KingNet國家網路醫藥,http://hospital.kingnet.com.tw/medicine/ (2015)。
王大銘,“薄膜分離技術於廢水處理之應用概述”,經濟部工業局工安環保報導,http://www.ftis.org.tw/cpe/download/she/Issue23/subject23-2.htm(2004)。行政院環保署環境檢驗所,「事業放流水採樣方法」,NIEA W109.51B (2009)。
行政院衛生署國民健康局,“特殊健康危害專題季刊-101年度第二季”, (2012)。
行政院環境保護署,“環保政策月刊-102年2月第16卷第2期”, (2013)。
行政院環境保護署,“宣導手冊-認識生活環境中毒性物質”,(2016)。
行政院環境保護署,「化工業放流水標準」,環署水字第1040110367號(2016)。
行政院環境保護署,「石油化學業放流水標準」,環署水字第1040110373號(2016)。
沈宛瑩,“新穎電薄膜程序處理生活污水中之環境荷爾蒙及藥物”,碩士學位論文,國立中山大學環境工程研究所,高雄市(2013)。何世明及蘇清源,“石墨烯奈米帶的近期發展與應用”,奈米通訊,第1期第23卷,第2-7頁(2016)。
周宗享,“同步電混凝/電過濾程序輔助奈米Fe3O4/S2O82-氧化去除水溶液中之環境荷爾蒙及藥物”,碩士學位論文,國立中山大學環境工程研究所,高雄市(2012)。施佳男、蒲念文、劉益銘、劉泰良、彭佑宇、王柏強、葛明德,“以固態碳源-聚乙烯成長石墨烯薄膜之研究”,技術學刊,第3期第29卷,第181-186頁(2014)。翁任賢,“揭開神奇材料的面紗–石墨烯(Graphene)”,奈米科學網(2013)。
莊連春、曾迪華、林敬傑、梁德明,“逆滲透薄膜程序回收處理都市污水之長效性評估”,台灣環境資源永續發展之研討會(2007)。
陳思偉,“新竹科學工業園區高科技產業廢水分析與對承受水體之影響研究”,博士學位論文,國立清華大學化學系,新竹市(2004)。陳嘉惠、陳櫻丹、林亭儀、李俊璋,“新興環境污染物綜論”,98年度環境健康風險季刊-第2季,第12-37頁(2009)。
陳偉立、施李碧玉、陳立奇,“塑化劑對醫藥品影響及致癌機轉之探討”, 臺灣臨床藥學雜誌,第20卷,第4期,第315-327頁(2012)。黃英豪,“生活污水中鄰苯二甲酸酯類與藥物:監測及新穎電薄膜處理”,碩士學位論文,國立中山大學環境工程研究所,高雄市(2014)。湯佩玲,“利用石墨烯奈米材料吸附程序及同步電混凝/電過濾程序去除生活污水中關切的新興污染物”,碩士學位論文,國立中山大學環境工程研究所,高雄市(2015)。彭佑宇,“石墨烯製備透明導電膜之研究”,碩士學位論文,國防大學理工學院化學及材料工程學系應用化學研究所,桃園市(2011)。劉愛萍,“高級氧化技術在水處理中的研究與展望”,科技嚮導,第3期,第92-94頁(2011)。
劉建甫,“在鎳網上製作石墨烯製程及特性分析”,碩士學位論文,明志科技大學材料工程系碩士班,新北市(2015)。楊金鐘,“一種利用同步電混凝及電過濾去除水溶液中奈米微粒及乳化液滴之方法與設備”,中華民國發明專利第229656號(2005)。
楊金鐘,“淺談無機濾膜及其於廢水處理之應用”,化工技術, 第16 卷,第7 期,第174-185 頁(2008)。 楊金鐘、劉紹興、王智龍,“台灣南北部自來水中之藥物及鄰苯二甲酸酯類殘留調查與比較”,第29屆自來水研究發表會論文摘要集,第55頁,台中市(2012)。
楊金鐘、顏嘉亨、湯佩玲,“石墨烯吸附生活污水中鄰苯二甲酸酯類之研究”,第十一屆環境保護與奈米科技研討會USB 論文集,5 月17日,台中市(2014)。
廖哲宏,“以石墨烯奈米材料處理水中雙酚A 之研究”,碩士學位論文,國立中興大學環境工程學系所,台中市(2015)。鄭領英、王學松,“膜的高科技應用”,五南圖書出版股份有限公司,台北市(2003)。
鄭人豪,“利用奈米級TiO2 薄膜光催化處理氯苯水溶液之研究”,碩士學位論文,國立中山大學環境工程研究所,高雄市(2003)。歐陽嶠暉,“下水道工程學”,第三版,長松文化興業股份有限公司,台北市 (2000)。
