{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用微波等离子体化学气相沉积法在不锈钢衬底上制备出了纳米非晶碳和碳纳米混合薄膜,二极管结构测试表明薄膜材料具有优良的发射性能.利用制备的薄膜材料作为阴极制作了前栅极结构的发射三极管器件并对其性能进行了测试.结果表明该器件具有优良的栅控性能,亮度很高,有良好的应用前景.","authors":[{"authorName":"张新月","id":"50dfdbbf-dfeb-4ad4-84bf-32e1f4fb511c","originalAuthorName":"张新月"},{"authorName":"麻华丽","id":"b68a5d37-185c-4ff9-aaab-191ae3ed0d62","originalAuthorName":"麻华丽"},{"authorName":"曾凡光","id":"8ea5b572-b1ba-4878-980a-4b47ec8fdfbc","originalAuthorName":"曾凡光"},{"authorName":"姚宁","id":"b73d5407-881e-4ee0-91d8-5181561e30b0","originalAuthorName":"姚宁"},{"authorName":"张兵临","id":"bd80cf76-08b9-4699-ad37-0cd5aec9d59c","originalAuthorName":"张兵临"}],"doi":"","fpage":"1150","id":"a5a4a709-6abe-4c4d-8564-9de5c460b02d","issue":"8","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"15baf222-7c0b-43df-9d14-fbdc4da032e8","keyword":"发射三极管","originalKeyword":"场发射三极管"},{"id":"f3fdd03e-733c-4161-aef9-8c08d309a9e2","keyword":"前栅极","originalKeyword":"前栅极"},{"id":"f16b271f-dfba-4de0-8071-d0ee2b680ec3","keyword":"纳米非晶碳和碳纳米","originalKeyword":"纳米非晶碳和碳纳米管"}],"language":"zh","publisherId":"gncl201308021","title":"基于发射三极管的设计及性能研究","volume":"44","year":"2013"},{"abstractinfo":"对多壁碳纳米薄膜作为阴极的真空三极结构发光器件进行了初步研制.研究了器件结构及发射特性.研究证明碳纳米薄膜是一种性能优良的冷阴极材料.采用CNTs薄膜为阴极的真空发光器件可以在10-6~10-7 Pa的真空度下稳定工作,并在较低的阳极工作电压下获得较大的电流.在阳极电压为5.8 kV,栅压为750 V时,在3 cm2发射面积上,可获得1.1 mA的电流值.器件的发射电流较稳定,且亮度达到1.8X103 cd/m2,十分适用于户外大屏幕显示.","authors":[{"authorName":"樊志琴","id":"8d31d699-00e0-46a2-84b6-c0af705ea1da","originalAuthorName":"樊志琴"},{"authorName":"蔡根旺","id":"88aeea38-f62b-45b9-a490-d93910278971","originalAuthorName":"蔡根旺"},{"authorName":"王世建","id":"b93ed3ef-eea5-46d0-948a-5b14d22287ce","originalAuthorName":"王世建"},{"authorName":"李瑞","id":"532482ed-3e2b-4808-85c0-cf9e91b56a2e","originalAuthorName":"李瑞"},{"authorName":"张君德","id":"9c7a4b27-504f-4407-a8b6-91ac9cf0b421","originalAuthorName":"张君德"},{"authorName":"程仁志","id":"bba1c181-4db4-4201-b9c6-ad466a3bae12","originalAuthorName":"程仁志"},{"authorName":"张兵临","id":"67529662-3f60-42e8-a6e0-4a58a0d14576","originalAuthorName":"张兵临"}],"doi":"10.3969/j.issn.1007-2780.2008.01.007","fpage":"30","id":"9f26993c-4ea5-4396-aa79-0c0039cdec5b","issue":"1","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"72f744eb-6a51-4149-9bac-23f25bf2722f","keyword":"碳纳米","originalKeyword":"碳纳米管"},{"id":"2ba5cc5d-9831-4573-8db4-663b578f612d","keyword":"发射","originalKeyword":"场发射"},{"id":"f106b0eb-b22e-4413-a0ef-bc1f0cd0bc5d","keyword":"三极管","originalKeyword":"三极管"}],"language":"zh","publisherId":"yjyxs200801007","title":"碳纳米发射三极管的制备及特性研究","volume":"23","year":"2008"},{"abstractinfo":"采用催化剂高温分解方法制备了碳纳米薄膜阴极.利用优质云母板作为绝缘材料,结合简单的丝网印刷工艺制作了新型的栅极结构.详细地给出了新型三极碳纳米发射器件的制作工艺,对发射的机理进行了初步的讨论.采用这种新型的栅极结构,不仅极大地降低了总体器件成本,同时避免了碳纳米薄膜阴极的损伤,提高了器件的制作成功率.