State Key Laboratory Base of Eco-Chemical Engineering, College of Chemical Engineering, Qingdao University of Science and Technology, 53# Zhengzhou Road, Qingdao 266042, China.
Guangxi Key Laboratory of Clean Pulp and Papermaking and Pollution Control, College of Light Industry and Food Engineering, Guangxi University, 100# Daxue Road, Nanning 530004, China.
Bioresour Technol. 2024 Jun;401:130711. doi: 10.1016/j.biortech.2024.130711. Epub 2024 Apr 17.
Lithium carboxymethyl cellulose (CMC-Li) is a promising novel water-based binder for lithium-ion batteries. The direct synthesis of CMC-Li was innovatively developed using abundant wood dissolving pulp materials from hardwood (HW) and softwood (SW). The resulting CMC-Li-HW and CMC-Li-SW binders possessed a suitable degree of substitutions and excellent molecular weight distributions with an appropriate quantity of long- and short-chain celluloses, which facilitated the construction of a reinforced concrete-like bonding system. When used as cathode binders in LiFePO batteries, they uniformly coated and dispersed the electrode materials, formed a compact and stable conductive network with high mechanical strength and showed sufficient lithium replenishment. The prepared LiFePO batteries exhibited good mechanical stability, low charge transfer impedance, high initial discharge capacity (∼180 mAh/g), high initial Coulombic efficiency (99 %), excellent cycling performance (<3% loss over 200 cycles) and good rate capability, thereby outperforming CMC-Na and the widely used cathode binder polyvinylidene fluoride.
羧甲基纤维素锂(CMC-Li)是一种很有前途的新型水基锂离子电池粘结剂。本研究创新性地利用丰富的阔叶木(HW)和针叶木(SW)溶解浆材料直接合成 CMC-Li。所得到的 CMC-Li-HW 和 CMC-Li-SW 粘结剂具有适宜的取代度和良好的分子量分布,具有适量的长链和短链纤维素,有利于构建增强型类似混凝土的粘结体系。将其用作 LiFePO4 电池的阴极粘结剂时,均匀包覆和分散电极材料,形成具有高机械强度的紧密稳定的导电网络,并表现出足够的锂补充。所制备的 LiFePO4 电池具有良好的机械稳定性、低电荷转移阻抗、高初始放电容量(约 180 mAh/g)、高初始库仑效率(99%)、优异的循环性能(<3%的容量损失,循环 200 次后)和良好的倍率性能,优于 CMC-Na 和广泛使用的阴极粘结剂聚偏二氟乙烯。
