{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"赤泥是生产氧化铝过程中产生的矿渣,其强碱性和高放射性给周边环境带来了严重的危害.在分析总结赤泥基本物理化学特性的基础上,论述了赤泥近几年来利用不同热处理手段进行活化后的新颖应用领域.研究发现,通过对原状赤泥进行高温煅烧(600℃)、加酸(HCl、H2SO4)活化后再高温煅烧、高温煅烧后再机械力研磨3种措施处理后,能够较大程度激发其活性,为赤泥作为促凝剂、吸附剂、催化剂等新颖应用提供理论依据.","authors":[{"authorName":"刘东燕","id":"ef4a615f-f83b-48e3-966b-f561aa7ff330","originalAuthorName":"刘东燕"},{"authorName":"冯燕博","id":"3388f81f-eac6-4d2c-b4b8-1161afd17df5","originalAuthorName":"冯燕博"},{"authorName":"黄伟","id":"98bd4cdb-ecb3-4808-bb81-44bf9afe5420","originalAuthorName":"黄伟"},{"authorName":"刘芳语","id":"aa8b7c45-6b33-46b0-9bf1-3be4b30882f2","originalAuthorName":"刘芳语"}],"doi":"10.11896/j.issn.1005-023X.2014.15.020","fpage":"104","id":"f9753883-72e3-4a49-8f61-db1d5467078e","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":"d56ffd28-a654-4a99-9237-d292e6044913","keyword":"赤泥","originalKeyword":"赤泥"},{"id":"781bd936-0719-446b-8c09-25d8b6c5525a","keyword":"热活化","originalKeyword":"热活化"},{"id":"65f789cb-5f1e-4297-afe8-08b1354b918f","keyword":"物化特性","originalKeyword":"物化特性"},{"id":"b456484b-c5c9-4701-99dd-a722a4152156","keyword":"新颖应用","originalKeyword":"新颖应用"}],"language":"zh","publisherId":"cldb201415020","title":"不同热处理条件下赤泥的新颖应用研究","volume":"28","year":"2014"},{"abstractinfo":"光电集成是未来信息技术发展的重要方向之一,硅基光电集成具有巨大的应用前景,在硅基材料及集成方面源头创新空间很大.论述了新颖的硅基材料研究现状及应用前景.","authors":[{"authorName":"叶志镇","id":"50c6bb44-b9fb-42cd-a59c-261dafce4561","originalAuthorName":"叶志镇"},{"authorName":"黄靖云","id":"b5f8c816-e65c-4c23-b5fd-f449feb40109","originalAuthorName":"黄靖云"}],"doi":"","fpage":"11","id":"44faa54b-1ade-4563-abb3-f50ffcf1af91","issue":"1","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"332aabdc-6ab6-4702-a3a8-95b755770bd9","keyword":"硅基材料","originalKeyword":"硅基材料"},{"id":"53d12733-e168-4100-a2ab-1324295e0a5f","keyword":"光电","originalKeyword":"光电"},{"id":"a05ce5a3-9b81-4e8e-a359-528460d67af4","keyword":"集成","originalKeyword":"集成"}],"language":"zh","publisherId":"cldb200101005","title":"新颖的硅基光电材料","volume":"15","year":"2001"},{"abstractinfo":"手性药物不同对映体往往表现出截然不同的生理活性和毒性,为了减少有毒副作用的对映体,并降低其生物活性,光学纯手性药物的合成一直是制药行业的研究热点.由于手性药物中间体是合成手性药物的重要构建模块,因此手性药物中间体的合成至关重要.手性乳酸及其酯是合成各类药物、农药和聚合物的重要中间体,在制药工业和材料工业中手性乳酸及其酯的制备非常重要.手性乳酸及其酯可以通过传统的有机化学合成和生物酶催化合成,通过有机化学合成法往往很难得到光学纯度较高的手性乳酸及其酯,而生物酶催化法可以得到光学纯的手性乳酸及其酯,同时避免了有机化学合成所导致的金属残留和环境污染等问题.生物酶法合成光学纯的乳酸及其酯可以通过脱氢酶不对称还原酮的前体得到,然而生物催化使用脱氢酶法需要价格昂贵的辅助因子,如 NADH和 NADPH.而另外一种生物催化方法是通过利用酯酶或者脂肪酶不对称水解外消旋的酯,从而得到光学纯度较高的手性中间体.目前市场上的 L-乳酸甲酯价格不太昂贵,因为 L-乳酸甲酯可以直接通过大发酵的方法取代有机化学法和酶法直接得到.然而 D-乳酸甲酯不能使用廉价的发酵法直接得到,因而其价格昂贵.生物酶催化法可能会成为制备 D-乳酸甲酯的主要方法,因为利用生物酶法可以得到光学纯度较高的 D-乳酸甲酯.