所制作的三极结构平板发射器件具有良好的发射特性和栅极控制能力.","authors":[{"authorName":"李玉魁","id":"2cf6a8da-9a75-4158-9dce-5f3ea500ae8b","originalAuthorName":"李玉魁"},{"authorName":"朱长纯","id":"d2e5ab34-580f-49a0-b916-b06aaa16da7d","originalAuthorName":"朱长纯"}],"doi":"10.3969/j.issn.1007-2780.2004.06.003","fpage":"423","id":"bb543e1c-ea10-4a69-9710-17ad1c49e1e9","issue":"6","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"352b02f3-539a-449a-a48e-57debd3afe20","keyword":"碳纳米","originalKeyword":"碳纳米管"},{"id":"51eba5d0-94c2-4f91-a61c-f4b6a01a3deb","keyword":"发射","originalKeyword":"场致发射"},{"id":"5dc0b79a-cf7d-4d4a-b306-0d4b2f04ef80","keyword":"栅极","originalKeyword":"栅极"},{"id":"ad11cc91-32fb-47bd-b537-57b0486ce48c","keyword":"丝网印刷","originalKeyword":"丝网印刷"}],"language":"zh","publisherId":"yjyxs200406003","title":"新型三极碳纳米发射器件的研究","volume":"19","year":"2004"},{"abstractinfo":"利用钙钠玻璃作为阴极和阳极面板,并采用低熔点玻璃粉进行高温烧结,制作了三极管型的碳纳米阴极发射平板显示器件样品.高效的烧结排气工艺提高了器件的制作成功率,避免了碳纳米阴极和阳极荧光粉的损伤.改进的消气剂装配确保了器件的良好密封性能.整体显示器件具有高的显示亮度和低的制作成本.","authors":[{"authorName":"李玉魁","id":"f03941da-31d6-415b-b1fe-dd60911158f6","originalAuthorName":"李玉魁"},{"authorName":"郭艳清","id":"35f9e87b-42fb-4005-978d-5f3e1a864339","originalAuthorName":"郭艳清"},{"authorName":"朱长纯","id":"6221c18d-a14a-4c0d-a6b0-916bcf6a843b","originalAuthorName":"朱长纯"}],"doi":"10.3969/j.issn.1007-2780.2006.03.008","fpage":"232","id":"b14584ea-9071-4778-83a6-718a581a3bdd","issue":"3","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"b714f4e6-20b3-42fb-83af-939ccde74747","keyword":"碳纳米","originalKeyword":"碳纳米管"},{"id":"9e260751-e5c5-4fed-aa6e-322303cad26a","keyword":"三极结构","originalKeyword":"三极结构"},{"id":"695843e6-a282-49ea-9e94-89c36a52c4eb","keyword":"平板器件","originalKeyword":"平板器件"},{"id":"9ed4e2d1-b15c-4912-a318-9abe989166ef","keyword":"发射","originalKeyword":"场致发射"}],"language":"zh","publisherId":"yjyxs200603008","title":"三极结构发射显示器件的制作","volume":"21","year":"2006"},{"abstractinfo":"结合丝网印刷工艺,通过制备绝缘层和布线层的层叠式,在玻璃基底上实现了大面积的点阵阴极寻址结构.应用碳纳米作为阴极材料,研发了三极结构的发射平板显示器件样品.通过点阵阴极寻址结构,可直接对发光像素进行逐点控制,从而实现整体器件的图像显示.该器件可与现有的驱动集成电路相结合进行控制,具备良好的发射特性和高的显示亮度.","authors":[{"authorName":"靳孝峰","id":"f6b1cd6a-3ec9-431a-8a59-5bc904aad9d6","originalAuthorName":"靳孝峰"},{"authorName":"张琦","id":"8069a204-a741-4efc-bfc6-0902491cf90a","originalAuthorName":"张琦"},{"authorName":"李玉魁","id":"17b0b1d9-eb2b-40eb-a17b-a9332c1f1dd2","originalAuthorName":"李玉魁"},{"authorName":"武超","id":"2eb0ece6-d7ef-4384-a98b-44ff6ec5dbc0","originalAuthorName":"武超"}],"doi":"10.3969/j.issn.1007-2780.2009.04.010","fpage":"518","id":"9d6ce966-a0ff-4603-a9aa-5b82b3c8c596","issue":"4","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"63055dca-a15c-43e5-b3cd-19af5be06104","keyword":"发射","originalKeyword":"场致发射"},{"id":"a1f4e675-be1e-47a2-becb-eec0ab77506b","keyword":