{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"阐述了两种真空法制备铜铟镓硒(CIGS)薄膜的工艺原理和工艺过程,比较和分析了两工艺的优缺点;介绍了溅射靶材的熔融铸造法和粉末冶金法,列举了靶材制备中所需的温度、压强、保温时间等参数.最后分析认为,用均匀细小的黄铜矿相CIGS粉末压制烧结成四元靶材,经溅射成膜后退火处理,可制备出优异的CIGS薄膜,具有更广阔的应用前景.","authors":[{"authorName":"张冷","id":"05fbb1b9-0d98-44f3-a820-10849ac91c79","originalAuthorName":"张冷"},{"authorName":"张维佳","id":"7e41eb16-f079-4bd5-8bd7-382f31e0732e","originalAuthorName":"张维佳"},{"authorName":"宋登元","id":"fd11c30b-954e-4493-a0b9-d470b9a1d985","originalAuthorName":"宋登元"},{"authorName":"张辉","id":"98deab2c-71e8-4d4c-a0d0-88120f6f5331","originalAuthorName":"张辉"},{"authorName":"张雷","id":"68acc3ab-fe10-42a8-a0aa-7c3c86147577","originalAuthorName":"张雷"},{"authorName":"马强","id":"cc9fd41a-3839-4324-a0a3-c280f278f4ce","originalAuthorName":"马强"},{"authorName":"刘嘉","id":"c2391391-28b9-4beb-aaff-4a78fe415af9","originalAuthorName":"刘嘉"},{"authorName":"<span style=\"color:red\">吴</span><span style=\"color:red\">然</span><span style=\"color:red\">嵩</span>","id":"fc5869c0-e0e9-4357-83dd-e5d52240bbe8","originalAuthorName":"吴然嵩"},{"authorName":"马晓波","id":"e95f1e1a-b23b-41f8-bf6c-8191de33f7cc","originalAuthorName":"马晓波"}],"doi":"10.3969/j.issn.1001-9731.2013.14.003","fpage":"1990","id":"04dd899f-3a3d-49a7-82dc-d0c64dd00e61","issue":"14","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"039de73b-bffb-4c40-90a0-156b018e45f4","keyword":"CIGS","originalKeyword":"CIGS"},{"id":"ce3bfdb1-8dea-4f15-8969-307ceac4a793","keyword":"真空","originalKeyword":"真空"},{"id":"80606c48-6c99-4d16-b252-f9e73722e835","keyword":"薄膜","originalKeyword":"薄膜"},{"id":"220b7ba7-608c-461b-b7ea-f190711af325","keyword":"溅射靶","originalKeyword":"溅射靶"}],"language":"zh","publisherId":"gncl201314003","title":"铜铟镓硒薄膜的真空制备工艺及靶材研究现状","volume":"44","year":"2013"},{"abstractinfo":"采用射频等离子体增强化学气相沉积法,制备了掺硼和掺磷的氢化纳米硅薄膜(nc-Si∶H),并将其应用于纳米硅薄膜类叠层太阳电池中.分析了薄膜样品的光学性能及表面形貌,结果表明:P型掺硼纳米硅薄膜的光学带隙为2.189 eV,电导率为8.01 S/cm,霍尔迁移率为0.521 cm2/(V· S),载流子浓度为9.61×1019/cm3；N型掺磷纳米硅薄膜的光学带隙为1.994 eV,电导率为1.93 S/cm,霍尔迁移率为1.694 cm2/(V·S),载流子浓度为7.113×1018/cm3；两者的晶粒尺寸都在3 ～5 nm之间,晶态比都在35％ ～45％之间,并且颗粒沉积紧密,大小比较均匀.制备了大小为20 mm×20 mm,结构为Al/AZO/p-nc-Si∶H/i-nc-Si∶H/n-nc-Si∶H/p-nc-Si∶H/i-nc-Si∶H/n-c-Si/Al背电极的纳米硅薄膜类叠层太阳电池,通过I-Ⅴ曲线测试,其Voc达到544.3 mV,Isc达到85.6mA,填充因子为65.7％.","authors":[{"authorName":"孙月峰","id":"41bdd007-aa73-4f41-a971-9a1deab7e496","originalAuthorName":"孙月峰"},{"authorName":"张维佳","id":"ce2b5e4e-5ee3-4044-90ba-2ad09ba236ae","originalAuthorName":"张维佳"},{"authorName":"宋登元","id":"2a6784b8-8e0a-4b20-848a-d9770f50cd87","originalAuthorName":"宋登元"},{"authorName":"刘嘉","id":"1fd55eeb-4efe-4c58-8e16-9a6af441bd2b","originalAuthorName":"刘嘉"},{"authorName":"张雷","id":"91e44a0a-0cc7-413f-ba52-b45bb7241a89","originalAuthorName":"张雷"},{"authorName":"马强","id":"83c3e4b3-b2a8-43fc-9c23-b2c6c2149707","originalAuthorName":"马强"},{"authorName":"<span