| 发明名称 | Ultraviolet, infrared and terahertz photo/radiation sensors using graphene layers to enhance sensitivity | ||
| 摘要 | Ultraviolet (UV), Terahertz (THZ) and Infrared (IR) radiation detecting and sensing systems using graphene nanoribbons and methods to making the same. In an illustrative embodiment, the detector includes a substrate, single or multiple layers of graphene nanoribbons, and first and second conducting interconnects each in electrical communication with the graphene layers. Graphene layers are tuned to increase the temperature coefficient of resistance to increase sensitivity to IR radiation. Absorption over a wide wavelength range of 200 nm to 1 mm are possible based on the two alternative devices structures described within. These two device types are a microbolometer based graphene film where the TCR of the layer is enhanced with selected functionalization molecules. The second device structure consists of a graphene nanoribbon layers with a source and drain metal interconnect and a deposited metal of SiO2 gate which modulates the current flow across the phototransistor detector. | ||
| 申请公布号 | US9525136(B1) | 申请公布日期 | 2016.12.20 |
| 申请号 | US201414580198 | 申请日期 | 2014.12.22 |
| 申请人 | Magnolia Optical Technologies, Inc. | 发明人 | Egerton Elwood J.;Sood Ashok K. |
| 分类号 | C01B31/04;H01L51/00;H01L51/44;H01L51/42 | 主分类号 | C01B31/04 |
| 代理机构 | Loginov & Associates, PLLC | 代理人 | Loginov & Associates, PLLC ;Loginov William A. |
| 主权项 | 1. A method for converting carbon nanotubes into graphene sheets comprising the steps of: providing hydrogen plasma at temperatures of 32-200 degrees Fahrenheit; and with the provided plasma, etching latent defects in carbon nanotubes and thereby split the carbon nanotubes in a longitudinal direction resulting in graphene sheets. | ||
| 地址 | Woburn MA US | ||