蔡啟明,“新穎管狀碳質/陶瓷複合膜製備其應用於同步電混凝/電過濾程序處理化學機械研磨廢水之研究”,博士學位論文,國立中山大學環境工程研究所,高雄市(2008)。 羅金生,“半導體廠化學機械研磨(CMP)廢水回收再利用可行性評估”,碩士學位論文,國立台灣大學環境工程研究所(2001)。
顏嘉亨,“同步電混凝/電過濾程序結合自製管狀碳質/陶瓷複合膜去除水中關切的新興污染物”,博士學位論文,國立中山大學環境工程研究所,高雄市(2014)。蘇清源,“石墨烯氧化物之特性與應用前景”,物理雙月刊,第2期,第163-167頁(2011)。蘇清源,“石墨烯量產技術與產業應用”,光連雙月刊,第108期,第61-71頁(2013)。
Allen, M. J., V. C. Tung, and R. B. Kaner, “Honeycomb Carbon: A Review of Graphene,” Chemical Reviews, Vol. 110, pp. 132-145 (2010).
Al-Khateeb, L. A., S. Almotiry, and M. A. Salam, “Adsorption of Pharmaceutical Pollutants onto Graphene Nanoplatelets,” Chemical Engineering Journal, Vol. 248, pp. 191-199 (2014).
Apul, O. G., Q. Wang, Y. Zhou, and T. Karanfil, “Adsorption of Aromatic Organic Contaminants by Graphene Nanosheets: Comparison with Carbon Nanotubes and Activated Carbon,” Water Research, Vol. 47, pp.1648-1654 (2013).
Arsand, D. R., K. Kümmerer, and A. F. Martins, “Removal of Dexamethasone from Aqueous Solution and Hospital Wastewater by Electrocoagulation,” Science of the Total Environment, Vol. 443, pp. 351-357 (2013).
Bae, S., H. Kim, Y. Lee, X. Xu, J. S. Park,Y. Zheng, J. Balakrishnan, T. Lei, H. R. Kim, Y. I. Song, Y. J. Kim,K. S. Kim, B. Özyilmaz, J. H. Ahn, B. H. Hong, and S. Iijima, “Roll-to-roll Production of 30-inch Graphene Films for Transparent Electrodes,” Nature Nanotechnology, Vol. 5, pp. 574-578 (2010).
Bowen, W. R. and H. A. Sabuni, “Pulsed Electrokinetic Cleaning of Cellulose Nitrate Microfiltration Membranes,” Industrial and Engineering Chemistry Research, Vol. 31, pp. 515-523 (1992).
Bong, S., Y. R. Kim, I. Kim, S. Woo, S. Uhm, J. Lee, and H. Kim, “GrapheneSupported Electrocatalysts for Methanol Oxidation,” ElectrochemistryCommunications, Vol. 12, pp. 129-131 (2010).
Bodzek, M., M. Dudziak, and K. Luks-Betlej, “Application of Membrane Techniques to Water Purification. Removal of Phthalates,” Desalination, Vol. 162, pp. 121-128 (2004).
