25nm.论文还简要讨论了超声波对SnS纳米粉形成的影响,分析认为超声辅助手段的加入有利于多晶SnS纳米粉的形成.","authors":[{"authorName":"李红生","id":"a708d703-9d72-4582-9a02-ae7c42245657","originalAuthorName":"李红生"},{"authorName":"雷天民","id":"ccd6caaa-4b71-4112-a1cd-3b92baee09d3","originalAuthorName":"雷天民"},{"authorName":"冯谦","id":"fd4f1be3-5f5b-4158-aa6c-b0bd7cf63b76","originalAuthorName":"冯谦"},{"authorName":"郑春蕊","id":"f0370225-9720-4927-9516-af4c9192dd86","originalAuthorName":"郑春蕊"},{"authorName":"葛莉玲","id":"e7aa60a6-fc9e-473d-ab15-a2825a125d5f","originalAuthorName":"葛莉玲"},{"authorName":"刘守智","id":"60670006-0376-4144-970e-e09f9c27c9a5","originalAuthorName":"刘守智"}],"doi":"10.3969/j.issn.1000-985X.2005.02.026","fpage":"319","id":"f6957737-037c-4cf4-a6a8-90c6758450ee","issue":"2","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":"9c242b68-7875-4cbc-aa87-d0d8a0a98514","keyword":"多晶SnS","originalKeyword":"多晶SnS"},{"id":"e0de10e0-9299-4254-9dda-c628dcbb6b86","keyword":"纳米粉","originalKeyword":"纳米粉"},{"id":"313d4bcb-f4f8-4959-b54d-0b762c40690c","keyword":"超声","originalKeyword":"超声"},{"id":"cd3c6709-700c-4ec1-b976-6398f0fc3602","keyword":"液相合成","originalKeyword":"液相合成"}],"language":"zh","publisherId":"rgjtxb98200502026","title":"超声辅助液相合成多晶SnS纳米粉","volume":"34","year":"2005"}],"totalpage":295,"totalrecord":2946}