sigma 10 "Dimensionless scan rate"
k_a1_prime 0.1 "Dimensionless adsorption rate constant"
K_prime 1e-5 "Dimensionless adsorption-desorption rate constant ratio"
k_0_prime 0.02 "Dimensionless electron transfer rate constant"
beta 1e-3 "Dimensionless saturation parameter"
theta_A_init_prime 0 "Initial surface coverage"
k_d1_prime k_a1_prime/K_prime "Dimensionless desorption rate constant"
c_A_bulk 1e-2[M] "Bulk concentration"
r_d 1e-3[cm] "Electrode radius"
D_A 1e-5[cm^2/s] "Diffusion coefficient"
ka1 k_a1_prime*D_A/r_d "Adsorption rate constant"
kd1 k_d1_prime*c_A_bulk*D_A/r_d "Desorption rate constant"
k0 D_A*k_0_prime/r_d^2 "Electrochemical rate constant"
Gamma c_A_bulk*r_d/beta "Monolayer saturation coverage"
nu sigma*R_const*T*D_A/F_const/r_d^2 "Scan rate"
theta_A_init theta_A_eq*theta_A_init_prime "Initial surface coverage"
E_0 0[V] "Formal potential"
K ka1/kd1 "Adsorption-desorption rate constant ratio"
theta_A_eq K*c_A_bulk/(1+K*c_A_bulk) "Surface coverage at equilibrium"
T 298.15[K] Temperature
E_start 0.5[V] "Start potential"
E_vertex -0.5[V] "Vertex potential"
L 6*sqrt(D_A*2*abs(E_start-E_vertex)/nu) "Interval length"
A_electrode pi*r_d^2 "Electrode area"