Brar, V. W., Y. Zhang, and Y. Yayon, “Scanning Tunneling Spectroscopy of Inhomogeneous Electronic Structure In Monolayer and Bilayer
Graphene on SiC,” Applied Physics Letters, Vol. 91, pp. 122102-1- 122102-3 (2007).
Bhaskar, T., M. Tanabe, A. Muto, Y. Sakata, C. F. Liu, M. D. Chen, and C. C. Chao, “Analysis of Chlorine Distribution in the Pyrolysis Products of Poly (vinylidene chloride) mixed with Polyethylene, Polypropylene or Polystyrene,” Polymer Degradation and Stability, Vol. 89, pp. 38-42 (2005).
Cao, G. Z., J. Meijerink, H. W. Brinkman, and A. J. Burggraaf, “Permporometry Study on Size Distribution of Active Pore in Porous Ceramic Membranes,” Journal of Membrane Science, Vol. 83, pp. 221-235 (1993).
Celebi, C., C. Yanik, A. G. Demirkol, and I. I. Kaya, “Control of The
Graphene Growth Rate on Capped SiC Surface under Strong Si
Confinement,” Applied Surface Science, Vol. 264, pp. 56-60 (2013).
Chen, C. Y., W. L. Chen, G. S. Wang, and J. C. Gwo, “Ultra-high Performance Liquid Chromatography/Tandem Mass Spectrometry Determination of Feminizing Chemicals in River Water, Sediment and Tissue Ppretreated using Disk-type Solid-phase Extraction and Matrix Solid-phase Dispersion,” Talanta, Vol. 89, pp. 237-245 (2012).
Cheryan, M., “Ultrafiltration and Microfiltration Handbook,” Technomic Publishing Company, Lancaster Pennsylvania., USA (1998).
Chiu, T. Y. and F. J. G. Garcia, “Critical Flux Enhancement in Electrically Assisted Microfiltration,” Separation and Purification Technology, Vol. 78, pp. 62-68 (2011).
Chen H., B. Gao, and H. Li, “Functionalization, pH, and Ionic Strength Influenced Sorption of Sulfamethoxazole on Graphene,” Journal of Environmental Chemical Engineering, Vol. 2, pp. 310-315 (2014).
Clara, M., G. Windhofer, W. Hartl, K. Braun, M. Simon, O. Gans, C. Scheffknecht, and A. Chovanec, “Occurrence of Phthalates in Surface Runoff, Untreated and Treated Wastewater and Fate during Wastewater Treatment,” Chemosphere, Vol. 78, pp. 1078-1084 (2010).
Cuperus, F. P., D. Bargeman, and C. A. Smolders, “Permporometry: The Determination of the Size Distribution of Active Pores in UF Membranes,” Journal of Membrane Science, Vol. 71, pp. 57-67 (1992).
Deblonde, T., C. Cossu-Leguilleb, and P. Hartemanna, “Emerging Pollutants in Wastewater: A review of the Literature,” International Journal of Hygiene and Environmental Health, Vol. 214, pp. 442-448 (2011).
Deng X., L. Lü, H. Li, and F. Luo, “The Adsorption Properties of Pb (II) and Cd (II) on Functionalized Graphene Prepared by Electrolysis Method,” Journal of Hazardous Materials, Vol. 183, pp. 923-930 (2010).
Du, J. Y., Y. P. Wei, F. F. Liu, Y. H. Dai, J. Zhao, Z. Y. Wang, “Adsorption Behavior and Mechanism of Environmental Pollutants on Graphene Oxide,” Advances in Earth Science, Vol. 31, pp. 1125-1136 (2016).
Dubale, A. A., W. N.Su, A. G. Tamirat, C. J. Pan, B. A. Aragaw, H. M. Chen, C. H. Chen, and B. J. Hwang, “The Synergetic Effect of Graphene on Cu2O Nanowire Arrays as A Highly Efficient Hydrogen Evolution Photocathode in Water Splitting,” Journal of Materials Chemistry A, Vol. 2, pp. 18383-18397 (2014).
