出国留学研究计划模板
风雨中是你的身影出国留学研究计划模板
  篇一:访问学者研究计划中文模版
   访问学者研究计划中文模版
   厚 谱 教 育:访问学者申请领跑者
    访问学者向导师提交研究计划,是得到导师认可的重要部分,为大家提供一份中文模板如下
   ①留学专业(研究课题)在国内外研究情况及水平研究课题:*******研究(属****专业)。
   *****是一种****技术,具有******等特点。国外自*****就开展了对******技术的研究。国内对该项技术研究的开展相对较晚,申请人及所在团队自****年起一直从事****技术研究,取得了许多研究成果。但随着技术研究的不断深入,急需了解和掌握最新的技术现状和研究方法,以提高技术水平,为****提供技术支持。
    ②拟选择的留学国别、留学单位及选择原因美国****大学(*** University)。
    美国****大学成立于****年,美国综合大学排名第**位,其中*****专业排名第*位。****大学始建于****年,隶属于该校*****系。该中心始终致力于*****技术研究,研究内容主要包括************等,与申请人的研究方向非常一致,其研究成果具有较高的学术水平和应用价值。
    申请人与对方成员有着较为密切的联系,主要通过等方式交流相关技术问题;另外,申请人于*****年在****曾与该中心的******做过深入的交流。
    ③达到本次出国学习预期目标的可行性
    申请人曾先后承担及作为技术骨干参与本领域科研课题***余项,出版****技术方面的专著*部,发表论文****余篇。对本研究领域有着较为深入的了解和把握。这些都为本次出国学习奠定了坚实的基础,相信通过努力,一定会达到预期的研究目标。
    ④出国学习目的、预期目标、计划、实施方法及所需时间目的:力争在*****等方面做深入学习。
  目标:了解先进的科学研究理念,掌握*****方法和研究手段,掌握****技术要领,了解国外相关技术应用领域及现状。
   计划、实施及时间安排(共3个月):(0~7天)技术和研究环境适应:了解该中心现有项目及计划,熟悉技术背景资料;(8~14天)研究方案制定:与该中心人员交流,结合现有研究和留学目标,制定可行研究方案;(15~75天)开展项目研究:与该中心人员合作,了解和熟悉相关技术手段,开展细致研究;(76~82天)总结分析及补充实验:开展研究总结与分析,并对必要的实验进行补充;(83~90天)相关技术调研与考察:考察参观美国开展******技术研究的其他研究机构,如*****大学****学院等。
   ⑤学成回国后的工作/学习计划及工作单位可提供的科研条件
噗怎么读    学成回国后我将回到本单位,继续从事相关学科技术的教学与科研工作;同时借鉴国外先进的研究工作思路和理念,通过我校历来对本重点实验室的资助及我们自身科研经费的投入,提升我所在的******实验室的研究层次,提高承担更高级别科研课题的能力及本实验室的研究水平,为学科建设和人才培养提供更好的条件。
  篇二:Research Proposal访学研究计划模板
十月节日   研究计划
   Research Proposal
  1
  2
   篇三:留学美国签证研究计划模板大全
   留学美国签证研究计划模板大全(1) 中国最美十大海岛
    Descriptions of the research plan
    Title: Synthesis, Formation Mechanism, and Properties of Different Metal/Metal Nanostructures
   Keywords: Multi-Shell Nanostructures, Ionic Liquids, Electrochemistry, Multi-Functionality,
   Porous Metal Materials, Low-Dimensionality, Green Chemistry Objectives: This program is to develop a novel method for fabricating heterogeneous or alloyed different metal/metal low-dimensional nanostructures, for example, multi-shell or porous Ag-Au nanowires, nanorods, and nanocubes using an ionic liquid as both the solvent and shape-inducing template. Synthesis of ionic liquids (ILs) with different alkyl chains and functional groups, as well as the formation of different metal/metal nanostructures with new properties are involved in this research plan. Alloyed or heterogeneous multi-shell nanostructures are generated by utilizing electrochemical (electroless) deposition or a simple galvanic replacement reaction in ILs. By controlling the size, shape, composition, crystal structure and surface properties of these structures, it enables us not only to uncover their intrinsic properties, but exploit their formation mechanism in ILs media, as well as their applications in catalysis, surface-enhanced Raman scattering (SERS), sensors, porous electrodes, etc. This green chemistry process also may be extended to synthesize other organic and inorganic nanostructures with novel properties, morphology and complex form. State-of-the-art
臧洪娜   Metal nanostructures have numerous applications as nanoscale building blocks, templates, and components in chemical and biological sensors, as well as electronic/optical devices, due to their interesting optical, catalytic and electrical properties that depend strongly on both size and shape. Over the past decade, impressive progress has been made towards the fairly good shape and size control of metal nanostructures [1][2]. For noble metals, more emphasis is placed on tuning the novel shape-dependent properties of these nanostructures in contrast to the size-dependency. A variety of metallic building blocks with unique properties have been synthesized including cubes
   [3][4], prisms [5], disks [6], and hollow nanostructures [7]. Currently the interests migrate to the synthesis and application of more complex structures with different metals, such as multi-shell and heterogeneous nanostructures having new properties[8][9], coupling a conception for optimizing preparative strategies in an environmentally benign system[10]. Therefore, besides creating novel nanostructures with unique properties, a problem arising from the utilization of volatile or poisonous organic solvents and additives
is of much concern in view of cleaner technology throughout both industry and academia.
>凭证式国债

版权声明:本站内容均来自互联网,仅供演示用,请勿用于商业和其他非法用途。如果侵犯了您的权益请与我们联系QQ:729038198,我们将在24小时内删除。