Jae-Do Nam scite author profile

Electroadhesive devices can lift materials of different shapes and various types using the electrostatic force developed at the interface between the device and the object. More specifically, the electrical potential generated by the device induces opposite charges on the object to give electrostatic Maxwell force. Although this technology has a great deal of potential, the key design factors based on the fundamental principles of interfacial polarization have yet to be clearly identified. In this study, we identify that the lifting force is quantitatively related to the total length of the boundary edges of the electrodes, where the induced charges are selectively concentrated. We subsequently propose a model equation that can predict the electrostatic lifting forces for different object materials as a function of the applied voltage, impedance, and electrode-boundary length. The model is based on the fact that the amount of induced charges should be concentrated where the equipotential field distance is minimal. We report that the impedance magnitude is correlated with the electroadhesive lifting forces by analyzing the impedance characteristics of objects made of different materials (e.g., paper, glass, or metal), as attached in situ to the electroadhesive device.

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Direct methanol fuel cell Pt–carbon catalysts by using SBA-15 nanoporous templates

Nam

Jang

Kwon

et al. 2004

Electrochemistry Communications

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Magnetorheological Elastomers: Fabrication, Characteristics, and Applications

et al. 2020

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Magnetorheological (MR) elastomers become one of the most powerful smart and advanced materials that can be tuned reversibly, finely, and quickly in terms of their mechanical and viscoelastic properties by an input magnetic field. They are composite materials in which magnetizable particles are dispersed in solid base elastomers. Their distinctive behaviors are relying on the type and size of dispersed magnetic particles, the type of elastomer matrix, and the type of non-magnetic fillers such as plasticizer, carbon black, and crosslink agent. With these controllable characteristics, they can be applied to various applications such as vibration absorber, isolator, magnetoresistor, and electromagnetic wave absorption. This review provides a summary of the fabrication, properties, and applications of MR elastomers made of various elastomeric materials.

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Electrical Interconnection with a Smart ACA Composed of Fluxing Polymer and Solder Powder

Eom¹,

Jang²,

Moon³

et al. 2010

ETRI J

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Characterization of polymer matrix and low melting point solder for anisotropic conductive film

Eom

Baek

Moon

et al. 2008

Microelectronic Engineering

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Jae-Do Nam

Quantitative Electrode Design Modeling of an Electroadhesive Lifting Device Based on the Localized Charge Distribution and Interfacial Polarization of Different Objects

Direct methanol fuel cell Pt–carbon catalysts by using SBA-15 nanoporous templates

Magnetorheological Elastomers: Fabrication, Characteristics, and Applications

Electrical Interconnection with a Smart ACA Composed of Fluxing Polymer and Solder Powder

Characterization of polymer matrix and low melting point solder for anisotropic conductive film

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