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Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals Volume 340, 2000 - Issue 1
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SECTION I: GRAPHITE INTERCALATION COMPOUNDS

Studies of Exfoliated Graphite (EG) for Heavy Oil Sorption

Beata Tryba Dept. of Water Technology and Env. Protection, Technical University of Szczecin, ul. Pulaskiego 10, 70-322, Szczecin, Poland
,
Ryszard J. Kalenczuk Dept. of Water Technology and Env. Protection, Technical University of Szczecin, ul. Pulaskiego 10, 70-322, Szczecin, Poland
,
Feiyu Kang Dept. of Materials Science and Engineering, Tsinghua University, Beijing, 100084, China
,
Michio Inagaki Aichi Institute of Technology, Dept. ofAppl. Chem., Yakusa, Toyota, 470-0392, Japan
&
Antoni W. Morawski Dept. of Water Technology and Env. Protection, Technical University of Szczecin, ul. Pulaskiego 10, 70-322, Szczecin, Poland
Pages 113-119 | Published online: 24 Sep 2006

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Zhen-Xue Liu, Lin-yuan Jiang, Xin-xin Wang, Min-jie Ma, Qian-qian Lu & Peng Liang. (2022) Novel expanded graphite with a ‘Spitball’ structure. Materials Science and Technology 38:1, pages 1-4.
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Ling Zhang, Yan Gao, Mengxue Li & Jianyong Liu. (2015) Expanded graphite loaded with lanthanum oxide used as a novel adsorbent for phosphate removal from water: performance and mechanism study. Environmental Technology 36:8, pages 1016-1025.
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Asish Malas, Goutam Hatui, Parthajit Pal & Chapal Kumar Das. (2014) Synergistic Effect of Expanded Graphite/Carbon Black on the Physical and Thermo-Mechanical Properties of Ethylene Propylene Diene Terpolymer. Polymer-Plastics Technology and Engineering 53:7, pages 716-724.
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Shing-Chung Wong, EricM. Sutherland & FawnM. Uhl. (2006) Materials Processes of Graphite Nanostructured Composites Using Ball Milling. Materials and Manufacturing Processes 21:2, pages 159-166.
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Juan Hou, Xu Gao, Zhaoyu Yang, Jing Qin, Yongqi Li & Bin Li. (2021) Microwave-Assisted Preparation of Zirconium Intercalated Expanded Graphite for Chlorpyrifos Determination in Honey. Chromatographia 84:2, pages 117-125.
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Raul Reyna, Mayken Espinoza-Andaluz & Andres Rigail. (2020) Size oriented morphological properties of expanded graphite. Size oriented morphological properties of expanded graphite.
Kazuyuki Takai, Seiya Tsujimura, Feiyu Kang & Michio Inagaki. 2020. Graphene. Graphene 251 371 .
Mohamed Alnaqbi, Afra Alblooshi & Yaser Greish. (2018) Cleaning and Retrieval of Spilled Crude Oil and its Application as a Refinery Feedstock Using Highly Efficient Polymeric Nanofibrous Sorbents. Cleaning and Retrieval of Spilled Crude Oil and its Application as a Refinery Feedstock Using Highly Efficient Polymeric Nanofibrous Sorbents.
Wenbo Zhang, Xianglin Zhai, Tianhao Xiang, Ming Zhou, Deli Zang, Zhengxin Gao & Chengyu Wang. (2016) Superhydrophobic melamine sponge with excellent surface selectivity and fire retardancy for oil absorption. Journal of Materials Science 52:1, pages 73-85.
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Avinash Raulo, Supratim Suin, Sarbaranjan Paria & B.B. Khatua. (2016) Expanded graphite (EG) as a potential filler in the reduction of percolation threshold of multiwall carbon nanotubes (MWCNT) in the PMMA/HDPE/EG/MWCNT nanocomposites. Polymer Composites 37:7, pages 2070-2082.
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Jürgen Pionteck, Elixana Maria Melchor Valdez, Francesco Piana, Mária Omastová, Adriaan Stephanus Luyt & Brigitte Voit. (2015) Reduced percolation concentration in polypropylene/expanded graphite composites: Effect of viscosity and polypyrrole. Journal of Applied Polymer Science 132:20, pages n/a-n/a.
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P. Krawczyk & T. Rozmanowski. (2014) Preparation and electrochemical properties of EG/Fe2O3/C composite. Ionics 21:1, pages 59-66.
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Zhongxin Xue, Yingze Cao, Na Liu, Lin Feng & Lei Jiang. (2014) Special wettable materials for oil/water separation. J. Mater. Chem. A 2:8, pages 2445-2460.
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Michio Inagaki & Feiyu Kang. 2014. Materials Science and Engineering of Carbon: Fundamentals. Materials Science and Engineering of Carbon: Fundamentals 219 525 .
