Evaluation of Graphene Nanoribbons for Lateral Bandgap Engineered Devices

用于横向带隙工程器件的石墨烯纳米带的评估

• 批准号: 0802125
• 负责人: Debdeep Jena
• 金额: $ 30万
• 依托单位: University of Notre Dame
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-05-01 至 2012-04-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0802125&HistoricalAwards=false
• 关键词: Evaluation; Graphene; Nanoribbons; Lateral; Bandgap

AbstractECCS-0802125D. Jena, University of Notre DameObjective: The objective of this research is to invstigate whether thin strips of graphene of varying widths can be used to mimic semiconductor heterostructures which form the backbone of many high-performance electronic devices. The approach is to pattern graphene into nanoscale ribbons of varying widths and to investigate the charge tranport and switching properties of such lateral bandgap-engineered devices. Using a combination of theoretical modeling and carefully designed experiments, it is proposed that the device potential of lateral bandgap engineering in graphene nanoribbons will be investigated, leading to the demonstration of the basic building blocks of complex electronic circuits such as rectifiers and switches.Intellectual Merit: The research proposed here is expected to lead to the development of methods to use graphene nanoribbons in a wide range of applications such as transistors, and long-wavelength optical emitters and photodetectors. Since carbon nanostructures are not constrained by lattice-matching requirements, they can be built on any substrates such as glass or flexible/strechable substrates. Their superior electronic properties and low-cost is expected to lead to future generations of large-area electronic, optoelectronic, and sensor technologies.Broader Impact: The project supports two undergraduate students and two graduate students. An outreach program comprises an on-site experimental demonstration of nanoscale scanning probe techniques for local high-school students with the collaboration with a high-school teacher. The dissemination of research results by publications and presentations at conferences, and its inclusion in courses taught by the investigators will ensure the outreach of the research proposed to the widest possible audience.

摘要ECCS-0802125D。耶拿，圣母大学目的：这项研究的目的是调查不同宽度的石墨烯薄带是否可以用于模拟半导体异质结构，半导体异质结构构成了许多高性能电子设备的支柱。 该方法是将石墨烯图案化为不同宽度的纳米级带，并研究此类横向带隙工程器件的电荷传输和开关特性。 结合理论建模和精心设计的实验，提出将研究石墨烯纳米带中横向带隙工程的器件潜力，从而演示整流器和开关等复杂电子电路的基本构建模块。 ：这里提出的研究预计将导致在晶体管、长波长光学发射器和光电探测器等广泛应用中使用石墨烯纳米带的方法的开发。 由于碳纳米结构不受晶格匹配要求的限制，因此它们可以构建在任何基材上，例如玻璃或柔性/可拉伸基材。 其卓越的电子性能和低成本有望催生未来几代大面积电子、光电和传感器技术。 更广泛的影响：该项目支持两名本科生和两名研究生。 一项外展计划包括与一名高中教师合作，为当地高中生进行纳米级扫描探针技术的现场实验演示。 通过出版物和会议上的演讲传播研究成果，并将其纳入研究人员教授的课程中，将确保将拟议的研究推广到尽可能广泛的受众。