Graphene Flash Memory Device
- 技術優勢
- Large memory capacity Ultra-low power consumption Compatible with state-of-the-art technology Strong immunity to short channel effects
- 技術應用
- High speed and ultra low power Flash memory for electronics
- 詳細技術說明
- Researchers at UCLA have reported a breakthrough application for graphene: the Graphene Flash Memory. Through growing large-area graphene sheets by a simple chemical vapor deposition process and incorporating them into a floating gate MOSFET, an All Graphene Flash Memory (AGFM) has been demonstrated. The device exhibits low power consumption and more data per unit area, making AGFM a promising candidate for terabit flash memory. This, in turn, will lead to larger storage capacity and longer battery life in portable electronic devices.
- *Abstract
-
Researchers at UCLA have developed a high-capacity and fast flash memory device through integrating graphene layers with conventional metal-oxide-semiconductor (MOS) technology. The novel device exhibits ultra-low power consumption, making it a promising candidate for terabit flash memory in portable electronic devices.
- *IP Issue Date
- Jul 8, 2014
- *Principal Investigation
-
Name: Augustin Hong
Department:
Name: Ji Young Kim
Department:
Name: Kang Wang
Department:
- 附加資料
- Patent Number: US20130015429A1
Application Number: US13180601A
Inventor: Hong, Augustin J. | Kim, Ji-Young | Wang, Kang-Lung
Priority Date: 12 Jul 2011
Priority Number: US20130015429A1
Application Date: 12 Jul 2011
Publication Date: 17 Jan 2013
IPC Current: H01L002912
US Class: 257029 | 257E29068
Assignee Applicant: The Regents of the University of California
Title: ALL GRAPHENE FLASH MEMORY DEVICE
Usefulness: ALL GRAPHENE FLASH MEMORY DEVICE
Summary: Graphene Flash Memory (GFM) device used in mobile smart phone, portable media player, video camera, memory card, USB flash drive and gaming console.
Novelty: Graphene Flash Memory (GFM) device used in e.g. mobile smart phone, has memory cells comprising graphene channel, graphene storage layer, and graphene electrode on surface of substrate
- 主要類別
- 電子
- 細分類別
- 計算機,通信和消費電子產品 /小工具
- 申請號碼
- 8772853
- 其他
-
Background
The increasing market demand for smaller and faster electronics has so far been meet by reducing transistor sizes. However, the trend will soon reach its physical limits. One solution is to incorporate new material such as graphene with silicon-based electronics. Due to its superb properties, graphene has received enormous attention for potential applications. However, practical graphene devices, which can be integrated into state-of-the-art technology, have not been demonstrated.
Additional Technologies by these Inventors
- Relaxed SiGe Films by Surfactant Mediation
- Vertical Gate-Depleted Single Electron Transistors
- Novel Telegraph Signal Microscope For Visualizing Single Atoms And Detecting Defects In Nanotechnology Devices
- Novel Nanomaterial-based Thermo-Photovoltaic Cells
- Vertical-Stacked-Array-Transistor (VSAT) for Nonvolatile Memory Devices
- Vsat Structure for Nonvolatile Memory Device
- Epitaxial Growth of Single Crystalline MgO on Germanium
- A Self-Organized Critical CMOS Circuit for Computation and Information Processing
- Anti-Ferromagnetic Magneto-Electric Spin-Orbit Read Logic
- Quasi Van Der Walls Epitaxy Of GaAs on Graphene
- Periodically Rippled Antenna
- Graphene-Polymer Nanocomposite Incorporating Chemically Doped Graphene-Polymer Heterostructure for Flexible and Transparent Conductive Films
- Fabrication Of 1D Sinusoidal Silicon Dioxide Substrate
- Strained Voltage-Controlled Magnetic Memory Elements and Devices
Tech ID/UC Case
22141/2011-041-0
Related Cases
2011-041-0
- 國家/地區
- 美國
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