Edzwalds, J. K. and Tobiason, J. E., “Enhanced Coagulation: US Reruirement and a Broader View,” Water Science and Technology, Vol. 40, pp. 63-70 (1999).
El-Safty, S. A. and N. D., Hoa, “Organic–Inorganic Mesoporous Silica Nanotube Hybrid Anodic Alumina Membranes for Ultrafine Filtration of Noble Metal Nanoparticles,” In Book:Noble Metals, Chapter 7, pp. 129-158 (2012).
Endo, M., Y. J. Kim, T. Takeda, T. Maeda, T. Hayashi, K. Koshiba, H. Hara, and M. S. Dresselhaus, “Poly (vinylidene chloride)-based Carbon as an Electrode Material for High Power Capacitors with an Aqueous Eelectrolyte,” Journal of The Electrochemical Society, Vol. 148, pp. A1135-A1140 (2001).
Fernandez, M., A. Laca, and M. Diaz, “Seasonal Occurrence and Removal of Pharmaceutical Products in Municipal Wastewaters,” Journal of Environmental Chemical Engineering, Vol. 2, pp. 495-502 (2014).
Fernández, R. L., J. A. McDonald, S. J. Khan, and P. Le-Clech, “Removal of Pharmaceuticals and Endocrine Disrupting Chemicals by a Submerged Membrane Photocatalysis Reactor (MPR)”, Separation and Purification Technology, Vol. 127, pp. 131-139 (2014).
Field, J. A., C. A. Johnson, and J. B. Rose, “What is “Emerging” ?,” Environmental Science and Technology, Vol. 40, p. 7105 (2006).
Fu, X., X. Song, and Y. Zhang, “Facile Preparation of Graphene Sheets from Synthetic Graphite,” Materials Letters, Vol. 70, pp. 181-184 (2012).
Furlong, E. T., A. L. Batt, S. T. Glassmeyer, M. C. Noriega, D. W. Kolpin, H. Mash, and K. M. Schenck, “Nationwide Reconnaissance Of Contaminants Of Emerging Concern In Source And Treated Drinking Waters Of The United States: Pharmaceuticals,” Science of The Total Environment, Vol. 579, pp. 1629-1642 (2017).
Gao, Y., Y. Li, L. Zhang, H. Huang, J. Hu, S. M. Shah, and X. Su,“Adsorption and Removal of Tetracycline Antibiotics from AqueousSolution by Graphene Oxide,” Journal of Colloid and Interface Science, Vol. 368, pp. 540-546 (2012).
Gao, D., Z. Li, Z. Wen, and N. Ren, “Occurrence and Fate of Phthalate Esters in Full-Scale Domestic Wastewater Treatment Plants and Their Impact 140 on Receiving Waters along the Songhua River in China,” Chemosphere, Vol. 95, pp. 24-32 (2014a).
Geim, A. K. and K. S. Novoselov, “The Rise of Graphene,” Nature Materials, Vol. 6, pp. 183-191 (2007).
Grover, D. P., J. L. Zhou, P. E. Frickers, and J. W. Readman, “Improved Removal of Estrogenic and Pharmaceutical Compounds in Sewage Effluent by Full Scale Granular Activated Carbon: Impact on Receiving River Water,” Journal of Hazardous Materials, Vol. 185, pp. 1005-1011 (2011).
Guo, H. L., X. F. Wang, Q. Y. Qian, F. B. Wang, and X. H. Xia, “A Green Approach to the Synthesis of Graphene Nanosheets,” ACS Nano, Vol. 3, pp. 2653-2659 (2009).
