High optical transparent two-dimensional electronic conducting system and process for generating same
Abstract
Hybrid transparent conducting materials are disclosed which combine a polycrystalline film and conductive nanostructures, in which the polycrystalline film is “percolation doped” with the conductive nanostructures. The polycrystalline film preferably is a single atomic layer thickness of polycrystalline graphene, and the conductive nanostructures preferably are silver nanowires.
- Inventors:
- Issue Date:
- Research Org.:
- Purdue Univ., West Lafayette, IN (United States)
- Sponsoring Org.:
- USDOE
- OSTI Identifier:
- 1986855
- Patent Number(s):
- 11515057
- Application Number:
- 17/062,788
- Assignee:
- Purdue Research Foundation (West Lafayette, IN)
- DOE Contract Number:
- SC0001085
- Resource Type:
- Patent
- Resource Relation:
- Patent File Date: 10/05/2020
- Country of Publication:
- United States
- Language:
- English
Citation Formats
Alam, Muhammad Ashraful, Chen, Ruiyi, Das, Suprem R., Janes, David B., Jeong, Changwook, and Lundstrom, Mark. High optical transparent two-dimensional electronic conducting system and process for generating same. United States: N. p., 2022.
Web.
Alam, Muhammad Ashraful, Chen, Ruiyi, Das, Suprem R., Janes, David B., Jeong, Changwook, & Lundstrom, Mark. High optical transparent two-dimensional electronic conducting system and process for generating same. United States.
Alam, Muhammad Ashraful, Chen, Ruiyi, Das, Suprem R., Janes, David B., Jeong, Changwook, and Lundstrom, Mark. Tue .
"High optical transparent two-dimensional electronic conducting system and process for generating same". United States. https://www.osti.gov/servlets/purl/1986855.
@article{osti_1986855,
title = {High optical transparent two-dimensional electronic conducting system and process for generating same},
author = {Alam, Muhammad Ashraful and Chen, Ruiyi and Das, Suprem R. and Janes, David B. and Jeong, Changwook and Lundstrom, Mark},
abstractNote = {Hybrid transparent conducting materials are disclosed which combine a polycrystalline film and conductive nanostructures, in which the polycrystalline film is “percolation doped” with the conductive nanostructures. The polycrystalline film preferably is a single atomic layer thickness of polycrystalline graphene, and the conductive nanostructures preferably are silver nanowires.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2022},
month = {11}
}
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