自然材料与地球科学
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摘要
地球是一个由无机材料、有机材料和生物材料组成的巨型系统,也是一个运行了46亿年的材料合成与加工的巨型工厂,蕴含了丰富的材料组成、结构、性能、制备工艺和使役等一体化信息.如何向大自然学习,获得大自然的材料密码,以提高人类对新材料的预测能力和制造能力,是材料科学值得关注的新方向.本文系统综述了地球系统中元素、自然矿物材料、自然生物材料的种类和分布,阐述了自然界普遍存在而稳定的核壳复合结构以及超浸润性的表面结构,总结了分选与压实、熔铸与烧结、冷凝与烘烤等自然材料的加工工艺,初步搭建自然材料学的研究构架,为自然材料信息库的建设提供参考.
The Earth is a giant system composed of inorganic materials, organic materials and biological materials and a huge factory for material synthesis and processing that has been running for 4.6 billion years. It contains abundant integrated information of material compositions, structural properties, preparation processes and services. It has become a new research field worthy of attention in material science to learn from nature and obtain the key codes of natural materials to improve the prediction ability and manufacturing ability of new materials. In this study, the types and distribution of elements, natural mineral and natural biological material of Earth system were systematically summarized, and the core-shell structure in different scales and superwettability surface structure in different types in nature were discussed. In addition, the preparation and processing technologies of natural inorganic materials, such as separation and compaction, casting and sintering, condensation and baking, were analyzed. The research framework of Natural Materialogy was preliminarily established. The results of this study will provide a reference for the construction of natural materials database on Earth.
The Earth is a giant system composed of inorganic materials, organic materials and biological materials and a huge factory for material synthesis and processing that has been running for 4.6 billion years. It contains abundant integrated information of material compositions, structural properties, preparation processes and services. It has become a new research field worthy of attention in material science to learn from nature and obtain the key codes of natural materials to improve the prediction ability and manufacturing ability of new materials. In this study, the types and distribution of elements, natural mineral and natural biological material of Earth system were systematically summarized, and the core-shell structure in different scales and superwettability surface structure in different types in nature were discussed. In addition, the preparation and processing technologies of natural inorganic materials, such as separation and compaction, casting and sintering, condensation and baking, were analyzed. The research framework of Natural Materialogy was preliminarily established. The results of this study will provide a reference for the construction of natural materials database on Earth.
引文
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Chen,T.H.,Xie,Q.Q.,Liu,H.B.,2018.Nano-Minerals and Nano-Mineral Resource.Earth Science,43(5):81-91(in Chinese with English abstract).https://doi.org/10.3799/dqkx.2018.403
Chinese Academy Sciences,2013.Chinese Discipline Development Strategy:Materials Science.Science Press,Beijing,24-29(in Chinese)
Darmanin,T.,Guittard,F.,2015.Superhydrophobic and Superoleophobic Properties in Nature.Materials Today,18(5):273-285.https://doi.org/10.1016/j.mattod.2015.01.001
Deng,Y.H.,Yang,W.L.,Wang,C.C.,et al.,2003.ANovel Approach for Preparation of Thermoresponsive Polymer Magnetic Microspheres with Core-Shell Structure.Advanced Materials,15(20):1729-1732.https://doi.org/10.1002/adma.200305459
Duan,T.,Yang,Y.S.,Peng,T.J.,et al.,2009.Review of Progress in Core-Shell Structural Nanocomposite Material.Materials Review,23(3):19-23(in Chinese with English abstract).
Feng,L.,Zhang,Y.N.,Xi,J.M.,et al.,2008.Petal Effect:A Superhydrophobic State with High Adhesive Force.Langmuir,24(8):4114-4119.https://doi.org/10.1021/la703821h
Gao,S.,2000.Fine-Grained Sediment Fluxes and Cycling on Continental Shelves.World Sci-Tech R&D,22(5):73-77(in Chinese with English abstract).