Guerra, P., M. Kim, A. Shah, M. Alaee, and S. A. Smyth, “Occurrence and Fate of Antibiotic, Analgesic/Anti-Inflammatory, and Antifungal Compounds in Five Wastewater Treatment Processes,” Science of the Total Environment, Vol. 473-474, pp. 235-243 (2014).
Han, Y., Z. Xu, and C. Gao, “Ultrathin Graphene Nanofiltration Membrane for Water Purification,” Advanced Functional Materials, Vol. 23, 3693−3700 (2013).
Hegab, H. M., and L. Zou, “Graphene Oxide-assisted Membranes: Fabrication and Potential Applications in Desalination and Water Purification,” Journal of Membrane Science, Vol. 484, pp. 95-106 (2015).
Hedgespeth, M. L., Y. Sapozhnikova, P. Pennington, A. Clum, A. Fairey, and E. Wirth, “Pharmaceuticals and Personal Care Products (PPCPs) in Treated Wastewater Discharges into Charleston Harbor, South Carolina,” Science of the Total Environment, Vol. 437, pp. 1-9 (2012).
Hofs, B., J. Ogier, D. Vries, E. F. Beerendonk, and E. R. Cornelissen, “Comparison of Ceramic and Polymeric Membrane Permeability and Fouling Using Surface Water,” Separation and Purification Technology, Vol. 79, pp. 365-374 (2011).
Huang, P., N. Xu, J. Shi, and Y. S. Lin, “Characterization of Asymmetric Ceramic Membranes by Modified Permporometry,” Journal of Membrane Science, Vol. 116, pp. 301-305 (1996).
Huotari, H. M., G. Tragardh, and I. H. Huisman, “Crossflow Membrane Filtration Enhanced by an External DC Electric Field: A review,” Chemical Engineering Research and Design, Vol. 77A, pp. 461-468 (1999).
Huang, K., G. Liu, Y. Lou, Z. Dong, J. Shen, and W. Jin, “A Graphene Oxide Membrane with Highly Selective Molecular Separation of Aqueous Organic Solution,” Angewandte Chemie, Vol. 53, pp. 6929-6932 (2014).
Hu, M. and B. Mi, “Enabling Graphene Oxide Nanosheets as Water Separation Membranes,” Environmental Science and Technology., Vol. 47, pp. 3715–3723 (2013).
IARC -List of classifications by cancer site, (2016).
Joshi, R. K., S. Alwarappan, M. Yoshimura, V. Sahajwalla, and Y. Nishina, “Graphene Oxide: The New Membrane Material. Applied Materials Today,” Vol. 1, pp. 1-12 (2015).
Jones, S. M., “Nanofiltration Rejection of Contaminants of Emerging Concern from Municipal Water Resource Recovery Facility Secondary Effluents for Potable Reuse Applications”, University of Arkansas, Fayetteville, Theses and Dissertations. 1531, (2016).
Kim, C., K. S. Yang, Y. J. Kim, and M. Endo, “Heat Treatment Temperature Effects on Structural and Electrochemical Properties of PVDC-based Disordered Carbons,” Journal of Membrane Science, Vol. 38, pp. 2987-2991 (2003).
Kiso, Y., T. Kon, T. Kitao, and K. Nishimura, “Rejection Properties of Alkyl Phthalates with Nanofiltration Membranes,” Journal of Membrane Science, Vol. 182, pp. 205-214 (2001).
Kim, H. W., H. W. Yoon, S. M. Yoon, B. M. Yoo, B. K. Ahn, Y. H. Cho, H. J. Shin, H. Yang, U. Paik, S. Kwon, J. Y. Choi, and H. B. Park, “Selective Gas Transport Through Few-layered Ggraphene and Graphene Ooxide Membranes,” Science,Vol. 342, pp. 91-95 (2013).
Klamerth, N., S. Malato, A. Aguer, and A. Fernandez-Alba, “Photo-Fenton and Modified Photo-Fenton at Neutral pH for the Treatment of Emerging Contaminants in Wastewater Treatment Plant Effluents: A Comparison,” Water Research, Vol. 47, pp. 833-840 (2013).