"阴极","originalKeyword":"阴极"},{"id":"7a99c349-38bb-466d-8a6e-80cf40fd4e53","keyword":"寻址","originalKeyword":"寻址"},{"id":"7a56cf55-a3fa-439f-b89c-76e6de226bb0","keyword":"点阵","originalKeyword":"点阵"},{"id":"03d394b3-dd7f-4cd4-a09a-2e99df89519f","keyword":"碳纳米","originalKeyword":"碳纳米管"}],"language":"zh","publisherId":"yjyxs200904010","title":"点阵阴极寻址型三极发射器件的制作","volume":"24","year":"2009"},{"abstractinfo":"应用云母板作为栅极基底,结合常规的丝网印刷工艺,制作了改进的栅极结构.采用钙钠平板玻璃作为封装面板,利用碳纳米作为冷阴极材料,研制了三极结构的单色发射显示器件.栅极基底的优良绝缘性能确保了其不易被强电场强度所击穿;改进的栅极层则能够进一步缩短栅极-阴极之间的有效距离,有利于降低栅极的工作电压.该显示器件具有高的显示亮度,良好的栅控能力以及发射特性.","authors":[{"authorName":"韩建勋","id":"15a92a41-a3e4-4b64-a714-48dfe5a9fcb8","originalAuthorName":"韩建勋"},{"authorName":"李玉魁","id":"edc8c38c-53ec-4fa1-b354-4fe9d9d7085c","originalAuthorName":"李玉魁"}],"doi":"10.3969/j.issn.1007-2780.2010.03.009","fpage":"342","id":"7d6764da-d9be-409c-91d8-a55b537fb6d6","issue":"3","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"823d6717-d41b-467d-8732-aca6f917a6a8","keyword":"发射显示器","originalKeyword":"场发射显示器"},{"id":"4f3d303e-4633-4654-97c2-aa6ea735417e","keyword":"三极结构","originalKeyword":"三极结构"},{"id":"7783bbb3-fe27-4357-9705-bff04dba4abd","keyword":"丝网印刷","originalKeyword":"丝网印刷"}],"language":"zh","publisherId":"yjyxs201003009","title":"新型栅极结构的单色三极发射器件","volume":"25","year":"2010"},{"abstractinfo":"结合低熔点玻璃粉密封工艺,应用钙钠平板玻璃分别形成阴极面板、阳极面板和封装面板,研发了三极结构的发射显示器件.阳极面板作为相互连通的发射腔和排气腔的公共端,用于产生器件显示图像;具有高平整度的阳极面板处于真空环境中,不会出现形变现象,确保了发光图像的显示均匀性.封装面板上不存在任何电极.整体封装器件制作工艺稳定、可靠且成本低廉,具有较高的显示亮度、良好的栅控特性和图形显示功能.","authors":[{"authorName":"李玉魁","id":"981dc408-7c9c-4676-8f59-92802ce16757","originalAuthorName":"李玉魁"},{"authorName":"刘云朋","id":"91cea6b7-9e0d-40de-b9c7-7526b90c9e41","originalAuthorName":"刘云朋"}],"doi":"10.3969/j.issn.1007-2780.2010.05.021","fpage":"709","id":"a8abf8e2-90a3-42a5-b44c-96c3fa0195ae","issue":"5","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"df31ca62-4acf-48bb-9746-5e48a917d733","keyword":"面板","originalKeyword":"面板"},{"id":"c2c6d004-a7d7-4349-962d-c937eaaea0b7","keyword":"封装","originalKeyword":"封装"},{"id":"097464cf-75be-495c-b544-060089393aa9","keyword":"显示","originalKeyword":"显示"},{"id":"45574ec0-8ad1-49f9-8c81-27cf5e95d541","keyword":"器件","originalKeyword":"器件"},{"id":"83018215-6d19-4777-b002-fc427fe7ad31","keyword":"发射","originalKeyword":"场发射"}],"language":"zh","publisherId":"yjyxs201005021","title":"三极发射显示器件的发光优化制作","volume":"25","year":"2010"},{"abstractinfo":"三极结构的发射显示器是一种新型的真空平板显示装置,高真空的实现与维持是确保显示器件正常工作的必要条件.通过采用低熔点玻璃粉烧结工艺和玻璃定位片装置,实现了发射显示器的高真空平板封装.从器件封装结构、器件烧结、器件排气和器件烤消等方面进行了工艺改进.