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Comparison of mono-layer adsorption capacities of Cr(VI) via different adsorbent materials.
Zhang, KOH-activated porous biochar with high specific surface area for adsorptive removal of chromium (VI) and naphthalene from water: Affecting factors, mechanisms and reusability exploration, Journal of Hazardous Materials 401 (2021) 123292
Gobinath, Batch adsorption and kinetics of chromium (VI) removal from aqueous solutions by Ocimum americanum L. seed pods, Journal of hazardous materials 161(2-3) (2009) 709-713
Liu, A multifunctional Zr (IV)-based metal–organic framework for highly efficient elimination of Cr (VI) from the aqueous phase, Journal of Materials Chemistry A 7(28) (2019) 16833-16841
Xu, Synthesis of amino functionalized magnetic graphenes composite material and its application to remove Cr (VI), Pb (II), Hg (II), Cd (II) and Ni (II) from contaminated water, Journal of hazardous materials 278 (2014) 211-220

Barralet Journal of Controlled Release Vol. 122 (2007), p. 173
Schnabelrauch Journal of Materials Science: Materials in Medicine Vol. 18 (2007), p. 909
Barralet Advanced Functional Materials Vol. 17 (2007), p. 3940
Suwanprateeb Materials Science and Engineering: C Vol. 27 (2007), p. 914
Seitz Journal of Materials Science: Materials in Medicine Vol. 16 (2005), p. 1121

Advanced Material and Process.
Vol.160 (2002), p.43 [3] Tongxiang Fan, Di Zhang, Renjie Wu: Journal of Materials Science.
Vol. 37(2002), p. 5191 [4] Sofyan B T, Polmear L J, Ringer S P: Materials Science Forum Vol.396-402(2002), p. 613 [5] Heinz A, Haszler A, Keidel C, et al.: Material Science and Engineering A Vol. 280(2000), p.102 [6] Byung-Geol Kim, Shang-Li Dong and Ick-Jun Kim: Metals and Materials International. 2001 Vol.7 (2001), p.213 [7] Mohmad Soib Bin Selamat: Advanced Performance Materials Vol.3 (1996), p.183 [8] Bernie Yaping Zong, Fang Zhang, Gang Wang: Journal of Materials Science Vol. 42 (2007): p.4215 [9] K.S.
Kang: Journal of Materials Engineering and Performance Vol.17 (2008), p.432 [10] Mohn WR: SALMPE Vol.1 (1988), p. 26 [11] Zhao Min, Wu Gaohui and Jiang Longtao: Journal of Materials Science.
Materials Science and Engineering A Vol.323 (2002), p.445 [15] Na Chen, Hongxiang Zhang, Mingyuan Gu, Yanping Jin: Journal of Materials Processing Technology Vol.209 (2009), p.1471

Materials and methods Technics flow.
Analysis of Fig.2 to get,from the clay ceramic, cement and slag and other eco-friendly materials, length × width × height of 0.2m × 0.1m × 0.04m, with 5 a square hole, hole cross-section size of 0.02m × 0.02m, pore ratio is 32.3%, and the strength of 1.5 Mpa.
Acknowledgements This work was financially supported by the Beijing department of housing and urban (2009-K7-17), Guangzhou bureau of education(08C058) and Guangzhou Panyu district science and technology bureau (2009-Z-69-1).
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Journal of Nuclear Materials, 458 (2015) 138-145
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Metamaterials are artificial composite structures or composite materials, which possess supernormal physical properties that natural materials don’t have.
Through orderly designing the structures in the critical physical size of materials, we can render the materials to break through some restriction in some certain apparent natural laws.
He presented that these materials have negative permittivity and negative permeability simultaneously in special frequency range.
Therefore, the first left-handed materials come out to human being [3].
And the founding of left-handed materials has been selected as one of the “ten key” scientific breakthrough by American <<Science>>magazine in 2003, which triggered worldwide research on this new material.

Callister, "Materials Science and Engineering ", Third edition, John Wiley and Sons, Inc, (1994) 131
Ipek, Adhesive Wear Behaviour of B4C and SiC Reinforced 4147 Al Matrix Composites (Al/B4C–Al/SiC), Journal of Materials Processing Technology (2005) pp 162–163
Chandramohan, Wear Studies on Metal Matrix Composites-Taguchi Approach, Journal of Material Science and Technology 21 (2005) pp 845- 850
Series: Materials Science and Engineering, 671 (2020) 012153. doi:10.1088/1757-899X/671/1/012153
P.Fulay, Essentials of Materials Science and Engineering, Second Edition, Book, Pub Cengage Learning (2010)

Department of Materials Science at Silesian University of Technology since 10 years conducts researches to learn about the structural phenomena which occur during hot plastic treatment which are aimed at elaboration of a technology of heat and plastic treatment of selected alloys from Al-Fe diagram.
The interest in this group of materials is caused by their low cost, low density, good resistance to abrasive wear as well as resistance to oxidation and corrosion, which creates broad perspective for their application in power, chemical, and petrochemical, naval and food industry.
Lalik, Assessment of corrosion resistance in liquid media of FeAl intermetallic phase based alloys with varied aluminium content, Journal of Achievements Materials and Manufacturing Engineering 16 (1-2) (2006) 40-45
Publ., Materials Science Forum 666 (2011) 50-53
Hanc, Structures and phases transitions of the alloys on the bases of Fe-Al intermetallic phases, Archives of Materials Science and Engineering 29 (1) (2008) 16-19

Introduction The advanced functional material of clay-based nanocomposite is produced as a new type of material and science which needed new different treatment from other conventional materials or composites [1-10].
These main steps include: 1- Preparation of the materials of nano clay powder and polymer material (HDPE). 2- Modifications and compatibility of the materials to be ready for processing. 3- Mixing of the main materials of clay and polymers.
Pinnavila, Center of Fundamental materials Research and composite materials and structure center, Michigan state Univ., USA, 1999
Zheng, et. al, Journal of nanoscience and nanotechnology, Vol. 5, 1574-1592, 2005
Qutubuddin, Journal of Colloid and Interface Science, 288, 387-389, 2005

Materials Science and Engineering: R: Reports, 2021, 145, 100627
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Materials Science and Engineering: A, 2013, 563, 1-11
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