Kolpin, D. W., E. T. Furlong, M. T. Meyer, E. M. Thurman, S. D. Zaugg, L. B. Barber, and H. T. Buxton, “Pharmaceuticals, Hormones, and other Organic Waste Contaminants in U.S. Streams, 1999-2000: A Nnational Reconnaissance,” Environmental Science and Technology, Vol. 36, pp. 1202-1211 (2002).
Kumar, A., and I. Xagoraraki, “Pharmaceuticals, Personal Ccare Products and Endocrine-disrupting Chemicals in U.S. Surface and Finished Drinking Waters: A Proposed Ranking Ssystem,” Science of the Total Environment, Vol. 408, pp. 5972-5989 (2010).
Kuster, M., M. J. L. de Alda, M. D. Hernando, M. Petrovic, J. Martín-Alonso, and D. Barceló, “Analysis and Occurrence of Pharmaceuticals, Estrogens, Progestogens and Polar Pesticides in Sewage Treatment Plant Effluents, River Water and Drinking Water in the Llobregat River Basin (Barcelona, Spain),” Journal of Hydrology, Vol. 358, pp. 112-123 (2008).
Larue, O., E. Vorobiev, C. Vu, and B. Durand, “Electrocoagulation and Coagulation by Iron of Latex Particles in Aqueous Suspensions,” Separation and Purification Technology, Vol. 31, pp. 177-192 (2003).
Lapworth, D. J., N. Baran, M. E. Stuart, and R. S. Ward, “Emerging Organic Contaminants in Groundwater: A Review of Sources, Fate and Occurrence,” Environmental Pollution, Vol. 163, pp. 287-303 (2012).
Larry, D. B., J. F. Jukins, and B. L. Weand, “Process Chemistry for Water and Wastewater Treatment,” Published by Prentice-Hall, New Jersey, U. S. A. (1982).
Lee, C., X. Wei, J. W. Kysar, and J. Hone, “Measurement of the Elastic Properties and Intrinsic Strength of Monolayer Graphene,” Science, Vol. 321, pp. 385-388 (2008).
Lin, Y. L. and C. H. Lee, “Elucidating the Rejection Mechanisms of PPCPs by Nanofiltration and Reverse Osmosis Membranes”, Industrial and Engineering Chemistry Research, Vol. 53, pp. 6798–6806 (2014).
Liu, N., F. Luo, H. Wu, Y. Liu, C. Zhang, and J. Chen, “One-Step Ionic-Liquid-Assisted Electrochemical Synthesis of Ionic-Liquid-Functionalized Graphene Sheets Directly from Graphite,” Advanced Functional Materials, Vol. 18, pp. 1518-1525 (2008).
Liu, T., Y. Li, Q. Du, J. Sun, Y. Jiao, G. Yang, Z. Wang,Y. Xi, W. Zhang, K. Wang, H. Zhu, and D. Wu, “Adsorption of Methylene Blue from Aqueous Solution by Graphene,” Colloids and Surfaces B: Biointerfaces, Vol. 90, pp. 197-203 (2012).
Lin, A. Y. C., T. H. Yu, and C. F. Lin, “Pharmaceutical Contamination in Residential, Industrial, and Agricultural Waste Streams: Risk to Aqueous Environments in Taiwan,” Chemosphere, Vol. 74, pp. 131-141 (2008).
Lin, A. Y. C. and Y. T. Tsai, “Occurrence of Pharmaceuticals in Taiwan''s Surface Waters: Impact of Waste Streams from Hospitals and Pharmaceutical Production Facilities,” Science of the Total Environment, Vol. 407, pp. 3793-3802 (2009).
Lin, Y., S. Xu, and J. Li, “Fast and Highly Efficient Tetracyclines Removal from Environmental Waters by Graphene Oxide Functionalized Magnetic Particles,” Chemical Engineering Journal, Vol. 225, pp. 679–685 (2013).