本文从西太平洋深海来源的微生物Pseudomonas oryzihabitans HUP022中克隆并异源表达了一种新颖酯酶 PHE14.通过对酯酶 PHE14的酶学性质鉴定表明,酯酶 PHE14的最适反应底物为对硝基苯酚乙酸酯(C2),最适 pH为9.0,最适温度为60°C. PHE14催化最适反应底物 C2的活性达到293.07 U/mg,Vmax和Km分别为200μM/(mg·min)和0.24 mmol/L.酯酶 PHE14对多种有机溶剂、表面活性剂和金属离子都具有非常好的耐受性.深海微生物酯酶 PHE14对高浓度 NaCl具有很好的耐受性,在4 mol/L NaCl存在下,相对酶活力为71.4%.同时,酯酶 PHE14能够催化消旋乳酸甲酯的不对称水解反应制备重要的手性化工产品— D-乳酸甲酯.与先前的一些酯酶拆分的报道不同,有机溶剂和表面活性剂对酯酶 PHE14催化的动力学水解反应没有促进作用.而且,本研究是首次通过酶动力学水解拆分反应制备光学纯的 D-乳酸甲酯.经过实验优化,在 pH 9.0和30°C的条件下,反应产物 D-乳酸甲酯的对映体过量值和产率分别为99%和88.7%.深海微生物酯酶 PHE14作为一种绿色生物催化剂,在多种工业的不对称合成中都具有非常好的应用潜力.","authors":[{"authorName":"王依龙","id":"481dd1d2-e6ff-4e41-9c24-b4018022e078","originalAuthorName":"王依龙"},{"authorName":"张云","id":"32d3ca37-9b26-4c9a-95ca-5cb36d1dcc32","originalAuthorName":"张云"},{"authorName":"孙爱君","id":"2422e5a7-4bc3-4ed1-90a1-9f59f2868558","originalAuthorName":"孙爱君"},{"authorName":"胡云峰","id":"87e6c867-5ba7-492f-bc79-a76faf5f8862","originalAuthorName":"胡云峰"}],"doi":"10.1016/S1872-2067(16)62495-6","fpage":"1396","id":"0850c1bd-3a89-4ccc-aca1-8b8c15aa7c2d","issue":"8","journal":{"abbrevTitle":"CHXB","coverImgSrc":"journal/img/cover/CHXB.jpg","id":"18","issnPpub":"0253-9837","publisherId":"CHXB","title":"催化学报 "},"keywords":[{"id":"899fc6a3-78e3-4c0a-ba36-ffaeb6993d2f","keyword":"酯酶","originalKeyword":"酯酶"},{"id":"753d5671-61ac-4faa-b356-020e6ac7ec7e","keyword":"海洋微生物","originalKeyword":"海洋微生物"},{"id":"611e6c33-5208-4fda-90f4-5dd958f63cad","keyword":"生物催化","originalKeyword":"生物催化"},{"id":"894a9056-2156-4a8c-aedf-951c8adcc515","keyword":"动力学拆分","originalKeyword":"动力学拆分"},{"id":"90d36b0b-449a-4846-bbfd-eb16e1f08eed","keyword":"D-乳酸甲酯","originalKeyword":"D-乳酸甲酯"},{"id":"9fc5c09c-4e66-4d11-95eb-cf70501cdc73","keyword":"水解反应","originalKeyword":"水解反应"}],"language":"zh","publisherId":"cuihuaxb201608026","title":"一种新颖海洋微生物酯酶的功能鉴定及其在 D-乳酸甲酯制备中的应用","volume":"37","year":"2016"},{"abstractinfo":"称为背照式(BSI) CIS的新颖CIS比传统的前照明(FI) CIS对光更敏感,且噪声小.BSI刻蚀中的关键参数是侧壁剖面角、微沟槽形成和硅损宏观负载效应.本文中,采用Applied Centura? AdvantEdgeTM MesaTM刻蚀室开发BSI CSI刻蚀工艺.调整C4F8流量可实现侧壁角的目标剖面.调整压力使BSI焊盘底部处微沟槽形成最小.对于硅损的宏观负载,DC(Div.Cap)和MRAD(Motorized Radial Assembly Dial)调整能实现最小的硅损失,有良好的均匀性.","authors":[{"authorName":"","id":"b1745aaf-1765-434a-a294-b0893b72be05","originalAuthorName":""},{"authorName":"","id":"a6ae0735-1fd3-4886-8a9d-966d82b157c5","originalAuthorName":""},{"authorName":"","id":"c5f86e76-7721-46e8-b374-19546dfc8021","originalAuthorName":""},{"authorName":"","id":"29cbd38c-b4e8-449f-95b8-158e16fcde31","originalAuthorName":""},{"authorName":"","id":"4108ec13-cb6e-421b-89bb-d026e68fdb58","originalAuthorName":""}],"doi":"","fpage":"312","id":"b3f24290-76bd-4fa0-b5f9-9ab4ed6e0285","issue":"6","journal":{"abbrevTitle":"GNCLYQJXB","coverImgSrc":"journal/img/cover/GNCLYQJXB.jpg","id":"34","issnPpub":"1007-4252","publisherId":"GNCLYQJXB","title":"功能材料与器件学报 "},"keywords":[{"id":"480d25cd-b6d3-4e91-a489-00091c333103","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"gnclyqjxb201306010","title":"新颖CMOS图像传感器刻蚀工艺进展","volume":"19","year":"2013"},{"abstractinfo":"设计了一种基于级联长周期光纤光栅(Long period fiber grating)的新颖温度传感器.理论上得到光栅间光纤的长度随温度增加变化时,级联LPG的干涉峰将线性地向长波方向漂移,其消光比亦将呈现线性变化.实验上制作出了基于级联LPG的光纤温度传感器.利用其某一干涉峰的中心波长和消光比测量温度变化时,测量灵敏度分别为0.0353 nm/℃和0.0684 dB/℃.基于级联长周期光纤光栅的温度传感器具有广泛的应用前景.","authors":[{"authorName":"陈少华","id":"7720ef1a-ef4d-442f-af2d-ba1e924ede98","originalAuthorName":"陈少华"},{"authorName":"赵启大","id":"6c2713a2-353b-4f30-bdaf-f99db4d1eb08","originalAuthorName":"赵启大"},{"authorName":"刘丽辉","id":"6911e740-2374-4d11-a98a-9d1d4ccebc3a","originalAuthorName":"刘丽辉"},{"authorName":"张东生","id":"b312a058-55d7-4eb0-b5ff-ee7d60192666","originalAuthorName":"张东生"},{"authorName":"姚颖","id":"d48a4cb3-4baa-4587-9098-8fcf2ea1411a","originalAuthorName":"姚颖"},{"authorName":"郭澎","id":"8c27d864-9b22-4eb6-a34c-fd443853605c","originalAuthorName":"郭澎"},{"authorName":"闫宇","id":"810168e1-5e87-4bad-9305-d00e80eebfa8","originalAuthorName":"闫宇"},{"authorName":"董孝义","id":"ef594a86-9a24-4375-bba3-f06d57e85abe","originalAuthorName":"董孝义"}],"doi":"10.3969/j.issn.1007-5461.2005.06.025","fpage":"955","id":"615e15e3-a747-49df-af5f-3af5f51d8c28","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":"fba84c76-64a2-4677-8441-023345740ec8","keyword":"光纤光学","originalKeyword":"光纤光学"},{"id":"ad7dc914-2c8e-40db-9324-5e5448ccf113","keyword":"级联","originalKeyword":"级联"},{"id":"6f1cc375-7b6d-4c0c-924c-69483d3cac6f","keyword":"长周期光纤光栅","originalKeyword":"长周期光纤光栅"},{"id":"c0f84a28-56e8-4f80-b581-3e32f16a6af1","keyword":"温度传感器","originalKeyword":"温度传感器"}],"language":"zh","publisherId":"lzdzxb200506025","title":"基于级联长周期光纤光栅的新颖温度传感器","volume":"22","year":"2005"},{"abstractinfo":"本文在理论分析基础上,用一种新颖的波长扫描光源,并采用自相关、波长解调装置,实现了宽带光纤光栅透射谱的测量。实验结果与精密光谱仪测量比较,误差小于5%,并与理论分析较好地符合。","authors":[{"authorName":"董孝义","id":"2ea3fb09-7804-4c7c-906e-4ee6f7976506","originalAuthorName":"董孝义"},{"authorName":"王维导","id":"415a1e89-f7e8-4eba-b165-f509cf604eb9","originalAuthorName":"王维导"},{"authorName":"刘志国","id":"176eee75-9dd1-43cc-b233-d1eb37c2525f","originalAuthorName":"刘志国"},{"authorName":"葛春风","id":"e7e6e38f-cd60-4bfc-a39a-404bbaecc34b","originalAuthorName":"葛春风"},{"authorName":"关柏鸥","id":"1bb812b6-4a41-4348