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style=\"color:red\">刘</span><span style=\"color:red\">信</span>","id":"c3930fa6-6588-4fbe-877d-111c523acde4","originalAuthorName":"刘信"},{"authorName":"李曦","id":"a2b9e7c0-aced-479a-8af5-f8a883924890","originalAuthorName":"李曦"},{"authorName":"张志军","id":"c6052644-acde-49a8-9cdb-eea41419f0be","originalAuthorName":"张志军"},{"authorName":"黄坤","id":"c5c50196-a3b6-4a13-8eae-82ebcf9df588","originalAuthorName":"黄坤"},{"authorName":"邓方豪","id":"db5c9cc4-9e1e-46ff-b315-6f78f16b6797","originalAuthorName":"邓方豪"},{"authorName":"许雯靓","id":"a458b316-5881-43dc-9f38-355e462fcce3","originalAuthorName":"许雯靓"},{"authorName":"<span style=\"color:red\">刘</span>鹏","id":"8b7c4099-5c3b-42cd-bd1f-8cef6840fed0","originalAuthorName":"刘鹏"},{"authorName":"张超灿","id":"e7255b8d-5714-4e79-8b9e-d058e830130d","originalAuthorName":"张超灿"}],"doi":"","fpage":"53","id":"483bd2ef-e18e-454b-bbf9-8538d04b1be2","issue":"15","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"52cd935d-df22-407f-ad2e-3505fbb54190","keyword":"磁性脂质体","originalKeyword":"磁性脂质体"},{"id":"8b5940e2-e308-4ee9-b75e-84a51f2f8505","keyword":"靶向药物","originalKeyword":"靶向药物"},{"id":"dea4ef8d-1d95-4c5b-aaaf-35c8a04c85bf","keyword":"热化疗","originalKeyword":"热化疗"},{"id":"43ed7f1f-e79e-4800-8819-83b94e4844dc","keyword":"造影剂","originalKeyword":"造影剂"}],"language":"zh","publisherId":"cldb201215010","title":"磁性脂质体的制备及应用","volume":"26","year":"2012"},{"abstractinfo":"简要介绍了烯烃复分解反应及其反应机理,综述了金属卡宾催化剂在烯烃复分解反应中的研究进展,重点介绍了钨、钼、钌卡宾催化剂的发展和应用,并简述了其他体系金属卡宾催化剂的研究现状,最后指出了金属卡宾催化剂的发展方向.","authors":[{"authorName":"陈诚","id":"f1f85f9c-f807-43b6-8a1b-27b573b319d1","originalAuthorName":"陈诚"},{"authorName":"李曦","id":"4e6fed24-a8b7-4b1b-a7f8-89102f8e9afa","originalAuthorName":"李曦"},{"authorName":"陈连喜","id":"a349e920-383c-49a2-aca9-217153f72b94","originalAuthorName":"陈连喜"},{"authorName":"罗慧","id":"9c13d5a8-0326-450d-b202-9a8ca3b1c3fd","originalAuthorName":"罗慧"},{"authorName":"<span style=\"color:red\">刘</span><span style=\"color:red\">信</span>","id":"ca4b785f-8c04-49b8-9460-9c60415835a9","originalAuthorName":"刘信"},{"authorName":"李小雨","id":"680043c0-da1e-4e47-b463-2cb525505174","originalAuthorName":"李小雨"}],"doi":"","fpage":"71","id":"47708b8d-0e2f-4b63-b847-a8e3db494525","issue":"13","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"9250ac2c-bfc7-4f79-92a8-7f2280d3df1c","keyword":"金属卡宾催化剂","originalKeyword":"金属卡宾催化剂"},{"id":"e3c235a3-bd95-4d0a-abf2-6b5c5c46d2b7","keyword":"烯烃复分解反应","originalKeyword":"烯烃复分解反应"},{"id":"ece641ec-fc45-46d7-a089-3a47835fdda1","keyword":"钌卡宾催化剂","originalKeyword":"钌卡宾催化剂"}],"language":"zh","publisherId":"cldb201313015","title":"金属卡宾催化剂在烯烃复分解反应中的研究进展","volume":"27","year":"2013"},{"abstractinfo":"本文综述了仿生防污技术的研究现状,主要包括天然生物防污涂料和结构仿生高分子材料的研究进展,并对今后的发展方向进行了展望.","authors":[{"authorName":"李森","id":"72620a76-be83-4e0d-9baa-dacf707e351d","originalAuthorName":"李森"},{"authorName":"王源升","id":"5ef31943-a806-4b5a-b5de-b1c51fb58dd8","originalAuthorName":"王源升"},{"authorName":"余红伟","id":"af5deec6-27e6-433a-b70c-facd2d842855","originalAuthorName":"余红伟"},{"authorName":"<span