style=\"color:red\">吴</span><span style=\"color:red\">然</span><span style=\"color:red\">嵩</span>","id":"bed09623-c148-4aff-afc9-4ac7cfb84a4f","originalAuthorName":"吴然嵩"},{"authorName":"张冷","id":"29d53186-f9e3-4536-b900-2eb39d2fa844","originalAuthorName":"张冷"}],"doi":"","fpage":"5","id":"d1c5020a-2876-4801-a7a9-749de5d4b9ee","issue":"3","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术   "},"keywords":[{"id":"92a1bacd-38bf-44b9-87f2-e63e3bb199c4","keyword":"RF-PECVD","originalKeyword":"RF-PECVD"},{"id":"0e1b354c-e8d0-4a76-9cdb-39a5908ab8e6","keyword":"掺硼","originalKeyword":"掺硼"},{"id":"89512bdf-7c33-4cdf-b861-65f3778cb5df","keyword":"掺磷","originalKeyword":"掺磷"},{"id":"377951cb-ded2-4610-8b5a-393d8f73db5a","keyword":"纳米硅薄膜","originalKeyword":"纳米硅薄膜"},{"id":"3ec745d9-db6c-40a5-8cb4-77deed820f9c","keyword":"类叠层太阳电池","originalKeyword":"类叠层太阳电池"}],"language":"zh","publisherId":"bmjs201303002","title":"掺硼和掺磷的氢化纳米硅薄膜及其应用于类叠层太阳电池的研究","volume":"42","year":"2013"},{"abstractinfo":"根据《<span style=\"color:red\">吴</span>仲华奖励基金章程》（<span style=\"color:red\">吴</span>奖[2008]01号），经各高等院校、中国工程热物理学会和中国科学院工程热物理研究所认真评选和推荐，<span style=\"color:red\">吴</span>仲华奖励基金理事会评审并确定授予青年学者戴巍、罗坤、唐桂华“<span style=\"color:red\">吴</span>仲华优秀青年学者奖”，授予程雪涛等10位同学“<span style=\"color:red\">吴</span>仲华优秀学生奖”。","authors":[],"doi":"","fpage":"0003","id":"6f0ba2a8-05d9-4d8a-8139-230c2fa7e582","issue":"2","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报   "},"keywords":[{"id":"1d50df37-d3bd-4afd-b0bc-96fcef367f18","keyword":"基金","originalKeyword":"基金"},{"id":"96f9e366-8b92-4e45-a8dd-4cf57f7c7890","keyword":"奖励","originalKeyword":"奖励"},{"id":"ddda9152-b951-4a3a-a74b-df9c31c71fdd","keyword":"评选","originalKeyword":"评选"},{"id":"b457f4f4-07c3-4491-8696-b0fe00c86d52","keyword":"获奖者","originalKeyword":"获奖者"},{"id":"ba4efb8c-78da-4883-9ae3-5a4a6746f396","keyword":"中国科学院","originalKeyword":"中国科学院"},{"id":"5d901c8f-96a3-4df7-bc14-2bcd72c081a4","keyword":"青年学者","originalKeyword":"青年学者"},{"id":"8a8e4fab-befc-419f-acb8-1abf6556d4ea","keyword":"物理研究所","originalKeyword":"物理研究所"},{"id":"d399f276-b272-4e7a-b3e7-28290b5ba79d","keyword":"高等院校","originalKeyword":"高等院校"}],"language":"zh","publisherId":"gcrwlxb201202047","title":"第四届“<span style=\"color:red\">吴</span>仲华奖励基金”评选出获奖者","volume":"33","year":"2012"},{"abstractinfo":"根据《<span style=\"color:red\">吴</span>仲华奖励基金章程》（<span style=\"color:red\">吴</span>奖[2010]01号），经各高校、中国工程热物理学会和中国科学院工程热物理研究所遴选和推荐，以及<span style=\"color:red\">吴</span>仲华奖励基金理事会评审，决定授子钟文琪、张鹏、张明明、徐纲4位青年学者“<span style=\"color:red\">吴</span>仲华优秀青年学者奖”，授予顾超等13位同学“<span style=\"color:red\">吴</span>仲华优秀学生奖”。","authors":[],"doi":"","fpage":"0003","id":"d70b96d7-3c44-4fde-a109-b1112f1278e4","issue":"11","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报   "},"keywords":[{"id":"5a64f2f4-38be-401a-a83f-adef9ef224ed","keyword":"基金","originalKeyword":"基金"},{"id":"f05f7ec3-a6e8-4e71-ac22-e8a10fe82e5e","keyword":"奖励","originalKeyword":"奖励"},{"id":"c026f7a6-59c8-49e9-b2f1-5ceb65037ec2","keyword":"获奖者","originalKeyword":"获奖者"},{"id":"d8a77205-3a8b-4c09-a791-931274af58b5","keyword":"中国科学院","originalKeyword":"中国科学院"},{"id":"5f463d1c-52c8-4e1a-8c66-8da518a48b2c","keyword":"评选","originalKeyword":"评选"},{"id":"f5330498-d48a-472b-97ce-585f7fa55608","keyword":"青年学者","originalKeyword":"青年学者"},{"id":"7ff61d48-2aef-42b7-a260-329b6a7e98db","keyword":"物理研究所","originalKeyword":"物理研究所"},{"id":"031540a3-091d-4fd9-b967-5cfa8b33e754","keyword":"物理学会","originalKeyword":"物理学会"}],"language":"zh","publisherId":"gcrwlxb201211045","title":"第五届“<span style=\"color:red\">吴</span>仲华奖励基金”评选出获奖者","volume":"33","year":"2012"},{"abstractinfo":"金<span style=\"color:red\">吴</span>乙烯管线在运行十几年后需对全线的腐蚀情况作评估,调查了管道的涂层、厚度、腐蚀情况及阴极保护系统的效果,结果表明涂层防护仍是有效的,阴极保护的外加电流装置运行正常,保护系统的维护是非常重要的.","authors":[{"authorName":"樊洪","id":"3d298781-acdd-4aee-8fd0-edd08c8e97f3","originalAuthorName":"樊洪"},{"authorName":"蒋霞星","id":"1adaa69d-87b0-464f-850a-93254835d411","originalAuthorName":"蒋霞星"},{"authorName":"刘志刚","id":"958994e0-f9d8-4187-bdec-4bc75b597c4f","originalAuthorName":"刘志刚"}],"doi":"10.3969/j.issn.1005-748X.2006.04.014","fpage":"203","id":"014df602-2118-4c97-b587-08f6e0b1ca2a","issue":"4","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"dd33ee5e-cc5e-430c-973d-657c46955866","keyword":"涂层","originalKeyword":"涂层"},{"id":"85a2fd50-a5e8-41f0-989c-b3a9afa4a84c","keyword":"阴极保护","originalKeyword":"阴极保护"},{"id":"ebc172bd-c2f0-4110-96ad-4cfc3c7265d5","keyword":"评估","originalKeyword":"评估"}],"language":"zh","publisherId":"fsyfh200604014","title":"上海金<span style=\"color:red\">吴</span>乙烯管线的腐蚀检测","volume":"27","year":"2006"},{"abstractinfo":"介绍福州<span style=\"color:red\">吴</span>航钢铁公司热轧不锈窄带钢生产线的设计和工艺、设备情况,投产后的实践表明,该生产线的设计基本是成功的.此外还讨论了工艺实践中尚存在的问题和改进建议.","authors":[{"authorName":"褚元强","id":"10a25440-c8e3-41de-9900-958462a2591e","originalAuthorName":"褚元强"}],"doi":"10.3969/j.issn.1001-7208.2002.06.004","fpage":"16","id":"8fbb795a-702e-4c2f-926e-80e2e6182ac5","issue":"6","journal":{"abbrevTitle":"SHJS","coverImgSrc":"journal/img/cover/SHJS.jpg","id":"59","issnPpub":"1001-7208","publisherId":"SHJS","title":"上海金属"},"keywords":[{"id":"e0d4e704-b122-4574-a20c-8ccbe63e4499","keyword":"不锈窄带钢","originalKeyword":"不锈窄带钢"},{"id":"2ade8b45-74f8-42f7-b7f5-838f73706252","keyword":"热轧生产线","originalKeyword":"热轧生产线"},{"id":"fe520025-b67f-41fa-92ac-6092c0e0f3ae","keyword":"工艺设计","originalKeyword":"工艺设计"},{"id":"87cbec84-0fad-474e-951d-9c2767575d68","keyword":"半连轧机","originalKeyword":"半连轧机"}],"language":"zh","publisherId":"shjs200206004","title":"<span style=\"color:red\">吴</span>航钢铁公司热轧不锈窄带钢生产线","volume":"24","year":"2002"},{"abstractinfo":"通过不同应力状态下热空气老化试验和高低温循环老化试验,研究了NR1151天<span style=\"color:red\">然</span>橡胶性能的老化变化情况.