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埃德萬斯采訪新聞稿-20161027非硅微納機電制造領(lǐng)域的工匠精神——埃德萬斯盛大亮相納博會
2016年10月26日,由中華人民共和國科學(xué)技術(shù)部、中國科學(xué)院、江蘇省人民政府、中國科學(xué)院上海微系統(tǒng)與信息技術(shù)研究所傳感技術(shù)聯(lián)合國家重點實驗室主辦的,由上海龍媒商務(wù)咨詢有限公司、江蘇省納米技術(shù)創(chuàng)新中心承辦的“2016傳感器與MEMS技術(shù)產(chǎn)業(yè)化國際研討會暨科研成果產(chǎn)品展”與“中國國際納米技術(shù)產(chǎn)業(yè)博覽會(CHInano2016 Conference& Expo)”在蘇州國際博覽中心同期聯(lián)合舉辦。 北京埃德萬斯離子束技術(shù)研究所有限公司(以下簡稱:埃德萬斯)首次在納博會上盛大亮相,并全面展示了由其自主研發(fā)的設(shè)備制成的各類樣品,包括藍(lán)寶石基底Si膜、Ti膜、Pt膜及10μm厚鋁膜;應(yīng)用于高頻寬帶光學(xué)通信的AlN膜;應(yīng)用于可穿戴設(shè)備、柔性集成電路的柔性材料鍍金屬薄膜;應(yīng)用于高端新型電子元器件的合金薄膜電阻;應(yīng)用于航天、導(dǎo)彈、新型雷達(dá)的高溫超導(dǎo)射頻器件;以及微機械器件等。 利用埃德萬斯自主研發(fā)的設(shè)備制成的微結(jié)構(gòu) 可彎折柔性集成電路 埃德萬斯是國內(nèi)著名的先進(jìn)商用離子束技術(shù)產(chǎn)品專業(yè)制造者,前身為在錢學(xué)森提議下成立的航天二院23所“離子束技術(shù)、工藝及成套設(shè)備系統(tǒng)工程部”。公司創(chuàng)始人為國際知名離子束技術(shù)專家劉金聲研究員,從上世紀(jì)八十年代起,劉金聲老師歷經(jīng)38年潛心鉆研離子束技術(shù),率先在國內(nèi)成功研發(fā)出離子束技術(shù)應(yīng)用成套設(shè)備,成為了國內(nèi)這一行業(yè)的領(lǐng)跑者,為埃德萬斯今日的騰飛打下堅實的基礎(chǔ)。 埃德萬斯多年來一直服務(wù)于國內(nèi)航天、軍工兩大領(lǐng)域,提供工藝技術(shù)和配套設(shè)備,為國家重大型號任務(wù)做出卓著貢獻(xiàn),如:衛(wèi)星多軌掃描高分辨率紅外探測器;軍用的紅外成像系統(tǒng);提供精密慣性制導(dǎo)陀螺生產(chǎn)線,研制光纖陀螺和衛(wèi)星晶振系統(tǒng)專用離子束系統(tǒng)等。隨著綜合服務(wù)能力的提升,逐漸將服務(wù)擴大到中科院、清華、北大等頂尖級的國內(nèi)科研院校,以及美國麻省理工大學(xué)、沙特阿卜杜拉國王科技大學(xué)等國外名校。起始至今離子束技術(shù)應(yīng)用設(shè)備累計提供了200多臺。 同時,在本次國際研討會上,埃德萬斯發(fā)言人殷睿婷女士還發(fā)表了題為“Application of Ion Beam in Non-silicon MEMS”(離子束技術(shù)在非硅MEMS中的應(yīng)用)的英文演講。演講中提到,隨著應(yīng)用場景的復(fù)雜化、終端產(chǎn)品的多樣化,硅MEMS傳感器應(yīng)用范圍越來越受局限,眾多國際知名廠商開始注重新材料、新工藝、新技術(shù)的開發(fā),國內(nèi)外MEMS呈現(xiàn)從“硅”到“非硅”的發(fā)展趨勢。 據(jù)麥姆斯咨詢報道,在近些年的“固態(tài)傳感器、執(zhí)行器及微系統(tǒng)研討會”上(The Solid State Sensors, Actuators and Microsystems Workshop,是最高水平MEMS新技術(shù)的展示舞臺,該國際研討會是MEMS領(lǐng)域最具競爭力的會議之一),出現(xiàn)了令硅材料從業(yè)者感到不安的趨勢——關(guān)于硅材料技術(shù)的論文數(shù)量逐年降低。在2016年6月的研討會上,僅有53%的演講論文是關(guān)于硅材料器件的(只要器件中包含了硅材料,無論是作為被動基底還是活性材料)。 固態(tài)傳感器、執(zhí)行器及微系統(tǒng)研討會中硅基器件演講論文的比例 從過去12年來的演講主題可以清晰的看出,硅材料微型器件的學(xué)術(shù)研究熱潮已經(jīng)開始逐漸消退。學(xué)術(shù)研究人員現(xiàn)在開始專注于開發(fā)聚合物和紙基微型器件。利用這些材料開發(fā)的器件,不僅工藝環(huán)保,而且制作設(shè)備簡單、成本較低。相對硅材料,它們大幅縮減了研發(fā)經(jīng)費預(yù)算。許多聚合物和紙基微型器件的創(chuàng)新都指向了醫(yī)療應(yīng)用,對該領(lǐng)域來說,生物相容性和材料的柔性是基本要求。 面對這一產(chǎn)業(yè)發(fā)展趨勢,埃德萬斯自主研發(fā)的離子束技術(shù)應(yīng)用設(shè)備迎來春天。埃德萬斯第四代離子束技術(shù)應(yīng)用系統(tǒng)可加工材料范圍廣泛,可用于刻蝕加工各種金屬、合金、非金屬、氧化物、氮化物、碳化物、半導(dǎo)體、聚合物、陶瓷、紅外、超導(dǎo)甚至生物組織等各種材料。 埃德萬斯現(xiàn)已初步搭建成“自主設(shè)備開發(fā)+工藝技術(shù)研發(fā)+項目加速孵化+代工生產(chǎn)基地”的全產(chǎn)業(yè)鏈生態(tài)布局。與國內(nèi)知名加速器企業(yè)砹立方合作運營的,由國富資本等多支產(chǎn)業(yè)基金對接支持的埃德萬斯微納制造產(chǎn)業(yè)加速孵化器即將揭牌。該垂直產(chǎn)業(yè)加速孵化器具有高度專注、重度垂直的特點,政府融資加外界資本的介入,將助推企業(yè)快速成長。埃德萬斯還計劃在深圳建設(shè)代加工生產(chǎn)基。埃德萬斯將一如既往潛心打造設(shè)備,加大工藝研發(fā)力度,用好產(chǎn)業(yè)資本快速孵化,筑造專業(yè)代工基地,為我國產(chǎn)業(yè)的提升及轉(zhuǎn)型貢獻(xiàn)力量。
