Heterolayered, one-dimensional nanobuilding block mat batteries

Authors

Keun Ho Choi, Ulsan National Institute of Science and Technology
Sung Ju Cho, Ulsan National Institute of Science and Technology
Sang Jin Chun, Korea Forest Research Institute, Seoul
Jong Tae Yoo, Korea Institute of Industrial Technology
Chang Kee Lee, Korea Institute of Industrial Technology
Woong Kim, Korea University
Qinglin Wu, LSU Agricultural Center
Sang Bum Park, Korea Forest Research Institute, Seoul
Don Ha Choi, Korea Forest Research Institute, Seoul
Sun Young Lee, Korea Forest Research Institute, Seoul
Sang Young Lee, Ulsan National Institute of Science and Technology

Document Type

Article

Publication Date

10-8-2014

Abstract

The rapidly approaching smart/wearable energy era necessitates advanced rechargeable power sources with reliable electrochemical properties and versatile form factors. Here, as a unique and promising energy storage system to address this issue, we demonstrate a new class of heterolayered, one-dimensional (1D) nanobuilding block mat (h-nanomat) battery based on unitized separator/electrode assembly (SEA) architecture. The unitized SEAs consist of wood cellulose nanofibril (CNF) separator membranes and metallic current collector-/polymeric binder-free electrodes comprising solely single-walled carbon nanotube (SWNT)-netted electrode active materials (LiFePO4 (cathode) and Li4Ti5O12 (anode) powders are chosen as model systems to explore the proof of concept for h-nanomat batteries). The nanoporous CNF separator plays a critical role in securing the tightly interlocked electrode-separator interface. The SWNTs in the SEAs exhibit multifunctional roles as electron conductive additives, binders, current collectors and also non-Faradaic active materials. This structural/physicochemical uniqueness of the SEAs allows significant improvements in the mass loading of electrode active materials, electron transport pathways, electrolyte accessibility and misalignment-proof of separator/electrode interface. As a result, the h-nanomat batteries, which are easily fabricated by stacking anode SEA and cathode SEA, provide unprecedented advances in the electrochemical performance, shape flexibility and safety tolerance far beyond those achievable with conventional battery technologies. We anticipate that the h-nanomat batteries will open 1D nanobuilding block-driven new architectural design/opportunity for development of next-generation energy storage systems.

Publication Source (Journal or Book title)

Nano Letters

First Page

5677

Last Page

5686

Recommended Citation

Choi, K., Cho, S., Chun, S., Yoo, J., Lee, C., Kim, W., Wu, Q., Park, S., Choi, D., Lee, S., & Lee, S. (2014). Heterolayered, one-dimensional nanobuilding block mat batteries. Nano Letters, 14 (10), 5677-5686. https://doi.org/10.1021/nl5024029