Preparation of high viscosity average molecular mass poly-L-lactide

Zhi-hua Zhou , Jian-ming Ruan , Jian-peng Zou , Zhong-cheng Zhou , Xiong-jun Shen

Journal of Central South University ›› 2006, Vol. 13 ›› Issue (6) : 608 -612.

PDF
Journal of Central South University ›› 2006, Vol. 13 ›› Issue (6) : 608 -612. DOI: 10.1007/s11771-006-0001-0
Article

Preparation of high viscosity average molecular mass poly-L-lactide

Author information +
History +
PDF

Abstract

Poly-L-lactide(PLLA) was synthesized by ring-opening polymerization from high purity L-lactide with tin octoate as initiator, and characterized by means of infrared, and 1H-nuclear magnetic resonance. The influences of initiator concentration, polymerization temperature and polymerization time on the viscosity average molecular mass of PLLA were investigated. The effects of different purification methods on the concentration of initiator and viscosity average molecular mass were also studied. PLLA with a viscosity average molecular mass of about 50.5×104 was obtained when polymerization was conducted for 24 h at 140 °C with the molar ratio of monomer to purification initator being 12 000. After purification, the concentration of tin octoate decreases; however, the effect of different purification methods on the viscosity average molecular mass of PLLA is different, and the obtained PLLA is a typical amorphous polymeric material. The crystallinity of PLLA decreases with the increase of viscosity average molecular mass.

Keywords

poly-L-lactide / polymerization / purification / high viscosity average molecular mass

Cite this article

Download citation ▾
Zhi-hua Zhou, Jian-ming Ruan, Jian-peng Zou, Zhong-cheng Zhou, Xiong-jun Shen. Preparation of high viscosity average molecular mass poly-L-lactide. Journal of Central South University, 2006, 13(6): 608-612 DOI:10.1007/s11771-006-0001-0

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

AgrawalC. M., RayR. B.. Biodegradable polymeric scaffolds for musculoskeletal tissue engineering[J]. J Biomed Mater Res, 2001, 55(2): 141-150

[2]

NiederauerG. G., SlivkaM. A., LeatherburyN. C., et al.. Evaluation of multiphase implants for repair of focal osteochondral defects in goats[J]. Biomaterials, 2000, 21(24): 2561-2571

[3]

MiddletonJ. C., TiptonA. J.. Synthetic biodegradable polymers as orthopaedic devices[J]. Biomaterials, 2000, 21(23): 2335-2346

[4]

NakamuraP., HitomiS., WatanabeS., et al.. Bioabsorption of polylactides with different molecular properties[J]. J Biomed Mater Res, 1989, 23(10): 1115-1130

[5]

LiS. M., McCarthyS.. Further investigations on hydrolytic degradation of poly (DL-lactide)[J]. Biomaterials, 1999, 20(1): 35-44

[6]

TsujiH., NakaharaK., IkarashiK.. Poly(L-Lactide):part 8. High temperature hydrolysis of poly(L-lactide) films with different crystallinities and crystalline thickness in phosphate-buffered solution[J]. Macromol Mater Eng, 2001, 286(7): 398-406

[7]

DuekE. R., ZavagliaC. A., BelangeroW. D.. In vitro study of poly(lactic acid) pin degradation[J]. Polymer, 1999, 40(23): 6465-5473

[8]

TaddeiP., TintiA., FiniG.. Vibrational spectroscopy of polymeric biomaterials[J]. J Raman Spectrosc, 2001, 32(8): 619-629

[9]

LiS. M., GarreauH., VertM.. Structure-property relationships in the case of the degradation of massive poly(a-hydroxy acids) in aqueous media, part 3: Influence of the morphology of poly(L-lactic acid)[J]. J Mater Sci: Mater Med, 1990, 1(3): 198-206
[10]

ZhangH.-p., RuanJ.-m., ZhouZ.-c., et al.. Preparation of degradable biomaterial poly (L-lactide) monomer. Journal of Central South University of Technology, 2005, 12(3): 113-117
[11]

SosnowskiS.. Poly(L-lactide) microspheres with controlled crystallinity[J]. Polymer, 2001, 42(2): 637-643

[12]

SakaiaW., SadakaneaT., NishimotoaW., et al.. Photosensitized degradation and crosslinking of linear aliphatic polyesters studied by GPC and ESR[J]. Polymer, 2002, 43(23): 6231-6238

[13]

ZhouZ.-c., RuanJ.-m., HuangB.-y., et al.. Preparation and characterization of poly (D,L-lactide) and its porous biomaterials[J]. Journal of Central South University of Technology, 2005, 12(1): 1-4

[14]

HuY.-s., ZhangZ.-p., SongD., et al.. Preparation and properties of self-reinforced L-and D, L-lactide copolymer rods[J]. Chinese Chemical Letters, 2000, 11(11): 1023-1026
[15]

WeirN. A., BuchananaF. J., OrraJ. F.. Processing, annealing and sterilization of poly-L-lactide[J]. Biomaterials, 2004, 25(18): 3939-3949

[16]

KangM. H., YouH. B.. Synthesis and characterization of poly(ethylene glycol)/poly(L-lactic acid) alternating multiblock copolymers[J]. Polymer, 1999, 40(22): 6147-6155

[17]

MandelkernL.The crystalline state in physical properties of polymers[M], 1984, Washington DC, American Chemical Society: 176-190
AI Summary AI Mindmap
PDF

108

Accesses

0

Citation

Detail
Sections
Recommended

AI思维导图

/