Liou, S. H., G. C. C. Yang, C. L. Wang, and Y. H. Chiu, “Monitoring of PAEMs and Beta-agonists in Urine for a Small Group of Experimental Subjects and PAEs and Beta-agonists in Drinking Waterconsumed by the Same Subjects,” Journal of Hazardous Materials, Vol. 277, pp. 169-179 (2014).
Li, H., Z. Song, X. Zhang, Y. Huang, S. Li, Y. Mao, H. J. Ploehn, Y. Bao, and M. Yu, “Ultrathin, Molecular-Sieving Graphene Oxide Membranes for Selective Hydrogen Separation,” Science, Vol. 342, pp. 95-98 (2013).
Li, X., W. Cai, J. An, S. Kim, J. Nah, D. Yang, R. Piner, A. Velamakanni, I. Jung, E. Tutuc, S. K. Banerjee, L. Colombo, and R. S. Ruoff, “Large-Area Synthesis of High-Quality and Uniform Graphene Films on Copper Foils,” Science, Vol. 324, pp. 1312-1314 (2009).
Liu, W., H. Li, C. Xu, Y. Khatami, and K. Banerjee, “Synthesis of High-quality Monolayer and Bilayer Graphene on Copper using Chemical Vapor Deposition,” Carbon, Vol. 49, pp 4122-4130 (2011).
Loos, R., R. Carvalho, D. C. Anto´nio, S. Comero, G. Locoro, S. Tavazzi, B. Paracchini, M. Ghiani, T. Lettieri, L. Blaha, B. Jarosova, S. Voorspoels, K. Servaes, P. Haglund, J. Fick, R. H. Lindberg, D. Schwesig, and B. M. Gawlik, “EU-wide Monitoring Survey on Emerging Polar Organic Contaminants in Wastewater Treatment Plant Effluents,” Water Research, Vol. 47, pp. 6475-6487 (2013).
Luo, X., F. F. Zhang, S. Ji, B. Yang, and X. Liang, “Graphene Nanoplateletsas a Highly Efficient Solid-Phase Extraction Sorbent for Determinationof Phthalate Esters in Aqueous Solution,” Talanta, Vol. 120, pp. 71-75 (2014).
Madaleno, L., J. Schjodt-Thomsen, and J. C. Pinto, “Morphology, Thermal and Mechanical Properties of PVC/MMT Nanocomposites Prepared by Solution Blending and Solution Blending+Melt Compounding,” Composites Science and Technology, Vol. 70, pp. 804-814 (2010).
Mahmoud, K. A., B. Mansoor, A. Mansour, and M. Khraisheh, “Functional Graphene Nanosheets: The next Generation Membranes for Water Desalination,” Desalination, Vol. 356, pp. 208-225 (2015).
Mahmoud, A., J. Olivier, J. Vaxelaire, and A. F. A. Hoadley, “Electrical Field: A Historical Review of Its Application and Contributions in Wastewater Sludge Dewatering,” Water Research, Vol. 44, pp. 2381-2407 (2010).
Mahmoud, A., J. Rivera-Utrilla, R. Ocampo-Pérez, J. D. Méndez-Díaz, and M. Sánchez-Polo, “Environmental Impact of Phthalic Acid Esters and Their Removal from Water and Sediments by Different Technologies: A Review,” Journal of Environmental Management, Vol. 109, pp. 164-178 (2012).
Marta, B., C. Leordean, T. Istvan, I. Botiz, and S. Astilean, “Efficient Etching-free transfer of High Quality, Large-Area CVD Grown Graphene onto Polyvinyl Alcohol Films,” Applied Surface Science, Vol. 363, pp. 613-618 (2016).