Gong,Z.Z.,Xie,H.S.,Fei,Y.W.,2013.Reviews of Recent Advances of Shock Wave Physics Applied to Earth Science in China.Chinese Journal of High Pressure Physics,27(2):168-187(in Chinese with English abstract).
Hao,J.,Zhou,L.F.,Hao,Y.D.,et al.,2018.Diagenetic Characteristics and Their Control on Porosity of Sandy Conglomerate Reservoirs in Faulted Basins.Petroleum Geology&Experiment,40(5):632-638,649(in Chinese with English abstract).
Hu,B.Q.,Li,J.,Li,G.G.,et al.,2011.Distinguishing the Changjiang and Huanghe Sediments:A Review.Marine Geology&Quaternary Geology,31(6):147-156(in Chinese with English abstract).
Hu,X.M.,2017.A Misunderstanding in Provenance Analysis:Sand Changes of Mineral,Roundness,and Size in Flowing-Water Transportation.Journal of Palaeogeography,19(1):175-184(in Chinese with English abstract).
Jay,H.,2015.The Shark’s Paintbrush:Biomimicry and How Nature is Inspiring Innovation.In:Wang,P.,Guo,P.J.,eds.,China CITIC Press,Beijing(in Chinese).
Jia,X.,2007.Natural Biological Materials and Bionic Engineering Materials.Chemical Industry Press,Beijing(in Chinese).
Jung,D.W.,Kim,K.H.,Lee,J.,et al.,2013.In Situ Synthesis and Cell Performance of a Si/C Core-Shell/BallMilled Graphite Composite for Lithium Ion Batteries.Journal of Nanoscience and Nanotechnology,13(12):7855-7859.https://doi.org/10.1166/jnn.2013.8129
Koch,K.,Bhushan,B.,Barthlott,W.,2008.Diversity of Structure,Morphology and Wetting of Plant Surfaces.Soft Matter,4(10):1943.https://doi.org/10.1039/b804854a
Lee,C.T.A.,Morton,D.M.,Little,M.G.,et al.,2008.Regulating Continent Growth and Composition by Chemical Weathering.Proceedings of the National Academy of Sciences,105(13):4981-4986.https://doi.org/10.1073/pnas.0711143105
Li,B.W.,1995.Contemplation on Relationship between Petrology,Mineralogy and Materials Science.Geological Science and Technology Information,14(3):56-60(in Chinese with English abstract).
Li,C.,Luo,X.R.,2017.Review on Mudstone Compaction.Journal of Earth Science and Environment,39(6):761-772(in Chinese with English abstract).
Li,G.L.,He,T.,Li,X.M.,2011.Preparation and Application of Core-Shell Structure Nanocomposite Materials:the State-of-the-Art.Progress in Chemistry,23(6):1081-1089(in Chinese with English abstract).
Liu,M.J.,Wang,S.T.,Jiang,L.,2017.Nature-Inspired Superwettability Systems.Nature Reviews Materials,2(7):17036.https://doi.org/10.1038/natrevmats.2017.36
Liu,X.F.,Wu,S.Y.,1992.Experimental Analysis of Mechanical Properties of Eggs.Journal of Jiangsu Institute of Technology,13(1):7-13(in Chinese with English abstract).
Liu,X.M.,Rudnick,R.L.,2011.Constraints on Continental Crustal Mass Loss via Chemical Weathering Using Lithium and Its Isotopes.Proceedings of the National Academy of Sciences,108(52):20873-20880.https://doi.org/10.1073/pnas.1115671108
Lu,X.,1995.Principles of Sedimentary Petrology(1st Volum).Geological Publishing House,Beijing,214-234(in Chinese).
