A Highly Conductive and Tough Binary Metalgel DOI Open Access
Jie Song, Tingting Ye, Yiran Li

et al.

Advanced Functional Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 23, 2024

Abstract Materials that combine metallic electrical conductivity and high toughness are in great demand for advancing flexible electronics. However, such materials still lacking. Previously reported with (≥1 × 10 6 S·m ‒1 ) usually compromise on (<3 MJ·m ‒3 ). Here, a binary metalgel is presented features metal continuum stabilized by three‐dimensional polymer network. The consists of hard particles encapsulated soft liquid metal. continuous conductive pathways within the network enable 2.50 . Additionally, combination particles, metal, facilitates stress transfer throughout material, creating triple‐mode energy dissipation mechanism enhances to 14.40 This strategy offers valuable framework developing achieve both superior mechanical properties.

Language: Английский

Recent Advances in the Tunable Optoelectromagnetic Properties of PEDOTs DOI Creative Commons
Ling Zhu,

Qi Liu,

Y L Zhang

et al.

Molecules, Journal Year: 2025, Volume and Issue: 30(1), P. 179 - 179

Published: Jan. 4, 2025

Conducting polymers represent a crucial class of functional materials with widespread applications in diverse fields. Among these, poly(3,4-ethylenedioxythiophene) (PEDOT) and its derivatives have garnered significant attention due to their distinctive optical, electronic, magnetic properties, as well exceptional tunability. These properties often exhibit intricate interdependencies, manifesting synergistic, concomitant, or antagonistic relationships. In optics, PEDOTs are renowned for high transparency unique photoelectric responses. From an electrical perspective, they display conductivity, thermoelectric, piezoelectric performance, along notable electrochemical activity stability, enabling wide array electronic applications. terms demonstrate outstanding electromagnetic shielding efficiency microwave absorption capabilities. Moreover, these can be precisely tailored through molecular structure modifications, chemical doping, composite formation suit various application requirements. This review systematically examines the mechanisms underlying optoelectromagnetic PEDOTs, highlights tunability, outlines prospective research directions. By providing critical theoretical insights technical references, this aims advance landscape PEDOTs.

Language: Английский

Citations

0
A Highly Conductive and Tough Binary Metalgel DOI Open Access
Jie Song, Tingting Ye, Yiran Li

et al.

Advanced Functional Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 23, 2024

Abstract Materials that combine metallic electrical conductivity and high toughness are in great demand for advancing flexible electronics. However, such materials still lacking. Previously reported with (≥1 × 10 6 S·m ‒1 ) usually compromise on (<3 MJ·m ‒3 ). Here, a binary metalgel is presented features metal continuum stabilized by three‐dimensional polymer network. The consists of hard particles encapsulated soft liquid metal. continuous conductive pathways within the network enable 2.50 . Additionally, combination particles, metal, facilitates stress transfer throughout material, creating triple‐mode energy dissipation mechanism enhances to 14.40 This strategy offers valuable framework developing achieve both superior mechanical properties.

Language: Английский

Citations

0