参考文献/References:
[1] Kumar N,Langer R S,Domb A J.Polyanhydrides:an overview[J].Advanced Drug Delivery Reviews,2002,54(7):889-910.
[2] Cheng Hongwei,Fan Xiaoshan,Wang Xiaoyuan,et al.Hierarchically self-assembled supramolecular host-guest delivery system for drug resistant cancer therapy[J].Biomacromolecules,2018,19(6):1926-1938.
[3] Li Wenqiang,Xu Chenfang,Li Shuxian,et al.Cyclodextrin based unimolecular micelles with targeting and biocleavable abilities as chemotherapeutic carrier to overcome drug resistance[J].Materials Science and Engineering C:Materials for Biological Applications,2019,105:110047.
[4] Chen C C,Chueh J Y,Tseng H,et al.Preparation and characterization of biodegradable PLA polymeric blends[J].Biomaterials,2003,24(7):1167-1173.
[5] Hattori K,Tomita N,Yoshikawa T,et al.Prospects for bone fixation-development of new cerclage fixation techniques[J].Materials Science and Engineering C:Biomimetic and Supramolecular Systems,2001,17(1/2): 27-32.
[6] Chu Paul K,Chen Junying,Wang Langping,et al.Plasma-surface modification of biomaterials[J].Materials Science and Engineering R:Reports,2002,36(5/6):143-206.
[7] Park Y J,Lee J Y,Chang Y S,et al.Radioisotope carrying polyethylene oxide-polycaprolactone copolymer micelles for targetable bone imaging[J].Biomaterials,2002,23(3):873-879.
[8]Lee J H,Kang S,Lee S G,et al.Fibrillar superstructure formation of hemoglobin A and its conductive,photodynamic and photovoltaic effects[J].Acta Biomaterialia,2010,6(12):4689-4697.
[9] Baez J,Olsen D,Polarek J W.Recombinant microbial systems for the production of human collagen and gelatin[J].Applied Microbiology and Biotechnology,2005,69(3):245-252.
[10] Parenteau-Bareil R,Gauvin R,Berthod F.Collagen-based biomaterials for tissue engineering applications[J].Materials,2010,3(3):1863-1887.
[11] Dash M,Chiellini F,Ottenbrite R M,et al.Chitosan:a versatile semi-synthetic polymer in biomedical applications[J].Progress in Polymer Science,2011,36(8):981-1014.
[12] Nyambo C,Mohanty A K,Misra M.Polylactide-based renewable green composites from agricultural residues and their hybrids[J].Biomacromolecules,2010,11(6):1654-1660.
[13] Taddei P,Tozzi S,Zuccheri G,et al.Intermolecular interactions between B.mori silk fibroin and poly(L-lactic acid)in electrospun composite nanofibrous scaffolds[J].Materials Science and Engineering C:Materials for Biological Applications,2017,70(1):777-787.
[14] Qian Wenhao,Song Xuemei,Feng Chun,et al.Construction of PEG-based amphiphilic brush polymers bearing hydrophobic poly(lactic acid)side chains via successive RAFT polymerization and ROP[J].Polymer Chemistry,2016,7(19):3300-3310.
[15] Elashnikov R,Slepicka P,Rimpelova S,et al.Temperature-responsive PLLA/PNIPAM nanofibers for switchable release[J].Materials Science and Engineering C:Materials for Biological Applications,2017,72(1):293-300.
[16] Li Zibiao,Chee P L,Owh C,et al.Safe and efficient membrane permeabilizing polymers based on PLLA for antibacterial applications[J].RSC Advances,2016,6(34):28947-28955.
[17] Seyedjafari E,Soleimani M,Ghaemi N,et al.Nanohy-droxyapatite-coated electrospun poly(L-lactide)nanofibers enhance osteogenic differentiation of stem cells and induce ectopic bone formation[J].Biomacromolecules, 2010,11(11):3118-3125.
[18] Rasal R M,Janorkar A V,Hirt D E.Poly(lactic acid)modifications[J].Progress in Polymer Science,2010,35(3):338-356.
[19] Spasova M,Manolova N,Paneva D,et al.Polylactide stereocomplex-based electrospun materials possessing surface with antibacterial and hemostatic properties[J].Biomacromolecules,2010,11(1):151-159.
[20] Deng Chao,Chen Xuesi,Sun Jing,et al.RGD peptide grafted biodegradable amphiphilic triblock copolymer poly(glutamic acid)-b-poly(L-lactide)-b-poly(glutamic acid):synthesis and self-assembly[J].Journal of Polymer Science Part A:Polymer Chemistry,2007,45(15):3218-3230.
[21] Darcos V,El Habnouni S,Nottelet B,et al.Well-defined PCL-graft-PDMAEMA prepared by ring-opening polymerisation and click chemistry[J].Polymer Chemistry,2010,1(3):280-282.
[22] Deng Jianping,Wang Lifu,Liu Lianying,et al.Developments and new applications of UV-induced surface graft polymerizations[J].Progress in Polymer Science,2009,34(2):156-193.
[23] Sun Yang,He Chaobin.Biodegradable "core-shell" rubber nanoparticles and their toughening of poly(lactides)[J].Macromolecules,2013,46(24):9625-9633.
[24] Fan Xiaoshan,Cao Mengya,Zhang Xing,et al.Synthesis of star-like hybrid POSS-(PDMAEMA-b-PDLA)8 copolymer and its stereocomplex properties with PLLA[J].Materials Science and Engineering C:Materials for Biological Applications,2017,76(1):211-216.
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