Michio Inagaki, Feiyu Kang, Masahiro Toyoda & Hidetaka Konno. 2014. Advanced Materials Science and Engineering of Carbon. Advanced Materials Science and Engineering of Carbon 313 334 .
Asish Malas & Chapal Kumar Das. (2014) Development of modified expanded graphite-filled solution polymerized styrene butadiene rubber vulcanizates in the presence and absence of carbon black. Polymer Engineering & Science 54:1, pages 33-41.
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Francesco Piana & Jürgen Pionteck. (2013) Effect of the melt processing conditions on the conductive paths formation in thermoplastic polyurethane/expanded graphite (TPU/EG) composites. Composites Science and Technology 80, pages 39-46.
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Asish Malas, Chapal Kumar Das, Amit Das & Gert Heinrich. (2012) Development of expanded graphite filled natural rubber vulcanizates in presence and absence of carbon black: Mechanical, thermal and morphological properties. Materials & Design 39, pages 410-417.
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Viktor G. Makotchenko, Ekaterina D. Grayfer, Albert S. Nazarov, Sung-Jin Kim & Vladimir E. Fedorov. (2011) The synthesis and properties of highly exfoliated graphites from fluorinated graphite intercalation compounds. Carbon 49:10, pages 3233-3241.
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Jihui Li, Huiqing Shi, Ning Li, Mei Li & Jing Li. (2010) Ultrasound-assisted preparation of alkaline graphite intercalation compounds. Ultrasonics Sonochemistry 17:5, pages 745-748.
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P. Krawczyk & J. M. Skowroński. (2009) Modification of expanded graphite resulting in enhancement of electrochemical activity in the process of phenol oxidation. Journal of Applied Electrochemistry 40:1, pages 91-98.
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Michio Inagaki. (2009) Pores in carbon materials-importance of their control. New Carbon Materials 24:3, pages 193-232.
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Michio Inagaki, Masahiro Toyoda, Norio Washita & Feiyu Kang. 2008. Adsorption by Carbons. Adsorption by Carbons 711 734 .
Jihui Li, Jing Li & Mei Li. (2007) Preparation of expandable graphite with ultrasound irradiation. Materials Letters 61:28, pages 5070-5073.
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L.N. Song, M. Xiao & Y.Z. Meng. (2006) Electrically conductive nanocomposites of aromatic polydisulfide/expanded graphite. Composites Science and Technology 66:13, pages 2156-2162.
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Shing‐Chung Wong, Erwin M. Wouterson & Eric M. Sutherland. (2006) Dielectric properties of graphite nanocomposites. Journal of Vinyl and Additive Technology 12:3, pages 127-130.
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M. Inagaki & J.M.D. Tascón. 2006. Activated Carbon Surfaces in Environmental Remediation. Activated Carbon Surfaces in Environmental Remediation 49 105 .
Beata Tryba, Antoni W. Morawski & Michio Inagaki. (2005) Preparation of exfoliated graphite by microwave irradiation. Carbon 43:11, pages 2417-2419.
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Michio Inagaki, Akihiro Kawahara & Hidetaka Konno. (2004) Recovery of heavy oil from contaminated sand by using exfoliated graphite. Desalination 170:1, pages 77-82.
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John M Andrésen, Caroline E Burgess, Peter J Pappano & Harold H Schobert. (2004) New directions for non-fuel uses of anthracites. Fuel Processing Technology 85:12, pages 1373-1392.
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Wenge Zheng & Shing-Chung Wong. (2003) Electrical conductivity and dielectric properties of PMMA/expanded graphite composites. Composites Science and Technology 63:2, pages 225-235.
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Masahiro Toyoda, Yoko Nishi, Norio Iwashita & Michio Inagaki. (2003) Sorption and recovery of heavy oils using exfoliated graphite Part IV: Discussion of high oil sorption of exfoliated graphite. Desalination 151:2, pages 139-144.
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Wenge Zheng, Shing-Chung Wong & Hung-Jue Sue. (2002) Transport behavior of PMMA/expanded graphite nanocomposites. Polymer 43:25, pages 6767-6773.
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Michio Inagaki & Taisuke Suwa. (2001) Pore structure analysis of exfoliated graphite using image processing of scanning electron micrographs. Carbon 39:6, pages 915-920.
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