结果表明:在70,90℃和110℃不同温度下连续热空气老化时,NR1151天<span style=\"color:red\">然</span>橡胶材料的拉伸强度和拉断伸长率均随着老化时间增加而明显下降,温度越高则下降越快;90℃时,应力对NR1151的老化有明显的加速作用;高低温循环老化时,NR1151天<span style=\"color:red\">然</span>橡胶材料的拉伸性能老化速率变慢,且循环周期越短,性能老化速率越慢.","authors":[{"authorName":"丁祖群","id":"626b6edd-7289-4db2-b84d-c8025e0979e8","originalAuthorName":"丁祖群"},{"authorName":"侯平安","id":"ce00760b-c0da-49d1-9192-94ef448d8303","originalAuthorName":"侯平安"},{"authorName":"闵雅兰","id":"9eb9fdcd-c548-46c8-9d12-770ef1bc23e0","originalAuthorName":"闵雅兰"}],"doi":"10.11868/j.issn.1005-5053.2016.2.008","fpage":"46","id":"b714bce5-e4eb-49ea-8bf4-db5c7f553b63","issue":"2","journal":{"abbrevTitle":"HKCLXB","coverImgSrc":"journal/img/cover/HKCLXB.jpg","id":"41","issnPpub":"1005-5053","publisherId":"HKCLXB","title":"航空材料学报"},"keywords":[{"id":"a2d4bbd8-dae6-449b-84a6-c06cb6c6142a","keyword":"天然橡胶材料","originalKeyword":"天然橡胶材料"},{"id":"ea26577b-ebac-441a-875e-4f90c5345649","keyword":"热空气老化","originalKeyword":"热空气老化"},{"id":"1d046833-4c1d-4b60-ab51-adde27f7a061","keyword":"应力-热老化","originalKeyword":"应力-热老化"},{"id":"ebb02ce1-53de-49ca-967f-5aa464e70ff9","keyword":"高低温循环老化","originalKeyword":"高低温循环老化"},{"id":"0c9a96dd-7eed-46e0-832c-0dc3a17efbc7","keyword":"老化失效","originalKeyword":"老化失效"}],"language":"zh","publisherId":"hkclxb201602008","title":"NR1151天<span style=\"color:red\">然</span>橡胶材料的热空气老化性能","volume":"36","year":"2016"},{"abstractinfo":"根据<span style=\"color:red\">吴</span>家塬金矿矿石为含砷微细粒金矿石这一性质,针对该矿原选矿工艺存在的问题进行了小型试验研究.依据小型试验结果,将原流程的一段磨矿改为二段磨矿;将浮选单一用药改为多种混合用药.流程改造后,金回收率提高了26.11%,年增效益154.21万元.","authors":[{"authorName":"张大铸","id":"5b79b157-2870-4800-b224-fee1bceb414f","originalAuthorName":"张大铸"},{"authorName":"贾振武","id":"d38ff0bb-3054-4f25-a8dc-9c0e936f1308","originalAuthorName":"贾振武"}],"doi":"10.3969/j.issn.1001-1277.2001.02.011","fpage":"33","id":"4be9ce68-3c94-4596-9dcc-587cdc62fcb0","issue":"2","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"2478d636-030b-44c9-a0a9-cf8c31f1ae53","keyword":"含砷微细粒金矿石","originalKeyword":"含砷微细粒金矿石"},{"id":"5b254e07-427e-4c07-a574-3294dbacbcbe","keyword":"二段磨矿","originalKeyword":"二段磨矿"},{"id":"91b74870-b905-4dd0-a8b3-e812e2f2d901","keyword":"工艺流程","originalKeyword":"工艺流程"},{"id":"db5048f4-1ece-4775-ba23-d9ba4a217315","keyword":"金回收率","originalKeyword":"金回收率"}],"language":"zh","publisherId":"huangj200102011","title":"<span style=\"color:red\">吴</span>家塬金矿选矿工艺研究及生产实践","volume":"22","year":"2001"},{"abstractinfo":"采用非等温DSC法对三官能团环氧树脂TDE-85与甲基纳迪克酸酐(MeNA)固化体系进行了放热特性分析,升温速率分别为5k/min、10k/min、15k/min、20k/min、25k/min及35k/min.