功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
11期
1465-1468,1471
,共5页
周名兵%胡盼%龚梅%黄棣%杜晶晶%张利%李玉宝
週名兵%鬍盼%龔梅%黃棣%杜晶晶%張利%李玉寶
주명병%호반%공매%황체%두정정%장리%리옥보
明胶%壳聚糖%共价-离子交联%多孔支架
明膠%殼聚糖%共價-離子交聯%多孔支架
명효%각취당%공개-리자교련%다공지가
gelatin%chitosan%covalent and ionic cross-linking%porous scaffold
采用1-乙基-(3-二甲基氨基丙基)碳化二亚胺盐酸盐(EDC.HCl)和三聚磷酸钠(STPP)作为共价-离子双交联剂交联制备了明胶-壳聚糖(gel-CS)复合人工真皮支架。通过FT-IR和SEM对复合多孔支架结构及形貌进行表征,同时对复合多孔支架的孔隙率、平均孔径、溶胀性能和降解性能进行了研究。研究结果表明,明胶和壳聚糖两相间成功地发生了交联反应,形成了具有贯通孔结构和良好孔隙率的复合多孔支架。该支架平均孔径在136.1~182.9μm之间,且随着壳聚糖含量的增加,孔径及孔隙率随之降低;溶胀性能研究发现,相较于单一共价交联方法,采用双交联法制备的支架溶胀率有所降低,再次印证双交联法制备的支架其交联度较单一共价交联的高;酶降解实验表明,固定STPP含量,随着EDC含量增加,复合支架的降解性能越好,而EDC含量一定,则STPP含量为0.5%时,复合支架具有最好的降解性能。
採用1-乙基-(3-二甲基氨基丙基)碳化二亞胺鹽痠鹽(EDC.HCl)和三聚燐痠鈉(STPP)作為共價-離子雙交聯劑交聯製備瞭明膠-殼聚糖(gel-CS)複閤人工真皮支架。通過FT-IR和SEM對複閤多孔支架結構及形貌進行錶徵,同時對複閤多孔支架的孔隙率、平均孔徑、溶脹性能和降解性能進行瞭研究。研究結果錶明,明膠和殼聚糖兩相間成功地髮生瞭交聯反應,形成瞭具有貫通孔結構和良好孔隙率的複閤多孔支架。該支架平均孔徑在136.1~182.9μm之間,且隨著殼聚糖含量的增加,孔徑及孔隙率隨之降低;溶脹性能研究髮現,相較于單一共價交聯方法,採用雙交聯法製備的支架溶脹率有所降低,再次印證雙交聯法製備的支架其交聯度較單一共價交聯的高;酶降解實驗錶明,固定STPP含量,隨著EDC含量增加,複閤支架的降解性能越好,而EDC含量一定,則STPP含量為0.5%時,複閤支架具有最好的降解性能。
채용1-을기-(3-이갑기안기병기)탄화이아알염산염(EDC.HCl)화삼취린산납(STPP)작위공개-리자쌍교련제교련제비료명효-각취당(gel-CS)복합인공진피지가。통과FT-IR화SEM대복합다공지가결구급형모진행표정,동시대복합다공지가적공극솔、평균공경、용창성능화강해성능진행료연구。연구결과표명,명효화각취당량상간성공지발생료교련반응,형성료구유관통공결구화량호공극솔적복합다공지가。해지가평균공경재136.1~182.9μm지간,차수착각취당함량적증가,공경급공극솔수지강저;용창성능연구발현,상교우단일공개교련방법,채용쌍교련법제비적지가용창솔유소강저,재차인증쌍교련법제비적지가기교련도교단일공개교련적고;매강해실험표명,고정STPP함량,수착EDC함량증가,복합지가적강해성능월호,이EDC함량일정,칙STPP함량위0.5%시,복합지가구유최호적강해성능。
1-ethyl-(3-dimethylaminopropyl) carbodiimide hydrochloride(EDC.HCl) and sodium tripolyphosphate(STPP) as the covalent and ionic bi-crosslinking agents were introduced to prepare gelatin-chitosan(gel-CS) composite porous scaffolds.The structure and morphology of the scaffolds were characterized by Fourier transform infrared spectrometer(FT-IR) and scanning electron microscope(SEM),and also the porosity,mean pore size,swelling properties and degradation were studied.In addition,the cross-linking mechanism was analyzed.The results show that covalent and ionic cross-linkage have taken place between the two phases of gel and CS in the composite porous scaffolds;these scaffolds have interconnected pores and high porosity,and the mean pore size is in the range of 136.1-182.9μm;the swelling properties of the scaffolds prepared by covalent and ionic bi-crosslinking are better than that of single covalent cross-linking,indicating that the cross-linking degree of covalent and ionic bi-crosslinking is higher than that of single covalent cross-linking.The degradation experiments show that,if STPP is constant,the degradation properties of scaffolds become better with EDC increasing;if EDC is constant,0.5% STPP can produce the scaffold with the best degradation property.