Contents
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Preface
A.-C.
Albertsson, S. Karlsson |
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Macromolecular
design of cationic polyelectrolytes on the chitosan basis for
achievement of high antimutagenic efficiency at gamma-irradiation |
1 |
V.A.
A Alexandrova, D. V. Ryzhkov, G. V. Obukhova, N. S. Domnina, D.
A. Topchiev, E. B. Kotlyarova, VA. Shevchenko
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A
study of microstructural changes during dehydration of hydrolytically
degraded poly(glycolic acid) |
19 |
E.
King, R. E. Cameron* |
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New
pH sensitive network : combination of an amphiphilic degradable
polyester with a ß-cyclodextrin copolymer |
45 |
L.
Moine, S. Cammas*, C. Amiel, E. Renard, B. Sébille, P.
Guérin
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Synthesis
and controlled photo- and biodegradabilities of poly[(hydroxybutyrate-co-hydroxyvalerate)-g-styrene]
|
53 |
J.
Park, W.-W. Choi, C.-S. Ha, W.-H. Kim, W.-J. Cho* |
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Molecular
design of biologically active biodegradable polymers for biomedical
applications |
71 |
K.-H.
Lee, C.-C. Chu*, F. Quimby, S. Klaessig |
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Morphologies
and enzymatic degradability of melt-crystallized poly(3-hydroxybutyric
acid-co-6-hydroxyhexanoic acid) |
81 |
H.
Abe, H. Aoki, Y. Doi* |
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Synthesis
and characterization of aliphatic poly(ester-amide)s containing
symmetrical bisamide blocks |
91 |
H.
R. Stapert, P. J. Dijkstra, J. Feijen*
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A
biodegradable material for ACL reconstruction |
103 |
K.
GissejfäIt*, P. Flodin |
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Synthesis
and structures of cooligo(lactone) macromonorners |
113 |
U.
Gopp, B. Sandner*, M. Schöch, K. Schlothauer H. Pasch, R.
Ghahary |
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Synthesis
and physical properties of polyurethanes from saccharide-based
polycaprolactones
|
127 |
H.
Hatakeyama* Y. Izuta, K. Kobashigawa, S. Hirose, T. Hatakeyama |
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Thermal
properties of polyurethanes derived from molasses before and after
biodegradation |
139 |
T.
Hatakeyama, T. Tokashiki, H. Hatakeyama* |
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Binary
and ternary poly(lactic acid)/poly(e-caprolactone) blends: the
effects of oligo-e-caprolactones upon mechanical properties |
151 |
M.
R. Lostocco, A. Borzacchiello, S. J. Huang
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Polymeric
materials as biomaterials under particular consideration of biodegradable
polymers |
161 |
H.
Höcker |
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Preparation
of rapidly curable hydrogels from gelatin and poly(carboxylic
acid) and their adhesion to skin |
169 |
Y.
Otani, Y. Tabata, Y. Ikada |
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Microscopy
in the studies of polymer biodegradation |
179 |
H.
Janik |
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Biodegradation
of polycaprolactone in plant treatment active sludge |
199 |
M.
Rutkowska, A. Dereszewska, M. Jastrzebska*, H. Janik* |
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Biological
basis of enzyme-catalyzed polyester degradation: 59-C-terminal
amino acids of poty(3-hydroxybutyrate) (PHB) depolymerase A from
pseu domonas lemoignei are sufficient for PHB binding |
205 |
B.
H. Briese, D. Jendrossek* |
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Ring-opening
polymerization of 1,4,8-trioxaspiro-[4,6]-9-undecanone: a route
to novel molecular architectures for biodegradable aliphatic polyesters |
217 |
D.
Tian, P. Dubois, R. Jérome* |
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Acid-catalyzed
copolymerization of aspartic acid with w-amino, acid. -
Biodegradability and Ca
2+
chelating ability of poly(aspartic acid -co-w-amino acid) |
229 |
M.
Shibata, A. Kusuno, T. Kakuchi* T. Nakato, M. Yoshikawa, M. Tomida |
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Synthesis,
recovery and possible application of medium-chain-length polyhydroxyalkanoates:
a short overview |
245 |
B.
Kessler*, B. Witholt |
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Biodegradable
liquid-crystalline aromatic polyesters |
261 |
H.
R. Kricheldorf L. Wahlen, T Stukenhrook |
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Synthesis
path versus distribution of functional groups in cellulose ethers
|
271 |
T.
Liebert, T. Heinze* |
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Novel
ring-opening polymerization of lactide by lipase |
285 |
S.
Matsumura*, K. Mabuchi, K. Toshima |
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Polyesters
of phosphoric acid: Synthesis and kinetics of hydrolysis |
305 |
S.
Penczek, J. Pretula, K. Kaluzynski |
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Aromatic
components in copolyesters: model structures help to understand
biodegradability |
319 |
E.
Rantze, I. Kleeberg, U. Witt, R.-J. Müller*, W.-D. Deckwer |
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Molecular
design strategies for biomaterials that heal |
327 |
B.
D. Ratner |
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Biodegradation
of polyorganosiloxanes |
337 |
P.
Rosciszewski* J. Lukasiak, A. Dorosz, J. Galinski, M. Szponar |
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Interactions
between a biodegradable polymer poly(hydroxybutyrate hydroxyvalerate),
proteins and macrophages |
347 |
L.
Rouxhet, R. Legras, Y.-J. Schneider* |
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Ring-opening
polymerization of degradable polyesters |
367 |
K.
Stridsberg, M. Gruvegård, A.-C. Albertsson* |
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Water-soluble
biodegradable polymers: Synthetic or natural-based raw materials? |
379 |
G.
Swift*, M. Creamer X. Wei, K. M. Yocom |
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Ring-opening
polymerization of L-lactide by means of different iron compounds |
393 |
A.
Södergård*, M. Stolt |
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Amphiphilic
graft copolymers - preparation and interfacial properties |
403 |
B.
Wesslén |
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