Joung Sook Hong scite author profile

The long-term, continuous, inconspicuous, and noiseless monitoring of bioelectrical signals is critical to the early diagnosis of disease and monitoring health and wellbeing. However, it is a major challenge to record the bioelectrical signals of patients going about their daily lives because of the difficulties of integrating skin-like conducting materials, the measuring system, and medical technologies in a single platform. In this study, we developed a thin epidermis-like electronics that is capable of repeated self-adhesion onto skin, integration with commercial electronic components through soldering, and conformal contact without serious motion artifacts. Using well-mixed carbon nanotubes and adhesive polydimethylsiloxane, we fabricated an epidermal carbon nanotube electronics which maintains excellent conformal contact even within wrinkles in skin, and can be used to record electrocardiogram signals robustly. The electrode is biocompatible and can even be operated in water, which means patients can live normal lives despite wearing a complicated recording system.

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Interfacial tension reduction in PBT/PE/clay nanocomposite

Hong

et al. 2006

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Nonlinear viscoelasticity of polymer nanocomposites under large amplitude oscillatory shear flow

Lim¹,

Ahn²,

Hong³

et al. 2013

Journal of Rheology

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Joung Sook Hong

The role of organically modified layered silicate in the breakup and coalescence of droplets in PBT/PE blends

Self-adhesive epidermal carbon nanotube electronics for tether-free long-term continuous recording of biosignals

Interfacial tension reduction in PBT/PE/clay nanocomposite

Nonlinear viscoelasticity of polymer nanocomposites under large amplitude oscillatory shear flow

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