style=\"color:red\">刘</span><span style=\"color:red\">信</span>","id":"5f4efdd4-dbc4-4a63-9b1b-746070fc132f","originalAuthorName":"刘信"}],"doi":"","fpage":"78","id":"a85b909a-3ba2-4b5d-80aa-efac76742330","issue":"6","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"4be044f5-e45f-425d-91fd-3e1d41c96a1a","keyword":"防污","originalKeyword":"防污"},{"id":"c3dc6ec6-ab71-4ddd-a712-f27da7165a7c","keyword":"仿生","originalKeyword":"仿生"},{"id":"b70f2d54-458b-4fea-9929-a0af385b2981","keyword":"海洋天然产物","originalKeyword":"海洋天然产物"}],"language":"zh","publisherId":"clkfyyy201206018","title":"仿生防污技术的现状及展望","volume":"27","year":"2012"},{"abstractinfo":"为满足<span style=\"color:red\">信</span>钢50!万t生铁规模所需的精料,<span style=\"color:red\">信</span>钢决定建设新的烧结车间.以合理炉料结构为出发点,对炉料平衡、主要设备选型、工艺流程选择和投资效益等方面进行了较详细的介绍.","authors":[{"authorName":"<span style=\"color:red\">刘</span>治政","id":"bbe7a5e9-89c6-4565-a578-2b92e85673a0","originalAuthorName":"刘治政"},{"authorName":"黄录军","id":"9af8a295-3aa5-4979-8904-c9e9ad7da268","originalAuthorName":"黄录军"},{"authorName":"金文生","id":"fa5d164d-ae0a-4a80-8f11-ad1ca4f07e72","originalAuthorName":"金文生"}],"doi":"10.3969/j.issn.1001-1447.2002.02.006","fpage":"19","id":"f4df48b4-4d3d-4835-b285-e9ecfc7e644f","issue":"2","journal":{"abbrevTitle":"GTYJ","coverImgSrc":"journal/img/cover/GTYJ.jpg","id":"29","issnPpub":"1001-1447","publisherId":"GTYJ","title":"钢铁研究"},"keywords":[{"id":"b8c49b84-8fcb-4376-976c-35e009103ab6","keyword":"烧结工艺","originalKeyword":"烧结工艺"},{"id":"961b3719-aa1a-440b-8bbb-e4beb45754ad","keyword":"工厂设计","originalKeyword":"工厂设计"}],"language":"zh","publisherId":"gtyj200202006","title":"<span style=\"color:red\">信</span>钢新烧结车间工艺设计","volume":"30","year":"2002"},{"abstractinfo":"介绍<span style=\"color:red\">信</span>钢公司2号小方坯连铸机改造的情况,改造采用一些新技术,效果良好.","authors":[{"authorName":"李春生","id":"810a7a38-4429-4db1-89df-de35b8ccfafd","originalAuthorName":"李春生"},{"authorName":"徐明利","id":"ed635000-cfbf-4b40-8831-e861bdd080d5","originalAuthorName":"徐明利"},{"authorName":"王曙光","id":"742e1c81-1904-45dc-bcbb-4dd1b12ff38d","originalAuthorName":"王曙光"}],"doi":"10.3969/j.issn.1005-4006.2003.04.005","fpage":"10","id":"e965d85c-2d45-4924-97d3-71acad2052bc","issue":"4","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"ef3ce9cb-f3a3-43f4-b8b2-c0d48dcf0ed9","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"lz200304005","title":"<span style=\"color:red\">信</span>钢2号小方坯连铸机改造","volume":"","year":"2003"},{"abstractinfo":"为了建立量子纠缠<span style=\"color:red\">信</span>令在自由空间传输时的损伤模型,提出了<span style=\"color:red\">信</span>令传输损伤度与传输距离的关系,给出了量子<span style=\"color:red\">信</span>令的中继方案和<span style=\"color:red\">信</span>令损伤修复策略.