We have discovered a very simple method to address the challenge associated with the low volumetric energy density of free-standing carbon nanofiber electrodes for supercapacitors by electrospinning Kraft lignin in the presence of an oxidizing salt (NaNO3) and subsequent carbonization in a reducing atmosphere. The presence of the oxidative salt decreases the diameter of the resulting carbon nanofibers doubling their packing density from 0.51 to 1.03 mg cm–2 and hence doubling the volumetric energy density. At the same time, the oxidative NaNO3 salt eletrospun and carbonized together with lignin dissolved in NaOH acts as a template to increase the microporosity, thus contributing to a good gravimetric energy density. By simply adjusting the process parameters (amount of oxidizing/reducing agent), the gravimetric and volumetric energy density of the resulting lignin free-standing carbon nanofiber electrodes can be carefully tailored to fit specific power to energy demands. The areal capacitance increased from 147 mF cm–2 in the absence of NaNO3 to 350 mF cm–2 with NaNO3 translating into a volumetric energy density increase from 949 μW h cm–3 without NaNO3 to 2245 μW h cm–3 with NaNO3. Meanwhile, the gravimetric capacitance also increased from 151 F g–1 without to 192 F g–1 with NaNO3.
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机译:我们发现了一种非常简单的方法来解决与超级电容器用独立式碳纳米纤维电极的低体积能量密度相关的挑战,方法是在氧化盐(NaNO3)存在下对硫酸盐木质素进行静电纺丝,然后在还原性气氛中进行碳化。氧化盐的存在使所得碳纳米纤维的直径减小,其堆积密度从0.51增加到1.03 mg cm –2 ,从而使体积能量密度增加一倍。同时,电纺并与溶解在NaOH中的木质素一起碳化的氧化NaNO3盐充当增加微孔率的模板,因此有助于获得良好的重量能密度。通过简单地调整工艺参数(氧化剂/还原剂的量),可以小心地调整所得木质素自立式碳纳米纤维电极的重量和体积能量密度,以使特定功率适合能源需求。面积电容从无NaNO3时的147 mF cm –2 增加到350 mF cm –2 ,NaNO3转化为体积能量密度从949μWh cm <不含NaNO3的sup> –3 到含NaNO3的2245μWh cm –3 。同时,使用NaNO3时,重量电容也从151 F g -1 增加到192 F g -1 。
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