Department of Chemistry and KAIST Institute NanoCentury, Korea Advanced Institute of Science and Technology (KAIST), 291 Daehak-ro, Yuseong-gu Daejeon, 34141, Republic of Korea.
School of Chemical and Biological Engineering and Institute of Chemical Processes, Seoul National University, 1 Gwanak-ro, Gwanak-gu Seoul, 08826, Republic of Korea.
Adv Mater. 2018 Jun;30(26):e1707594. doi: 10.1002/adma.201707594. Epub 2018 May 14.
New binder concepts have lately demonstrated improvements in the cycle life of high-capacity silicon anodes. Those binder designs adopt adhesive functional groups to enhance affinity with silicon particles and 3D network conformation to secure electrode integrity. However, homogeneous distribution of silicon particles in the presence of a substantial volumetric content of carbonaceous components (i.e., conductive agent, graphite, etc.) is still difficult to achieve while the binder maintains its desired 3D network. Inspired by mucin, the amphiphilic macromolecular lubricant, secreted on the hydrophobic surface of gastrointestine to interface aqueous serous fluid, here, a renatured DNA-alginate amphiphilic binder for silicon and silicon-graphite blended electrodes is reported. Mimicking mucin's structure comprised of a hydrophobic protein backbone and hydrophilic oligosaccharide branches, the renatured DNA-alginate binder offers amphiphilicity from both components, along with a 3D fractal network structure. The DNA-alginate binder facilitates homogeneous distribution of electrode components in the electrode as well as its enhanced adhesion onto a current collector, leading to improved cyclability in both silicon and silicon-graphite blended electrodes.
最近,新型粘结剂概念提高了高容量硅阳极的循环寿命。这些粘结剂设计采用了具有粘性官能团的设计,以增强与硅颗粒的亲和力,并采用 3D 网络构象来确保电极的完整性。然而,在存在大量碳质成分(即导电剂、石墨等)的情况下,硅颗粒的均匀分布仍然难以实现,同时粘结剂还需要保持其所需的 3D 网络。受粘蛋白的启发,粘蛋白是一种在胃肠道疏水表面分泌的两亲性高分子润滑剂,用于与水性浆液流体相界面,本文报道了一种用于硅和硅-石墨混合电极的复性 DNA-海藻酸盐两亲粘结剂。复性 DNA-海藻酸盐粘结剂模仿粘蛋白的结构,由疏水蛋白质主链和亲水低聚糖支链组成,两种成分都具有两亲性,以及 3D 分形网络结构。DNA-海藻酸盐粘结剂有助于电极成分在电极中的均匀分布,并增强其与集流器的粘附力,从而提高硅和硅-石墨混合电极的循环稳定性。