仿真结果表明,在收、发两端望远镜的孔径数值、传输因子和载体光子的波长三个参数一定的情况下,传输损伤度与距离、定位损耗密切相关,定位损耗的变化对<span style=\"color:red\">信</span>令传输损伤度影响很小.因此,影响<span style=\"color:red\">信</span>令传输损伤度的主要因素是通信距离,量子<span style=\"color:red\">信</span>令在自由空间的远距离传送需要增加中继器.","authors":[{"authorName":"任娟","id":"d7e550ec-ac8b-4303-892b-35d3ecf4e864","originalAuthorName":"任娟"},{"authorName":"聂敏","id":"c47fa316-13ef-4f0c-a2e8-a97f2305360e","originalAuthorName":"聂敏"},{"authorName":"<span style=\"color:red\">刘</span>晓慧","id":"e93e2750-1817-42de-a862-40edd52cce00","originalAuthorName":"刘晓慧"}],"doi":"10.3969/j.issn.1007-5461.2012.06.009","fpage":"708","id":"f5144203-2b74-4542-9698-f9234fb1f41c","issue":"6","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报   "},"keywords":[{"id":"1d5c4b8e-0b56-49d3-9553-2532dfbb132c","keyword":"量子光学","originalKeyword":"量子光学"},{"id":"c71015c6-0897-4a14-894f-2365b2a5091d","keyword":"<span style=\"color:red\">信</span>令损伤模型","originalKeyword":"信令损伤模型"},{"id":"c5b90d36-f749-460b-a9c8-9a693e25a27a","keyword":"量子纠缠<span style=\"color:red\">信</span>令","originalKeyword":"量子纠缠信令"},{"id":"072b8ef4-be42-4804-b67e-77f191f3c51e","keyword":"传输损伤度","originalKeyword":"传输损伤度"},{"id":"b943d241-18fd-48ad-9124-df7abe585747","keyword":"量子中继","originalKeyword":"量子中继"}],"language":"zh","publisherId":"lzdzxb201206009","title":"量子纠缠<span style=\"color:red\">信</span>令传输损伤模型及修复策略研究","volume":"29","year":"2012"},{"abstractinfo":"为了解决量子<span style=\"color:red\">信</span>令交换的最佳交换速率问题,提出了基于保真度的量子<span style=\"color:red\">信</span>令纠缠交换最佳交换速率算法.根据量子<span style=\"color:red\">信</span>令纠缠交换方案,分析了由量子混合态组成的<span style=\"color:red\">信</span>令保真度.针对单输入单输出系统(SISO)和多输入多输出系统(MIMO),讨论了影响量子<span style=\"color:red\">信</span>令交换速率的各种因素,计算得出最佳交换速率.仿真结果表明,在保真度为97％时,最佳交换速率为100 qubit/s,该指标完全能够满足量子通信对<span style=\"color:red\">信</span>令交换的要求,对于构建未来量子通信系统有着重要的技术支撑作用.","authors":[{"authorName":"徐华成","id":"4d35e54f-9229-43f8-8f9c-4fbe15fc20e4","originalAuthorName":"徐华成"},{"authorName":"聂敏","id":"80644217-17c6-41bf-8b2e-2b55ad59c5dc","originalAuthorName":"聂敏"},{"authorName":"杨光","id":"b0e58423-faf1-4134-8702-47d151638932","originalAuthorName":"杨光"}],"doi":"10.3969/j.issn.1007-5461.2015.02.007","fpage":"170","id":"fdc1510c-189d-4077-bcd1-1578706b1733","issue":"2","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"bdd5fc76-7ef8-4e59-b6b8-c8ad135bcf5f","keyword":"量子光学","originalKeyword":"量子光学"},{"id":"0d24df55-8aa9-4330-afa9-33b83cee2636","keyword":"量子<span style=\"color:red\">信</span>令网","originalKeyword":"量子信令网"},{"id":"8b32d385-1f9f-4517-be13-b63c1d39d6ed","keyword":"纠缠交换","originalKeyword":"纠缠交换"},{"id":"c14d79d9-4484-435f-9f9a-0708e48e8b2d","keyword":"保真度","originalKeyword":"保真度"},{"id":"fddc42b7-3e0c-4995-a397-808522a55237","keyword":"最佳交换速率","originalKeyword":"最佳交换速率"}],"language":"zh","publisherId":"lzdzxb201502007","title":"基于保真度的量子<span style=\"color:red\">信</span>令纠缠交换最佳交换速率","volume":"32","year":"2015"},{"abstractinfo":"<span style=\"color:red\">刘</span>文中,关于贝氏体形成机制,包括形核过程的文献很少被引述。