Conductive paste based on nano-hybrid materials

Authors

Manoj Kumar Ram

Document Type

Article

Publication Date

September 2025

Patent Number

12404411

CPC

C09C 3/066 , C09C 1/0003 , C09C 1/44 , C09D 5/24 , C09D 7/62 , C09D 7/65 , C09D 7/70 , C09J 9/02 , C09J 11/04 , C09J 11/08 , H01B 1/02 , H01B 1/127 , C01P 2004/61 , C01P 2004/62 , C01P 2004/64 , C01P 2004/80 , C01P 2006/32 , C01P 2006/40 , H01M 4/00

Abstract

Hybrid particles having improved electrical conductivity and thermal and chemical stabilities are disclosed. The hybrid particles are for use in conductive pastes. The hybrid particles include a nanoparticle selected from a graphene-containing material, a dichalcogenide material, a conducting polymer, or a combination thereof encapsulated in a conducting metal. The hybrid particles include a nanoparticle selected from a graphene-containing material, a dichalcogenide material, or a combination thereof encapsulated in a conducting polymer, and optionally further in a conducting metal. Suitable conducting metals include nickel or silver. Suitable conducting polymers include polyaniline, polypyrrole, or polythiophene. Suitable dichalcogenide materials include MoS2 or MoSe2. The hybrid particles can further include a conducting polymer layer on an outer surface of the conducting metal. Methods of making the hybrid particles are also disclosed.

Application Number

18/458504

Recommended Citation

Ram, Manoj Kumar, "Conductive paste based on nano-hybrid materials" (2025). USF Patents. 1523.
https://digitalcommons.usf.edu/usf_patents/1523

Assignees

University of South Florida

Filing Date

08/30/2023