综合采用这套技术,已经研发出三极结构的、具有高真空度的碳纳米阴极发射显示器样品.","authors":[{"authorName":"靳孝峰","id":"c13b198a-d07a-402b-b701-a9a815b071bc","originalAuthorName":"靳孝峰"},{"authorName":"赵锋","id":"f93b034f-183e-49cd-aa8e-13a9d26e0e19","originalAuthorName":"赵锋"},{"authorName":"李玉魁","id":"d1efcdd8-232c-436f-917c-44356def04ec","originalAuthorName":"李玉魁"},{"authorName":"武超","id":"0c3da83b-4ff9-430d-9de8-3b014996a053","originalAuthorName":"武超"}],"doi":"10.3969/j.issn.1007-2780.2009.05.008","fpage":"661","id":"01e42341-5120-4484-9c27-6dd1930dd55b","issue":"5","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"777f51e1-b0dc-4b8d-ba3f-3ec5d3a28324","keyword":"显示器件","originalKeyword":"显示器件"},{"id":"e1b1f2f7-01fb-436b-a8b1-079bdefb02ca","keyword":"发射","originalKeyword":"场致发射"},{"id":"3e6e3c34-5704-4e06-8ebf-17b84dc5e080","keyword":"封装","originalKeyword":"封装"},{"id":"18da7969-7fe1-4e13-996e-7727dc6a1a24","keyword":"三极","originalKeyword":"三极"},{"id":"5dce7690-db56-4ab8-bd8c-df93df6e276a","keyword":"真空","originalKeyword":"真空"}],"language":"zh","publisherId":"yjyxs200905008","title":"高真空场发射三极显示器的制作","volume":"24","year":"2009"},{"abstractinfo":"制作三极发射阵列(FEA),传统上都依赖薄膜工艺及光刻技术.这在很大程度上限制了印刷型碳纳米阴极的优势.通过改进全丝网印刷工艺,包括一项改进的栅极烧结工艺和一项洁网技术,成功地制作出,32×32的三极型以碳纳米为阴极的发射阵列(CNT-FEA).该三极型CNT-FEA具有显著的栅控特性.栅压在150~300 V可以对阳极电流实现良好的控制.栅控电流放大系数超过180.","authors":[{"authorName":"刘卫华","id":"16668b99-8de9-4239-aa6f-b8339e454485","originalAuthorName":"刘卫华"},{"authorName":"朱长纯","id":"911acf6b-3cca-430d-977f-892fbbe9dd3b","originalAuthorName":"朱长纯"}],"doi":"10.3969/j.issn.1007-2780.2008.02.011","fpage":"178","id":"271597d8-0967-4417-927b-fdcc5aaac139","issue":"2","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"9cf6b8a8-9a50-49a9-882e-a4ed598558c3","keyword":"碳纳米","originalKeyword":"碳纳米管"},{"id":"d3e52697-8731-4129-a31f-87ed9d5650e3","keyword":"发射","originalKeyword":"场发射"},{"id":"424a7299-b63b-4301-870e-02d3adfb8720","keyword":"丝网印刷","originalKeyword":"丝网印刷"}],"language":"zh","publisherId":"yjyxs200802011","title":"丝网印刷三极CNT-FEA的研制","volume":"23","year":"2008"},{"abstractinfo":"对钠钙平板玻璃进行切割形成后封装面板.结合高效的丝网印刷技术,在后封装面板上制作了半圆组阴栅结构.烧结的银浆层用于形成导电电极组中的双长条电极,而固化的绝缘浆料则用于构成绝缘层.碳纳米直接制备在长条电极的表面,呈现双半圆形状,用于进行电子发射.栅极则是固定在碳纳米阴极的上方,栅极和阴极之间依靠栅极基底而相互隔离.测试结果表明,应用半圆组阴栅结构,能够进一步降低阴极-栅极之间的电容效应,提高碳纳米的电子发射能力,并增强三极发射显示器的驱动灵活性.以碳纳米作为阴极材料,进行了三极结构小型发射显示器的研制.该三极显示器具有良好的发射特性,高的发光亮度以及优良的发光图像均匀度,其开启场强约为2.12 V/μm,且制作成本低廉.","authors":[{"authorName":"李玉魁","id":"f09e54f1-6039-4536-bba9-193318e109e5","originalAuthorName":"李玉魁"},{"authorName":"王凤歌","id":"31af8617-9e20-40e2-8391-721ef3d08769","originalAuthorName":"王凤歌"},{"authorName":"刘兴辉","id":"f87dcd44-b20a-461c-be84-10f0c9b28016","originalAuthorName":"刘兴辉"},{"authorName":"曾凡光","id":"14ec5b21-df96-406b-82b8-4bb97c643521","originalAuthorName":"曾凡光"}],"doi":"10.3788/YJYXS20132803.0305","fpage":"305","id":"355dd776-0689-463f-aa37-b1542867b0f1","issue":"3","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 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