作者（<span style=\"color:red\">刘</span>等）的主要论点为贝氏体铁素体以无扩散、非切变机制在奥氏体内贫碳区形核,并未引述形成贫碳区的必要条件。本文作者强调,在钢及铜合金中,不可能由Spinodal分解和位错偏聚形成贫溶质区。<span style=\"color:red\">刘</span>等的理念未得到先进理论观点和精细实验结果的支持。在<span style=\"color:red\">刘</span>文中,据此对临界核心大小和形核能的计算并无显著意义,期望青年学者对贝氏体相变机制作进一步研究。","authors":[{"authorName":"徐祖耀","id":"f5bc6b26-ec4d-45e7-a1da-067daa9d3115","originalAuthorName":"徐祖耀"}],"doi":"","fpage":"158","id":"66a9e9e8-09a0-408c-8c33-bc00aeff35c0","issue":"2","journal":{"abbrevTitle":"CLRCLXB","coverImgSrc":"journal/img/cover/CLRCLXB.jpg","id":"15","issnPpub":"1009-6264","publisherId":"CLRCLXB","title":"材料热处理学报"},"keywords":[{"id":"5224cfe0-dd6d-4ccc-aac3-2bed80f388a5","keyword":"贝氏体形核","originalKeyword":"贝氏体形核"},{"id":"cae16aae-8a2b-43f5-9886-1ca5759c5972","keyword":"扩散机制","originalKeyword":"扩散机制"},{"id":"36bc9f8f-ee13-4c27-8020-c2c5b0dfca8f","keyword":"切变机制","originalKeyword":"切变机制"},{"id":"a3bb808d-ba7a-4c9a-90ff-d5e59a6a0f1a","keyword":"贫碳区","originalKeyword":"贫碳区"}],"language":"zh","publisherId":"jsrclxb201202033","title":"评<span style=\"color:red\">刘</span>宗昌等《贝氏体铁素体的形核》一文","volume":"33","year":"2012"},{"abstractinfo":"利用质子激发X射线荧光分析(PIXE)测试分析汝官瓷、张公巷窑青瓷和<span style=\"color:red\">刘</span>家门窑青瓷样品的主要化学组成,用多元统计判别分析方法对数据进行分析,以确定它们的分类和起源关系.结果表明:汝官瓷、张公巷窑青瓷和<span style=\"color:red\">刘</span>家门窑青瓷釉基本能很好的区分；但是胎区分得不是很理想,张公巷窑青瓷的胎可以和汝官瓷、<span style=\"color:red\">刘</span>家门窑青瓷胎很好的区分,汝官瓷胎和<span style=\"color:red\">刘</span>家门窑青瓷胎有个别样品不能分开.","authors":[{"authorName":"蔡敏敏","id":"bf1f4660-208a-4999-ac81-266bf48c5bcb","originalAuthorName":"蔡敏敏"},{"authorName":"李国霞","id":"f8d3a4dc-7472-4dd6-9382-9f4430feef58","originalAuthorName":"李国霞"},{"authorName":"赵维娟","id":"9572b140-eca3-4192-af6e-ab9fdb21502b","originalAuthorName":"赵维娟"},{"authorName":"李融武","id":"e2d1fb82-016c-4ae3-9ee6-0cabbe60a2a0","originalAuthorName":"李融武"},{"authorName":"赵文军","id":"ea875a05-c1f7-4a8f-b405-2005de7db87c","originalAuthorName":"赵文军"},{"authorName":"承焕生","id":"9ff5fa85-a1fb-4cd2-bdc3-3bd240fd6894","originalAuthorName":"承焕生"},{"authorName":"郭敏","id":"d4074d21-787e-429b-8123-a13fcf5ce433","originalAuthorName":"郭敏"}],"doi":"","fpage":"1363","id":"f1ea8842-b3fe-42a2-9557-aa4c186cac5a","issue":"6","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报   "},"keywords":[{"id":"d281b6ff-a4b5-41d8-ad69-47236e801de5","keyword":"汝官瓷","originalKeyword":"汝官瓷"},{"id":"adf8b648-9625-4b38-96ff-ec6174d0c5d4","keyword":"张公巷窑青瓷","originalKeyword":"张公巷窑青瓷"},{"id":"3a61e23c-a3f8-43e6-84fc-1b7cd4edef5b","keyword":"<span style=\"color:red\">刘</span>家门窑青瓷","originalKeyword":"刘家门窑青瓷"},{"id":"494e2983-99cd-4c53-a919-4bfad5b7c54a","keyword":"判别分析","originalKeyword":"判别分析"}],"language":"zh","publisherId":"gsytb201206005","title":"汝官瓷、张公巷窑青瓷和<span style=\"color:red\">刘</span>家门窑青瓷的判别分析研究","volume":"31","year":"2012"}],"totalpage":9,"totalrecord":88}