advanced bio-friendly polymers eva papajová. thermal degradation thermooxidation photodegradation...
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ADVANCED BIO-FRIENDLY POLYMERS
Eva Papajová
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Thermal degradation
Thermooxidation
Photodegradation
Photooxidation
Hydrolytic degradation
Biodegradation
Mechanochemical degradation, degradation by O3, radiolytic degradation, burning
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pH initiated
Decomposition of polymer chain by reaction with water.
in relation with ester bond of polyestersRO
O R'
pH < 7 (acid) pH > 7 (basic)
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Decomposition of polymer chain by reaction with water.
Ability of polymers to degrade by hydrolysis is given by difference
in electronegativity of atoms in polymer chain or side groups.
RX + HOH → ROH + HX
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5
O
X R2
R1
H+
+H2O
CX+
O
R1
R2
H2OO
OH
R1
+ XHR2
+ H+
+ OH- H2O H2O
O
OH
R1
+ XHR2
+ OH-
C+X
OH
R1
R2
OH
OO
X R2
R1
O
O
O
O HOH+ H2O +
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polyanhydrides
polyesters
polyamides
polyethers
polyether urethanes
polyurea
polycarbonates
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repulsive interactions with ions
availability of reacting bonds
physical parameters (swelling, transport of ions along polymer chain)
Depends on
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Water as a carrier of microorganisms
for biodegradation of polymer material.
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degradation process resulting from the action of naturally occuring
microorganisms such as bacteria, fungi and algae
microorganisms can use their enzymes for cleavage of the
polymer chain at the specific location and use them as a source of
energy
structure of the polymer makes it biodegradable
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Enzymes responsible for the biodegradation process
ENDOCELLULAR ENZYMES
EXOGENEOUS CELLULAR ENZYMES 1st step
2nd step
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EXTRACELLULAR ENZYMES
Preliminary degradation (photodegradation, photooxidation, chemical degradation, etc.)
enhances biodegradation process.
1st STEP
enzyme secreted by cell that works outside of that cell
used for cleavage of long polymer chain in order to permeate through cell
membrane
Cell
Depolymerization(oligomers, dimers, monomers, ...)
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Material changesMaterial changes
Mechanical properties (tensile or dynamic analysis)
Molecular weight of polymer chains (size-exclusion chromatography)
Degradation in crystalline or amorphous region (differential scanning
calorimetry)
Structure of polymer material (scanning electron microscopy, contact angle
measurements)
Changes in polymer structure (spectroscopy techniques – NMR, IR, MS)
- important mostly for characterization of the first step of biodegradation
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Enzymes responsible for the biodegradation process
ENDOCELLULAR ENZYMES
EXOGENEOUS CELLULAR ENZYMES 1st step
2nd step
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Cell
ENDOCELLULAR ENZYMES2nd STEP
enzyme works inside the cell in which it was produced
carbon and energy sources are metabolized
in presence of O2
in absence of O2
CO2, H2O
CH4, CO2
Mineralization Products
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Production of gassesProduction of gasses
- characteristic for mineralization process
Devices for measuring composition of gasses (O2, CO2, CH4)
Gas chromatography
IR spectroscopy (CO2)
Paramagnetic resonance (O2)
Measurement of pressure (O2)
Amount of absorbed gasses measured by titration technique (CO2)
Biodegradation process is dependent on factors ....Biodegradation process is dependent on factors ....
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Flexibility Crystallinity Morphology Functional groups Crosslinking Molecular weight Copolymers Blend Tacticity Additives
Polymer characteristicsPolymer characteristics
accessability of water and microogranismsfunctional groups and additives as an active points for initiation of degradation
Exposure conditionsExposure conditions
AbioticAbiotic BioticBiotic
Temperature Moisture pH UV radiation
Extracellular enzymes Hydrophobicity Biosurfactants
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Lamella
Amorphous region
Crystallinity of polymersCrystallinity of polymers
Dec
reas
ing
rate
of
degr
adat
ion
Increasing crystallinity
Tsuji, H., Miyauchi, S. (2001) Polymer Degradation and Stability 71, 415.
Poly(L-lactide)
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O (CH2)5 C
O
( )n
poly(ε-caprolactone) (PCL)
)OC
O
( )m
CH2 CH2
CH3
OC
O
( CH2 CH2
CH2
CH3
n
poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV)
Biodegradation PCL > PHBV > PBS > PLA
Hydrolytic degradation PCL < PHBV < PBS < PLA
)COO (CH2)4 C
O
(CH2)2(
O
n
poly(butylene succinate) (PBS) poly(lactide) (PLA)
O CH C
O
(n
CH3
)
5:13.5:1
3:1 1:1
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enzymes, individual and mixed cultures of microorganisms
artificial conditions precisely defined conditions
water, soil, compost or material from dump
complexity of parameters defined conditions
water, soil, compost, dump complexity of parameters variability of conditions
Rele
vanc
e of
the
info
rmati
on
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Biodegradable polymersBiodegradable polymers
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medicinalmedicinal sutures drug delivery systems orthopedic fixation devices replacing a bone cement
industrialindustrial mulching foilsplant potssilage foilspackaging (bags, boxes)tooth brush handles
othersothers ... textile, electronics, houseware