Design and Fabrication of Chitosan for Application of Artificial Photosynthesis
Design and Fabrication of Chitosan for Application of Artificial Photosynthesis
参考文献13
-
1C, of Moreau. R. Durand. A. Roux, D. Tichit. glucose into fructose in the lsomerization presence of cation-exchanged zeolites and hydrotalcites, Applied Catalysis A: General 193 (1-2) (2000) 257-264.
-
2D. Gust, T.A. Moore. A.L. Moore, Solar fuels via artificial photosynthesis. Accounts of Chemical Research 42 (12) (2009) 1890-1898.
-
3X. Ren, Q. Zhang. H. Li, J. Zhou, Micro and nano design and fabrication of a novel artiticial photosynthesis device. in: ASMF~ 2012 International Manufacturing Science and Engineering Conference, Notre Dame, Indiana. USA, June 4-8. 2012.
-
4S.V. Madihally. H.W.T. Matthew. Porous chitosan scaftblds lbr tissue engineering. Biomaterials 20 (12) (1999) 1133-1142.
-
5A. Chenite. C. Chaput, D. Wang. C. Combes. M.D. Buschmann, C.D. Hoemann. et al., Novel in.jectablc neutral solutions of chitosan tbrm biodegradable gels in situ, Biomaterials 21 (21) (2000) 2155-2161.
-
6Q. Gan, Y. Wang, Chitosan nanoparticle as protein deliver' carrier-Systematic examination of fabrication conditions tbr efficient loading and release, Colloids and Surfaces B: Biointerfaces 59 ( 1 ) (2007) 24-34.
-
7A. D. Martino, M. Sittinger, M.V. Risbud. Chitosan: A versatile biopolymer for orthopaedic tissue-engineering. Biomaterials 26 (30) (2005) 5983-5990.
-
8L. Geng, W. Feng, D.W. Hutnlacher, Y.S. Wong. I1.1. Loh, J. Fuh, Direct writing of chitosan scaffolds using a robotic system. Rapid Prototyping Journal 11 (2) (2005) 90-97.
-
9T.H. Ang. F.S.A. Sultana, D.W. |lutmachcr, Y.S. Wong, J.Y.II. Fuh, X.M. Mo, et al., Fabrication of 3D chitosan-hydroxyapatite scat'tblds using a robotic dispensing system, Materials Science and Engineering C 20 (1-2) (2002) 35-42.
-
10J. Desbrieres, Viscosity ofsemiflexib[e chitosan solutions: Influence of concentration, temperature, and role of intermolecular interactions, Biomacromolecules 3 (2) (2002) 342-349.
-
1陈思翰,刘福兴.用选择性激光烧结技术制作陶瓷原件研究[J].西安交通大学学报,2011,45(11):116-120. 被引量:2
-
2郭志刚,高东强.新型陶瓷快速成型机铺料台的有限元分析[J].机械设计与制造,2010(4):29-31. 被引量:6
-
3中科院利用自组装杂化体系实现太阳能全分解水制氢[J].军民两用技术与产品,2014,0(14):32-32.
-
4刊中刊[J].华东科技,2012(5):7-7.
-
5人工光合作用开启海洋能源宝库[J].发明与创新(大科技),2004(6):22-22.
-
6十大未来新能源[J].上海包装,2009(5):53-56.
-
7ZHANG ChunXi.The first artificial Mn_4Ca-cluster mimicking the oxygen-evolving center in photosystem Ⅱ[J].Science China(Life Sciences),2015,58(8):816-817. 被引量:4
-
810年后完全不使用石油[J].青年科学,2009(7):55-55.
-
9双木.人工光合作用有希望成功[J].自然杂志,2012,34(6):326-326.
-
10晓威.人工光合作用与绿色能源[J].百科知识,2010(1):31-33.