Non Silicon Micro Nano Electromechanical Manufacturing Craftsman Spirit -- ADVANCED Grand Debut Nabo Conference In October 26, 2016, sponsored by the People's Republic of China science and technology research department, China Academy of Sciences, Jiangsu Provincial People's government, Chinese Shanghai Institute of micro system and information technology statekeylaboratoriesoftransducertechnology, hosted by Shanghai dragon Media Business Consulting Co., Ltd. and Jiangsu province nanotechnology innovation center "2016 sensor and MEMS technology industrialization international Symposium scientific research and product exhibition" and "China international nanotechnology industry expo (CHInano2016 Conference& Expo)" held in Suzhou International Expo Center during the same period. Beijing advanced ion beam Technology Research Institute Co. Ltd. (hereinafter referred to as: Advanced) debut in nabok grand meeting, and fully demonstrated the made its self-developed equipment all kinds of samples, including sapphire substrate Si film, Ti film, Pt film and 10 m thick aluminum film; AlN film used in high frequency broadband optical communication; flexible materials used in wearable devices, flexible integrated circuit of the metal plating film; alloy thin film resistor used in high-end new electronic components; High Temperature Superconducting RF devices used in aerospace, missile and radar model; and micro mechanical devices etc.. The use of micro structure made of advanced self-developed equipment Flexible flexible integrated circuit Ed Vance is the famous domestic advanced commercial ion beam technology products manufacturer, formerly known as Tsien Hsueshen proposed the establishment of second academy 23 "ion beam technology, technology and equipment system engineering department". Company founder of international famous ion beam technology expert Liu Jinsheng researcher, from late 80s onwards, Liu Jinsheng teacher after 38 years of painstaking study of ion beam technology, the first in China successfully developed the application of ion beam technology and equipment, has become the domestic industry leader, a solid foundation for the development of today's advanced. Advanced years of service in the domestic space, two military areas, to provide technology and equipment, to make outstanding contributions, for major national type tasks such as satellite multitrack scanning high resolution infrared detector; infrared imaging system protection; to provide precision inertial guidance gyroscope production line, development of special ion optical fiber gyro and satellite oscillator system beam system. With the comprehensive service capabilities, service will gradually expand to the Chinese Academy of Sciences, Tsinghua University, Beijing University and other top domestic research institutions, and MIT, Saudi King Abdullah University of science and technology and other foreign schools. Since the beginning, the ion beam technology application equipment has accumulated more than 200 units. At the same time, the International Symposium on advanced spokesman Ms. Yin Ruiting also published an article entitled "Application of Ion Beam in Non-silicon MEMS" (the application of ion beam technology in non silicon MEMS in the English speech). Mentioned in the speech, with diverse and complex, the terminal product application scenarios, the application range of silicon MEMS sensor is more