在此基础上重点提出最概<span style=\"color:red\">然</span>Malek-Flynn-Wall-Ozawa分析法,对其固化反应机理进行固化动力学参数分析,建立了能够正确描述固化反应过程的机理模型.该方法求得固化体系反应表现活化能为E=67.05kJ/mol,表观指前因子为A=5.05×10~9s~-1,反应机理函数为f(a)=2~(2.24)(1-a)~(1.76) 0最后通过实验数据对最概<span style=\"color:red\">然</span>Malek-Flyn-wall-Ozawa分析法进行验证,证明该方法能够精确的描述固化反应过程和机理特征.","authors":[{"authorName":"郭建君","id":"8ebf694e-31b4-497f-8f08-49208472ce7b","originalAuthorName":"郭建君"},{"authorName":"孙晋良","id":"45f93eb7-7e49-44d5-a655-3cddcb6839d1","originalAuthorName":"孙晋良"},{"authorName":"任慕苏","id":"93564642-b124-4137-9f83-1d753c9d9d7f","originalAuthorName":"任慕苏"},{"authorName":"白瑞成","id":"fc5f3c12-70e2-4bf8-8443-6ac288ad29d7","originalAuthorName":"白瑞成"}],"doi":"10.3969/j.issn.1003-0999.2009.06.003","fpage":"12","id":"600b776b-9086-479f-9a5d-443faa99dbd9","issue":"6","journal":{"abbrevTitle":"BLGFHCL","coverImgSrc":"journal/img/cover/BLGFHCL.jpg","id":"6","issnPpub":"1003-0999","publisherId":"BLGFHCL","title":"玻璃钢/复合材料"},"keywords":[{"id":"85faa809-432e-465a-a94a-97ec08420d36","keyword":"TDE-85环氧树脂","originalKeyword":"TDE-85环氧树脂"},{"id":"e8cf41ed-de62-45a1-a851-0fe9c580aa9f","keyword":"非等温DSC","originalKeyword":"非等温DSC"},{"id":"88be671a-f459-4a5f-be52-b36c8a7d7e77","keyword":"最概<span style=\"color:red\">然</span>Malek法","originalKeyword":"最概然Malek法"},{"id":"d8ce670a-7491-4a8f-aad2-1327916f4bbb","keyword":"固化动力学模型","originalKeyword":"固化动力学模型"}],"language":"zh","publisherId":"blgfhcl200906003","title":"最概<span style=\"color:red\">然</span>Malek法分析TDE-85/MeNA环氧树脂体系固化机理","volume":"","year":"2009"},{"abstractinfo":"发展了一种基于极大似<span style=\"color:red\">然</span>估计法求解微燃机特性反问题的方法.构建了微燃机全工况模型和反问题求解方法.为对上述模型和方法进行验证,将模拟数据加上测量误差作为反问题的求解条件,反推了单元部件额定效率和压气机特性模型参数.结果表明,单元部件额定效率估计值与原给定值差别较小,压气机特性模型能够较好地表达压气机特性线信息.","authors":[{"authorName":"欧阳艳艳","id":"d808bb77-aedf-4bba-bc5d-bebccbf8edab","originalAuthorName":"欧阳艳艳"},{"authorName":"张士杰","id":"10525af9-b09f-4c68-8c1a-8893f1d9461c","originalAuthorName":"张士杰"},{"authorName":"肖云汉","id":"4fe50b50-74d0-4ec2-af41-4c5bfad5e12f","originalAuthorName":"肖云汉"}],"doi":"","fpage":"541","id":"43d6c09d-f217-42a4-80fd-527690b972fc","issue":"4","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报   "},"keywords":[{"id":"55fc6b8b-2cb5-45b2-8d6a-c5030429d71e","keyword":"微燃机","originalKeyword":"微燃机"},{"id":"8650b3dc-facf-4c39-9952-d3550d30515f","keyword":"反问题","originalKeyword":"反问题"},{"id":"89bbc808-a989-4e22-a1df-3b97f66dc50d","keyword":"极大似<span style=\"color:red\">然</span>估计法","originalKeyword":"极大似然估计法"}],"language":"zh","publisherId":"gcrwlxb201104001","title":"基于极大似<span style=\"color:red\">然</span>估计法求解微燃机特性反问题","volume":"32","year":"2011"}],"totalpage":7,"totalrecord":67}