Bibliography - D. G. Brown
- Brown, D. G., and P. R. Jaffé, 2001: Effects of Nonionic Surfactants on Bacterial Transport Through Porous Media. Environmental Science and Technology, 35(19), doi:10.1021/es010577w 3877-3883
[ Abstract ]Nonionic surfactants of the form CxEy, where x is the number of carbons in
the alkyl chain and y is the number of ethylene oxide units in the
polyoxyethylene (POE) chain, were studied for their ability to alter the
transport of Sphingomonas pacilimobilis through an aquifer sand. The
surfactants C12E4 (Brij 30) and C12E23 (Brij 35) were the focus of this study.
Through a systematic study, it was shown that these nonionic surfactants
were able to enhance the transport of this bacterial culture through porous
media. The magnitude of the enhancement increased with decreasing
solution ionic strength and increasing POE chain length. The mechanism of
this enhanced transport appears to be due to expansion of the electric double
layer about the bacteria and aquifer sand through displacement of the
counterions by the sorbed surfactant. This expanded electric double layer
increases the electrostatic repulsion, with a resultant reduction in the
collision efficiency and an increase in the Langmuirian blocking parameter.
Application of the colloid filtration theory with the experimental parameters
of this study shows that nonionic surfactants have the potential to
significantly enhance the bacterial travel distance, especially for low ionic
strength systems.
- Brown, D. G., and P. R. Jaffé, 2001: Effects of Nonionic Surfactants on the UV/Visible Absorption of Bacterial Cells. Biotechnology and Bioengineering, 74(6), doi:10.1002/bit.1138 476-482
[ Abstract ]Nonionic surfactants are used in a number of different microbiological
applications, including solubilization of cell membranes, washing bacterial cultures prior
to experimentation, and enhancing biodegradation of low-solubility compounds. An
important consideration in these applications is the potential for the surfactant to alter the
cell membrane. One potential means to monitor the impact of surfactants on the bacterial
cell membrane is through monitoring the absorbance spectrum of the bacterial
suspension. This is due to the colloidal nature of bacteria, where the absorbance of a
bacterial suspension is related to the size and refractive index of the bacterial cells.
Through a systematic study it was shown that there can be a significant change in the
bacterial absorbance spectrum due to the presence of nonionic surfactants, with the effect
a function of surfactant structure and concentration, solution ionic strength and cation
valence. The effects were most pronounced with Na+ as the cation, with surfactants
having midrange hydrophile-lipophile balance (HLB) values, and with surfactant
concentrations above the CMC. The results indicate that measurement of the absorbance
spectrum of bacterial cultures can provide a means to monitor the effects of nonionic
surfactants on the bacterial cell membrane. In addition, depending on the specific
application, appropriate selection of surfactant structure and media composition can be
made to enhance or minimize the effects.
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