A simple model describing the kinetics of the xanthophyll cycle

The xanthophyll cycle is one of the mechanisms protecting the photosynthetic apparatus against the light energy excess. Its action is still not well understood on the molecular level. Our model makes it possible to follow independently the kinetics of the two de-epoxidation steps occurring in the xa

The growth of Streptomyces lividans in defined media was modeled using a simple structured growth model. Conventional unstructured models like Monod kinetics, substrate inhibition kinetics, and the logistic equation were also used in an attempt to fit the data, but the results were all unsatisfactor

We have extended an carl~er kmetlc model descrlbmg mlcelle formntlon from chemlal rels\airon stuares to exnmme the observation of an nddltlonal relaxation whxh IS accomparued by the occurrence of the second c m c It IS concluded that this second relsxatlon IS associated wth conformatlonal changes II

Cherricat rel&&on stud& k iotiic surface &tiw, agents in aqueous solutions have: been carried outu% kg ultrasonic fl-61; t~~~rature f7-93 and pressure [IO] jump techniques. In af$ these experimknts a single relaxation has been observed at surfactant con-.centrations cIose to the' c.m.c. This relaxat

A model has been developed describing the movement of a metal cation vacancy through the passivating oxide film under the presence of an electric field which contributes dominantly to the film growth kinetics. The present model accounts for the formation of metal and oxygen vacancies at the oxide fi