-a516-566df6434248","originalAuthorName":"关柏鸥"},{"authorName":"余有龙","id":"70d2ad9d-a421-4308-a28a-84ef4a1b5e47","originalAuthorName":"余有龙"},{"authorName":"王江","id":"4c4215ef-e9e8-4729-a02c-1fc03c38e969","originalAuthorName":"王江"}],"doi":"10.3969/j.issn.1007-5461.2000.01.002","fpage":"6","id":"e2d57418-ed36-4ce6-948e-bb1c89912097","issue":"1","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":"2c0ece82-398b-4b1d-8b38-7083654e9f76","keyword":"布喇格光纤光栅,可调谐光纤激光器","originalKeyword":"布喇格光纤光栅,可调谐光纤激光器"},{"id":"d4492409-b890-4abb-90a7-06b7dac61c1a","keyword":"光谱测量","originalKeyword":"光谱测量"}],"language":"zh","publisherId":"lzdzxb200001002","title":"一种新颖的宽带光纤光栅透射谱测量方法","volume":"17","year":"2000"},{"abstractinfo":"研制了一种结构新颖的高温超导带阻滤波器.这种带阻滤波器的设计值为:中心频率,2.5GHz带内最大衰减65dB.而用YBCO薄膜制成的带阻滤波器实物经调谐,其中心频率与设计值相同,带内最大衰减为73dB,优于设计指标.该滤波器的主要优点是体积小、边带陡,而且可以与其他滤波器组合使用.","authors":[{"authorName":"孙亮","id":"6e76d393-9833-4fb7-9f00-86a9d4d206f9","originalAuthorName":"孙亮"},{"authorName":"陈静","id":"29c766ab-1aa8-4e01-802d-f558801230c1","originalAuthorName":"陈静"},{"authorName":"李顺洲","id":"90499a40-735f-437f-8ab5-2ab0c58c24a0","originalAuthorName":"李顺洲"},{"authorName":"黄建冬","id":"92f40c2d-2b67-46c0-82ac-0e76a1b8c7b9","originalAuthorName":"黄建冬"},{"authorName":"尹正朝","id":"870a5899-1804-47ad-9ed5-c2ebbea2cd94","originalAuthorName":"尹正朝"},{"authorName":"李春光","id":"bc7cb526-eaa2-4736-8ae3-eb3e9ca75323","originalAuthorName":"李春光"},{"authorName":"何艾生","id":"53d430de-24ff-4c12-9cc3-258cdcb9bab1","originalAuthorName":"何艾生"},{"authorName":"张雪强","id":"cc3372da-0b2f-4687-b7ff-f54bbc25ab1b","originalAuthorName":"张雪强"},{"authorName":"黎红","id":"954be1e1-f97d-4ff6-87f5-9c0d469ab0b2","originalAuthorName":"黎红"},{"authorName":"罗胜","id":"e12d4a0a-c67a-4c64-9818-3fdcabfb5689","originalAuthorName":"罗胜"},{"authorName":"顾长志","id":"86700778-99ea-40b2-a061-4ac43f5bb390","originalAuthorName":"顾长志"},{"authorName":"金爱子","id":"e5e109e8-18d5-42da-8ff1-6a3cad5eb359","originalAuthorName":"金爱子"},{"authorName":"杨海方","id":"e75a92e2-f636-43a4-bee7-b78ca7385350","originalAuthorName":"杨海方"},{"authorName":"冯稷","id":"261489b1-9175-498f-bc94-d15e80145eea","originalAuthorName":"冯稷"},{"authorName":"何豫生","id":"a24b098e-a057-4fbf-8091-9298e71ce15d","originalAuthorName":"何豫生"}],"doi":"10.3969/j.issn.1000-3258.2004.03.016","fpage":"263","id":"720463f7-4650-467e-84e9-e08db80a9fa2","issue":"3","journal":{"abbrevTitle":"DWWLXB","coverImgSrc":"journal/img/cover/DWWLXB.jpg","id":"19","issnPpub":"1000-3258","publisherId":"DWWLXB","title":"低温物理学报 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