Specific capacitance and cycle stability of cellulose carbon materials are reported in the literature^a.

Electrode materials	Electrolyte	C s	Current density	Stability	Cycles	Ref.
CNFs from partially hydrolyzed CA NFs	6 M KOH	241 F g−1	1 A g−1	99% (200 mV s−1)	10 000	23
NCFs from cellulose and CNTs	6 M KOH	145 F g−1	10 A g−1	94% (2 A g−1)	1000	24
CNFs from PPy-coated cellulose NFs	6 M KOH	171 F g−1	1 A g−1	98% (100 mV s−1)	5000	25
CNFs from PAN/CA	6 M KOH	280 F g−1	0.1 A g−1	96.8% (1 A g−1)	2000	63
3D porous carbon from activated cellulose	6 M KOH	162 F g−1	0.5 A g−1	99.8% (10 A g−1)	5000	65
Carbon material from natural cellulose	5 M KCl	107 F g−1	1 A g−1	90% (1 A g−1)	2000	66
Cellulose-derived composite electrodes	6 M KOH	101 F g−1	5 mV s−1	96.6% (1.5 A g−1)	2000	67
MMC via carbonizing cellulose aerogel	1 M H2SO4	160 F g−1	0.2 A g−1	90% (1 A g−1)	10 000	68
3D interwoven structural film prepared from graphene and cellulose	1 M H2SO4	120 F g−1	1 mV s−1	99% (50 mV s−1)	5000	69
CACNFs from activated CA nanofiber	6 M KOH	143 F g−1	0.1 A g−1	92% (5 A g−1)	5000	This work

^a C _s: specific capacitance; CNFs: carbon nanofibers; NFs: nanofibers; CA: cellulose acetate; NCFs: nanocomposite fibers; CNTs: carbon Nanotubes; PPy: polypyrrole; PAN: polyacrylonitrile; MMC: Micro- and meso-porous carbon; 3D: three-dimensional.