一本色综合亚洲精品蜜桃冫丨国产精一品亚洲二区在线播放丨国产亚洲精品字幕在线观看丨国产3p又大又爽又粗又硬免费丨欧美日韩v丨国内一区二区三区香蕉aⅴ丨国产日韩欧美自拍丨99re视频精品丨在线免费看黄视频丨y111111国产精品久久婷婷丨国产区精品丨玖草视频在线丨久草福利视频丨亚洲a∨无码一区二区三区丨女同互舔互慰dv毛片丨日韩av影片丨又黄又爽又色又刺激的视频丨日韩一卡2卡3卡新区乱码来袭丨欧美va久久久噜噜噜久久丨91在线导航丨国产这里有精品丨亚洲的天堂av无码丨亚洲成av人片在线观看丨少妇邻居内射在线丨亚洲视频在线免费播放

Introduction
With the introduction of a constant phase element (CPE) as a replacement for the capacity in
EIS measurements, most of the experimentally obtained results could be fitted by
commercially available software (Gamry, Scribner, Solartron, etc.). Much better fit results
were obtained with CPE in comparison with the fit results obtained by using pure capacity,
represented by parallel plate condenser. Taking into account that the CPE defines
inhomogeneity of the surface in the electrochemical EIS experiments and inhomogeneity of
the charge distribution in solid state EIS measurements, it is reasonable to expect that better
fit for real systems is obtained by using CPE. The main problem in the use of commercially
available software with CPE is the fact that the capacity, obtained by fitting procedure, does
not have the dimension of capacity, i.e., F cm-2, or Ω-1cm-2 s, but its dimension is given
in Ω-1 cm-2 sa, where a is the exponent in the equation for the CPE [1] ( ZCPE = Zdl(jω)-a ).
This problem has been discussed in few papers [2-4] and recently Hsu and Mansfeld [5]
developed the equation for correction of capacity to its real value, in the case of parallel
connection of CPE and R, by using equation (1)......