Laser Induced Strain Engineering of Graphene
- 总结
- Researchers at Purdue University have developed a technique to tailor the electronic properties of graphene using laser shock pressure to produce controlled straining. The graphene sheet is conformally pressed onto a patterned mold. It takes the shape of the pattern, resulting in tunable strains. It is a one-step operation, with the shock taking only tenths of a nanosecond. The laser shock approach is fast, tunable, low-cost, and can be scaled to produce rolls of graphene in a short period. It is a cost-effective means to produce large amounts of patterned graphene for use in nanoelectrical devices.
- 技术优势
- Scalable and tunable to exact specifications Cost effective
- 技术应用
- Nanophotonic, optoelectronic, and thermoelectric devicesChemical and biological sensors
- 详细技术说明
- Gary ChengPurdue Industrial EngineeringScalable Micro Nano Manufacturing Laboratory
- *Abstract
-
- *Background
- Graphene has attracted significant attention since its discovery because of its structural perfection, low density, excellent electrical properties, superior mechanical properties, etc. However, due to zero band gaps, unpatterned graphene has limited functionality. One approach has been developed that produces graphene nanoribbons and dots, but reliability, scalability, and quality remain an issue for graphene patterning.
- *IP Issue Date
- None
- *IP Type
- Provisional
- *Stage of Development
- Process validation in lab
- *Web Links
- Purdue Office of Technology CommercializationPurdue Innovation and EntrepreneurshipGary ChengPurdue Industrial EngineeringScalable Micro Nano Manufacturing Laboratory
- 国家
- United States
- 申请号码
- None
- 国家/地区
- 美国
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