Environmental Engineering Reference
In-Depth Information
Bernardez LA, Ghoshal S (2004) Selective solubilization of polycyclic aromatic hydrocarbons
from multicomponent nonaqueous-phase liquids into nonionic surfactant micelles. Environ Sci
Technol 38:5878-5887.
Bertolotti SG, García NA, Gsponer HE (1989a) Micellar binding of polychlorophenols. J Colloid
Interface Sci 129:406-413.
Bertolotti SG, Gsponer HE, García NA (1989b) Surfactant effect on the sensitized photooxidation
of polychlorophenolic pesticides. Toxicol Environ Chem 22:229-237.
Bokern M, Harms HH (1997) Toxicity and metabolism of 4-
n
-nonylphenol in cell suspension cul-
tures of different plant species. Environ Sci Technol 31:1849-1859.
Bokern M, Nimtz M, Harns HH (1996) Metabolites of 4-
n
-nonylphenol in wheat cell suspension
cultures. J Agric Food Chem 44:1123-1127.
Bokern M, Raid P, Harms HH (1998) Toxicity, uptake and metabolism of 4-
n
-nonylphenol in root
cultures and intact plants under septic and aseptic conditions. Environ Pollut Res 5:21-27.
Bowman BT (1993) Effect of formulation upon movement and dissipation of
14
C-metolachlor and
atrazine in field lysimeters. Can J Soil Sci 73:309-316.
Boyd SA, Lee JF, Mortland MM (1988) Attenuating organic contaminant mobility by soil modifi-
cation. Nature (Lond) 333:345-347.
Briggs GG, Bromilow RH, Evans AA (1982) Relationship between lipophilicity and root uptake
and translocation of non-ionized chemicals by barley. Pestic Sci 13:495-504.
Briggs GG, Bromilow RH, Evans AA, Williams M (1983) Relationship between lipophilicity and
the distribution of non-ionized chemicals in barley shoots following uptake by root. Pestic Sci
14:492-500.
Bromilow RH, Evans AA, Nicholls PH (2003) The influence of lipophilicity and formulation on
the distribution of pesticides in laboratory-scale sediment/water systems. Pestic Manag Sci
59:238-244.
Brown DG (2007) Relationship between micellar and hemi-micellar processes and the bioavaila-
bility of surfactant-solubilized hydrophobic organic compounds. Environ Sci Technol
41:1194-1199.
Brown DG, Jaffé PR (2006) Effects of nonionic surfactants on the cell surface hydrophobicity and
apparent Hamaker constant of a
Sphingomonas
sp. Environ Sci Technol 40:195-201.
Broxton TJ (1981) Micellar catalysis of organic reactions. VII. The effect of the micellar counter
ion in nucleophilic reactions of hydroxide and nitrite ions. Aust J Chem 34:2313-2319.
Broxton TJ (1983) Basic hydrolysis of some alkyl and phenyl
N
-aryl-
N
-methylcarbamates. Aust
J Chem 36:2203-2209.
Broxton TJ (1984) Micellar catalysis of organic reactions. XII. Basic hydrolysis of some alkyl and
aryl
N
-(4-nitrophenyl)carbamates. Aust J Chem 37:47-54.
Broxton TJ, Chung RPT (1986) Micellar catalysis of organic reactions. 19. Basic hydrolysis of
carbamates in the presence of hydroxyl-functionalized micelles. J Org Chem 51:3112-3115.
Broxton TJ, Duddy NW (1979) Substituent effects on the micelle-catalyzed and uncatalyzed basic
hydrolysis of a series of substituted
N
-methyl-
p
-toluanilides. Aust J Chem 32:1717-1726.
Broxton TJ, Duddy NW (1980) Micellar catalysis of the basic hydrolysis of anilides. III
α
-
Substituted
N
-methyl-
N
-
p
-nitrophenylacetamides. Aust J Chem 33:1771-1781.
Broxton TJ, Sango DB (1983) Micellar catalysis of organic reactions. X. Further evidence for the
partial failure of the pseudophase kinetic model of micellar catalysis for reactions of hydroxide
ions. Aust J Chem 36:711-717.
Broxton TJ, Deady LW, Duddy NW (1978) Micellar catalysis of anilide hydrolysis. Aust J Chem
31:1525-1532.
Broxton TJ, Fernando DR, Rowe JE (1981) Micellar catalysis of the basic hydrolysis of amides.
4. Substituted
N
,
N
-diphenylbenzamides. J Org Chem 46:3522-3525.
Broxton TJ, Christie JR, Sango X (1987) Micellar catalysis of organic reactions. 20. Kinetic stud-
ies of the hydrolysis of aspirin derivatives in micelles. J Org Chem 52:4814-4817.
Broxton TJ, Christie JR, Mannas SM (1988) Micellar catalysis of organic reactions. XXI. A com-
parison of the catalytic activity of micelles of cetyltrimethylammonium bromide and sulfate
on ester, amide and carbamate hydrolyses. Aust J Chem 41:325-330.
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