On June 9, 2022, Jung, Dongjun; Lim, Chaehong; Park, Chansul; Kim, Yeongjun; Kim, Minseong; Lee, Seunghwan; Lee, Hyunjin; Kim, Jeong Hyun; Hyeon, Taeghwan; Kim, Dae-Hyeong published an article.Name: 1-Decanethiol The title of the article was Adaptive Self-Organization of Nanomaterials Enables Strain-Insensitive Resistance of Stretchable Metallic Nanocomposites. And the article contained the following:
Highly conductive and stretchable nanocomposites are promising material candidates for skin electronics. However, the resistance of stretchable metallic nanocomposites highly depends on external strains, often deteriorating the performance of fabricated electronic devices. Here, a material strategy for the highly conductive and stretchable nanocomposites comprising metal nanomaterials of various dimensions and a viscoelastic block-copolymer matrix is presented. The resistance of the nanocomposites can be well retained under skin deformations (<50% strain). It is demonstrated that silver nanomaterials can self-organize inside the viscoelastic media in response to external strain when their surface is conjugated with 1-decanethiol. Distinct self-organization behaviors associated with nanomaterial dimensions and strain conditions are found. Adopting the optimum composition of 0D/1D/2D silver nanomaterials can render the resistance of the nanocomposites insensitive to uniaxial or biaxial strains. As a result, the resistance can be maintained with a variance of < 1% during 1000 stretching cycles under uniaxial and biaxial strains of <50% while a high conductivity of ∼ 31 000 S cm-1 is achieved. The experimental process involved the reaction of 1-Decanethiol(cas: 143-10-2).Name: 1-Decanethiol
The Article related to nanomaterial strain insensitive resistance stretchable metallic nanocomposite, metallic nanocomposites, self-organization of nanomaterials, skin electronics, strain-insensitive resistance, stretchable conductors and other aspects.Name: 1-Decanethiol
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