Seong Dae Kim scite author profile

Efficient and highly functional three-dimensional systems that are ubiquitous in biology suggest that similar design architectures could be useful in electronic and optoelectronic technologies, extending their levels of functionality beyond those achievable with traditional, planar two-dimensional platforms. Complex three-dimensional structures inspired by origami, kirigami have promise as routes for two-dimensional to three-dimensional transformation, but current examples lack the necessary combination of functional materials, mechanics designs, system-level architectures, and integration capabilities for practical devices with unique operational features. Here, we show that two-dimensional semiconductor/semi-metal materials can play critical roles in this context, through demonstrations of complex, mechanically assembled three-dimensional systems for light-imaging capabilities that can encompass measurements of the direction, intensity and angular divergence properties of incident light. Specifically, the mechanics of graphene and MoS2, together with strategically configured supporting polymer films, can yield arrays of photodetectors in distinct, engineered three-dimensional geometries, including octagonal prisms, octagonal prismoids, and hemispherical domes.

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Additive-free thick graphene film as an anode material for flexible lithium-ion batteries

Rana

Kim

Ahn

2015

Nanoscale

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This work demonstrates a simple route to develop mechanically flexible electrodes for Li-ion batteries (LIBs) that are usable as lightweight effective conducting networks for both cathodes and anodes. Removing electrochemically dead elements, such as binders, conducting agents and metallic current collectors, from the battery components will allow remarkable progress in this area. To investigate the feasibility of using thick, additive-free graphene films as anodes for flexible LIBs, we have synthesized and tested thick, additive-free, freestanding graphene films as anodes, first in a coin cell and further in a flexible full cell. As an anode material in a half cell, it showed a discharge capacity of about 350 mA h g(-1) and maintained nearly this capacity over 50 cycles at various current rates. This film was also tested as an anode material in a full cell with a LiCoO2 cathode and showed good electrochemical performance. Because the graphene-based flexible film showed good performance in half- and full coin cells, we used this film as a flexible anode for flexible LIBs. No conducting agent or binder was used in the anode side, which helped in realizing the flexible LIBs. Using this, we demonstrate a thin, lightweight and flexible lithium ion battery with good electrochemical performance in both its flat and bent states.

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Graphene‐Based Nanomaterials for Flexible and Stretchable Batteries

Kim

Sarkar

Ahn

2021

Small

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Scale-invariant template matching using histogram of dominant gradients

Yoo

Hwang

Kim

et al. 2014

Pattern Recognition

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Additive-free synthesis of Li₄Ti₅O₁₂nanowire arrays on freestanding ultrathin graphite as a hybrid anode for flexible lithium ion batteries

2016

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Seong Dae Kim

Two-dimensional materials in functional three-dimensional architectures with applications in photodetection and imaging

Additive-free thick graphene film as an anode material for flexible lithium-ion batteries

Graphene‐Based Nanomaterials for Flexible and Stretchable Batteries

Scale-invariant template matching using histogram of dominant gradients

Additive-free synthesis of Li₄Ti₅O₁₂nanowire arrays on freestanding ultrathin graphite as a hybrid anode for flexible lithium ion batteries

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Seong Dae Kim

Two-dimensional materials in functional three-dimensional architectures with applications in photodetection and imaging

Additive-free thick graphene film as an anode material for flexible lithium-ion batteries

Graphene‐Based Nanomaterials for Flexible and Stretchable Batteries

Scale-invariant template matching using histogram of dominant gradients

Additive-free synthesis of Li4Ti5O12nanowire arrays on freestanding ultrathin graphite as a hybrid anode for flexible lithium ion batteries

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Additive-free synthesis of Li₄Ti₅O₁₂nanowire arrays on freestanding ultrathin graphite as a hybrid anode for flexible lithium ion batteries