Scalable Synthesis of Nanocomposite Nanostructures Embedded in a Carbon Matrix
- 详细技术说明
- An in situ, scalable method was developed for creating a variety of transition metal oxide–carbon nanocomposites that can be used as high-performing anode and cathode materials for lithium ion batteries (LIB).
- *Abstract
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Advances inlithium battery technology have spurred substantially growth that has permeatedthroughout the changing energy landscape, becoming ubiquitous systems in portableelectronics and automotive applications. As part of the ongoing effort towards advancing battery performance andstability, researchers at Cornell developed a scalable method for synthesizingtransition metal-carbon nanocomposite anodes and cathodes. This newly developed approach yields across-linked polymer network, which uniformly incorporates nanometer-sizedtransition metal oxide particles that are nearly monodispersed and uniformlyembedded in a porous carbon matrix.
The validation ofthis method is seen through standard electrochemical measurements on lithiumhalf-cells containing a Fe3O4–carbon composite anode,which exhibited stable performance at both low and high current output. Inaddition, the method can be readily adapted to synthesize metal oxide/carbonnanocomposites based on different particle chemistries for applications in boththe anode and cathode of LIBs.
Potential Applications
- Active anode and cathode materials for Lithium ion batteries
Advantages
- Stable cycling performance at low and high current densities
- Method works with a wide variety of materials
Keywords: Alternative & Green Energy, Batteries,Cleantech, Industrial Nanofabrication, Materials, Nanocomposites, NovelProcesses, Physical Science, Polymers, Engineering, Chemicals, SyntheticMethods, Energy, Storage Devices, Materials, Energy Storage, Battery,Batteries, Anode, Cathode, Lithium Ion (LIB, Li-Ion)
- *Licensing
- Carolyn Theodorecat42@cornell.edu607-254-4514
- 其他
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- Yang, Z; Shen, J.; Archer, LA, “An In Situ Method of Creating Metal Oxide-Carbon Composites and Their Application as Anode Material for Lithium-Ion Batteries”, Journal of Materials Chemistry, June 2011.
- Pending US application 14/098,838
- 国家/地区
- 美国