Marmur,A.,2004.The Lotus Effect:Superhydrophobicity and Metastability.Langmuir,20(9):3517-3519.https://doi.org/10.1021/la036369u
Nestola,F.,Korolev,N.,Kopylova,M.,et al.,2018.CaSiO3Perovskite in Diamond Indicates the Recycling of Oceanic Crust into the Lower Mantle.Nature,555(7695):237-241.https://doi.org/10.1038/nature25972
Qin,S.,Liu,J.Q.,Chi,Z.Q.,2016.The Development and Prospect of Mineralogy in China.Geological Review,62(4):970-978(in Chinese with English abstract).
Qiu,Y.C.,Liu,K.S.,Jiang,L.,2011.Peanut Leaves with High Adhesive Superhydrophobicity and their Biomimetic Materials.Scienitia Sinica Chemica,41(2):403-408(in Chinese with English abstract).
Ren,Y.L.,2007.Research on Biomechanics of Eggs Based on Shape Characteristics(Dissertation).Huazhong Agricultural University,Wuhan,69(in Chinese with English abstract).
Song,J.G.,Wang,F.P.,Gu,D.,2017.Bionic Building of a Super-Hydrophobic Structure of Chinese Rose on a Bamboo Surface.Journal of Zhejiang A&F University,34(5):921-925(in Chinese with English abstract).
Tang,L.M.,Huang,Y.J.,Song,H.,et al.,2016.Research Progress of Core-Shell Nanocomposites Materials.Materials Review,30(S1):40-42(in Chinese with English abstract).
Wang,C.Y.,2011.Introduction of Microbial Starter.Technical Advisor for Animal Husbandry,(10):73(in Chinese).
Wang,N.,Zhao,Y.,Jiang,L.,2011.Bioinspired Hieriachial Micro/Nanostructure Materials.Chemical Journal of Chinese Universities,32(3):421-428(in Chinese with English abstract).
Wang,Q.X.,Wu,H.,2018.Chemical Elements:Earth’s Genes.Cultural and Science Popularization of Land and Resources,(3):4-11(in Chinese).
Wu,G.F.,Herrmann,F.,Zhang,Z.Z.,2014.A Novel Model of Atom and Its Computer Visualization.Journal of Shanghai University of Science and Technology,36(1):34-38(in Chinese with English abstract).
Xie,H.S.,Hou,W.,Zhou,W.G.,et al.,2001.Deep Earth Exploration and High-Pressure Research.Physics,30(3):145-148(in Chinese with English abstract).
Yang,D.M.,Liao,J.K.,Huang,M.Z.,1999.The Exploration and Application of Natural Materials-Chitin and Chitosan.Chemical Industry and Engineering,16(6):335-340(in Chinese with English abstract).
Yang,J.L.,Xu,Q.M.,Hu,Y.Z.,et al.,2018.The Sedimentary Evolution Process,Weathering Intensity and Provenance Reconstruction Insight from Borehole Records of Bohai Bay.Earth Science,43(S1):291-304(in Chinese with English abstract).https://doi.org/10.3799/dqkx.2018.137
Yang,K.G.,Ma,C.Q.,1996.Some Advances in The Rates of Continental Erosion and Mountain Uplift.Geological Science and Technology Information,15(4):89-96(in Chinese with English abstract).
Zeng,Y.F.,Xia,W.J.,1986.Sedimentary Petrology.Geological Publishing House,Beijing,44-46(in Chinese).
Zhang,Y.,Shu,L.S.,2010.On Research Achievements in Earth’s D”Layer in Core-Mantle Boundary:An Important Breakthrough in 21stExperimental Petrology.Journal of Geology,34(2):113-116(in Chinese with English abstract).
Zhou,C.Y.,Jin,Z.M.,2014.The“Bright Lamp”into the Deep Earth:Experiments at High Pressure and High Temperature.Chinese Journal of Nature,36(2):79-88(in Chinese with English abstract).
Zhu,Y.X.,Chang,H.,2018.A Comprehensive Interpretation of the Mineralogical Study of Super-High Pressure Metamorphism.Yunnan Geology,37(2):138-144(in Chinese with English abstract).
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