期刊
CHEMSUSCHEM
卷 11, 期 23, 页码 4123-4130出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cssc.201801869
关键词
doping; energy materials; hybrid cells; perovskites; supercapacitors
资金
- UGC through the SRF fellowship [2061410143]
Enriched with oxygen vacancies, Mo-doped strontium cobaltite (SrCo0.9Mo0.1O3-delta SCM) is synthesized as an oxygen anion-intercalated charge-storage material through the sol-gel method. The supplemented oxygen vacancies, good electrical conductivity, and high ion diffusion coefficient bestow the SCM electrode with excellent specific capacitance (1223.34 Fg(-1)) and specific capacity (168.88 mAhg(-1)) at 1Ag(-1). The decisive constant (b-value) deduced for the charge storage mechanism (low scan-rate region) is nearly 0.8, indicating a highly capacitive process. In the high scan-rate region, however, the b-value is almost 0.5, and a linear pattern of charge (q) versus the inverse of the square root of the scan rate (v(-1/2)) is obtained. The results reveal O2- diffusion as the rate-limiting factor for charge storage. Furthermore, a hybrid cell (SCM vertical bar LRGONR) is fabricated by using lacey, reduced graphene oxide nanoribbon (LRGONR) as the negative electrode, which exhibits a high energy density (74.8 Whkg(-1) at a power density of 734.5 Wkg(-1)). With a charging time of only 20.7s, the cell sustains a very high energy density (33 Whkg(-1)) with a high power delivery rate (6600 Wkg(-1)). The excellent cycling stability (165.1% activated specific capacitance retention and 97.6% of the maximum value attained) after 10000 charge-discharge cycles, demonstrates SCM is a potential electrode material for supercapacitors.
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