High-yield pulp (HYP) has various
fractions, and they not only
play an important role in the papermaking process but also affect
paper properties. Hence, it is necessary to clarify the impact of
different HYP fractions on paper formation and properties. In this
study, the characteristics of poplar preconditioning followed by refining
chemical treatment alkaline peroxide mechanical pulp fractions were
determined, and their effects on paper formation and paper properties
were investigated. The results show that the HYP fiber is not as flexible
as the bleached wheat straw pulp fiber. Compared with the HYP long-fiber
fraction, the short-fiber fraction can improve the formation index
more favorably. It was also found that the long-fiber fraction can
maintain the strength properties, while having a negligible effect
on the light-scattering coefficient; on the contrary, the short-fiber
fraction can improve the light-scattering coefficient effectively
but reduces the strength properties.
Electrodes has been prepared for application in an electric double layer capacitor (EDLC) based on polyethylene glycol lignin (PEGL) and soda lignin (SL) derived from cedar wood. Fibers with a diameter of 23 μm were prepared by direct melt electrospinning of PEGL. Much finer fibers of 3.6 μm diameter were obtained by dry electrospinning of 70% PEGL in a dimethyl formamide (DMF) solution at 145°C. The dry electrospinning of SL alone in an alkaline aqueous solution was not achievable, but this was possible of a mixture of SL and polyethylene glycol (M w = 500 000) at a ratio of 99/1, which resulted in thin SL fibers with a diameter of 0.85 μm. These fibers were converted into activated carbon fibers (ACFs) by thermostabilization, carbonization, and steam activation. The specific Brunauer, Emmett and Teller (BET) surface areas of the resulting PEGL-ACFs and SL-ACFs were 1880 m 2 g -1 and 1411 m 2 g -1 , respectively. PEGL-ACFs electrodes with an organic electrolyte exhibited an impedance of 1.6 Ω and a specific capacitance of 92.6 F g -1 at a scan rate of 1 A g -1 , and the SL-ACFs electrodes had an impedance and specific capacitance of 4.5 Ω and 55.6 F g -1 , respectively.
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