and more limited, many international well-known manufacturers began to develop new material and technology, focusing on the domestic and foreign MEMS present from "Si" to "non silicon" trend of development. According to Mr James consultation reports, in recent years the "solid state sensors, actuators and Microsystems forum" (The Solid State Sensors Actuators and, Microsystems Workshop, is a new technology which is the highest level MEMS stage show, the International Symposium on the field of MEMS is one of the most competitive Conference), appeared to practitioners of silicon materials feel uneasy about the trend: the quantity of silicon material and technology papers decreased year by year. In the June 2016 workshop, only 53% of the speech papers were on silicon material devices (as long as the devices contained silicon material, either as passive substrate or as active material). Solid state sensors, actuators and Microsystems symposium, silicon devices, lecture papers, percentage It is clear from the topic of speech over the past 12 years that the academic research craze for silicon materials micro devices has begun to fade. Academic researchers are now focusing on developing polymers and paper based microdevices. The devices developed with these materials are not only environmentally friendly, but also easy to manufacture and low in cost. Relative to silicon materials, they substantially reduce R & D budget. Many innovations in polymers and paper based devices point to medical applications, and biocompatibility and material flexibility are essential requirements for the field. In the face of this industry development trend, independent research and development of advanced applications of ion beam technology equipment to usher in the spring. The four generation Aidewansidi ion beam technology application system can process a wide range of materials, can be used for etching processing all kinds of metal, alloy, metal, oxides, nitrides, carbides, semiconductors, polymers, ceramics, infrared, superconducting and biological tissue and other materials. Advanced has been initially built into the whole industry chain of ecological layout independent equipment development + technology + R & D project to accelerate the incubation + OEM production base ". With the cooperative operation of domestic well-known cubic astatine accelerator enterprises, backed by the wealth capital and many other branches of industry fund docking Ed million Siwei nano manufacturing industry to accelerate the incubators will be inaugurated. The vertical industry to accelerate the incubator has a high degree of attention, serious vertical features, government financing and external capital involvement, will boost the rapid growth of enterprises. Ed Vance also plans to build a production base in Shenzhen. As in the past will strive to build the equipment advanced technology research and development, increase efforts to make good use of industrial capital fast hatching, build professional OEM base for China's industrial upgrading and transformation of contribution. |