Chemistry Reference
In-Depth Information
4.
Hsieh YL, Miller A, Thompson J (1996) Wetting, pore structure and liquid retention of hy-
drolyzed polyester fabrics. Textil Res J 66:1-10
5.
Fischer-Colbrie G, Matama T, Heumann S et al (2007) Surface hydrolysis of polyacrylonitrile
with a nitrilase of a new strain of
Micrococcus luteus
. J Biotechnol 128:849-857
6.
Asatekin A, Kang S, Elimelech M et al (2007) Anti-fouling ultrafiltration membranes con-
taining polyacrylonitrile-graft-poly(ethylene oxide) comb copolymer additives. J Membr Sci
298:136-146
7.
Kim HA, Choi JH, Takizawa S (2007) Comparison of initial filtration resistance by pre-
treatment processes in the nanofiltration for drinking water treatment. Separ Purif Technol
56:354-362
8.
Qiao X, Zhang Z, Ping Z (2007) Hydrophilic modification of ultrafiltration membranes and
their application in
Salvia miltiorrhiza
decoction. Separ Purif Technol 56:265-269
9.
Li JX, Wang J, Shen LR et al (2007) The influence of polyethylene terephthalate sur-
faces modified by silver ion implantation on bacterial adhesion behavior. Surf Coat Technol
201:8155-8159
10.
Guebitz GM, Cavaco-Paulo A (2008) Enzymes go big: surface hydrolysis and functionalisation
of synthetic polymers. Trends Biotechnol 26:32-38
11.
Almansa E, Heumann S, Eberl A et al (2008) Enzymatic surface hydrolysis of PET enhances
bonding in PVC coating. Biocatal Biotrans 26:365-370
12.
Laskarakis A, Logothetidis S, Kassavetis S et al (2007) Surface modification of poly(ethylene
terephthalate) polymeric films for flexible electronics applications. Thin solid films 516:
1443-1448
13.
Vertommen MAME, Nierstrasz VA, Veer Mvd et al (2005) Enzymatic surface modification of
poly(ethylene terephthalate). J Biotechnol 120:376-386
14.
Donelli M, Taddei P, Smet P F et al (2009) Enzymatic surface modification and functional-
ization of PET. A water contact angle, FTIR, and fluorescence spectroscopy study. Biotechnol
Bioeng 103:845-856
15.
Eberl A, Heumann S, Kotek R. et al (2008) Enzymatic hydrolysis of PTT polymers and
oligomers. J Biotechnol 135:45-51
16.
Fischer-Colbrie G, Herrmann M, Heumann S et al (2006) Surface modification of polyacry-
lonitrile with nitrile hydratase and amidase from
Agrobacterium tumefaciens
. Biocatal Biotrans
24:419-425
17.
Wang N, Xu Y, Lu D (2004) Enzymatic surface modification of acrylic fiber. AATCC Rev
4:28-30
18.
Ronkvist AM, Xie WC, Lu WH et al (2009) Cutinase-catalyzed hydrolysis of poly(ethylene
terephthalate). Macromolecules 42:5128-5138
19.
Parvinzadeh M, Assefipour R, Kiumarsi A (2009) Biohydrolysis of nylon 6,6 fiber with differ-
ent proteolytic enzymes. Polym Degrad Stab 94:1197-1205
20.
Heumann S, Eberl A, Fischer-Colbrie G et al (2009) A novel aryl acylamidase from
Nocardia
farcinica
hydrolyses polyamide. Biotechnol Bioeng 102:1003-1011
21.
Miettinen-Oinonen A, Puolakka A, Buchert J (2007) Method for modifying polyamide. Patent
EP1761670 Finland
22.
Silva C, Araujo R, Casal M et al (2007) Influence of mechanical agitation on cutinases and
protease activity towards polyamide substrates. Enzyme Microb Technol 40:1678-1685
23.
Silva C, Carneiro F, O'Neill A et al (2005) Cutinase - a new tool for biomodification of syn-
thetic fibers. J Polym Sci 43:2448-2450
24.
Araujo R, Silva C, O'Neill A et al (2007) Tailoring cutinase activity towards polyethylene
terephthalate and polyamide 6,6 fibers. J Biotechnol 128:849-857
25.
Silva C, Matama T, Guebitz G M et al (2005) Influence of organic solvents on cutinase stability
and accessibility to polyamide fibers. J Polym Sci A Polym Chem 43:2749-2753
26.
Crouzet J, Faucher D, Favre-Bovine G, Jourdat C, Petre D, Pierrard J, Thibault J, Guitton C
Enzymes and micro organisms with amidase activity which hydrolyze polyamides. US Patent
6180388
27.
Negoro S, Ohki T, Shibata N et al (2007) Nylon-oligomer degrading enzyme/substrate com-
plex: catalytic mechanism of 6-aminohexanoate-dimer hydrolase. J Mol Biol 370:142-156