Matamoros, V. and V. Salvadó, “Evaluation of a Coagulation/ Flocculation-Lamellar Clarifier and Filtration-UV-Chlorination Reactor forRemoving Emerging Contaminants at Full-Scale Wastewater Treatment Plants In Spain,” Journal of Environmental Management, Vol. 117, pp. 96-102 (2013).
Meffe, R. and I. de Bustamante, “Emerging Organic Contaminants in Surface Water and Groundwater: A First Overview of the Situation in Italy,” Science of the Total Environment, Vol. 481, pp. 280-295 (2014).
Meng, L. Y. and S. J. Park, “Effect of Exfoliation Temperature on Carbon Dioxide Capture of Graphene Nanoplates,” Journal of Colloid and Interface Science, Vol. 386, pp. 285-290 (2012).
Mittal, G., V. Dhand, K. Y. Rhee, S. J. Park, and W. R. Lee, “A Review on Carbon Nnanotubes and Graphene as Fillers in Reinforced Polymer Nanocomposites,” Journal of Industrial and Engineering Chemistry, Vol. 21, pp. 11-25 (2015).
Mollah, M. Y. A., R. Schennach, J. R. Parga, and D. L. Cocke, “Electrocoagulation (EC) Science and Applications,” Journal of Hazardous Materials, Vol. 84, pp. 29-41 (2001).
Mondal, S., “Polymer Nano-Composite Membranes,” Journal of Membrane Science and Technology, Vol. 5, pp.134-136 (2015).
Mollah, M. Y. A., P. Morkovsky, J. A. G. Gomes, M. Kesmez, J. Parga, and D. L. Cocke, “Fundamentals, Present and Future Perspectives of Electrocoagulation,” Journal of Hazardous Materials, Vol. B114, pp. 199-210 (2004).
Mulder, M., “Basic Principles of Membrane Technology, Second Edition, Kluwer Academic Publishers,” Dordrecht, The Netherlands (1997).
Musico, Y. L., C. M. Santos, M. L. Dalida, and D. F. Rodrigues, “Surface Modification of Membrane Filters Using Graphene and Graphene Oxide-Based Nanomaterials for Bacterial Inactivation and Removal,” ACS Sustainable Chemical Engineering, Vol. 2, pp. 1559-1565 (2014).
Narbaitz, R. M., D. Rana, H. T. Dang, J. Morrissette, T. Matsuura, S. Y. Jasim, S. Tabe, and P. Yang, “Pharmaceutical and Personal Care Poducts Removal from Drinking water by Modified Cellulose Acetate Membrane: Field Testing,” Chemical Engineering Journal, Vol. 225, pp. 848-856 (2013).
Nair, R. R., H. A. Wu, P. N. Jayaram, I. V. Grigorieva, and A. K. Geim, “Unimpeded Permeation of Water Through Helium-leak-tight Ggraphene-based Membranes,” Science, Vol. 335, pp. 442-444 (2012).
Novoselov, K. S., A. K. Geim, S. V. Morozov, D. Jiang, Y. Zhang, S. V. Dubonos, and I. V. Grigorieva, “Electric Field Effect in Atomically Thin Carbon Films,” Science, Vol. 306, pp. 666-669 (2004).
Oh, S. Y., S. H. Kim, Y. S. Chi, and T. J. Kang, “Fabrication of Oxide-free Graphene Suspension and Transparent Thin Films Using Amide Solvent and Thermal Treatment,” Applied Surface Science, Vol. 258, pp. 8837-8844 (2012).
Ouaissa, Y. A., M. Chabani, A. Amrane, and A. Bensmaili, “Removal of Tetracycline by Electrocoagulation: Kinetic and Isotherm Modeling Through Adsorption,” Journal of Environmental Chemical Engineering, Vol. 2, pp. 177-184 (2014).
Park, S. and R. S. Ruoff, “Chemical Methods for the Production of Graphenes,” Nature Nanotechnology, Vol. 4, pp. 217-224 (2009).
Prieto-Rodriguez, L., S. Miralles-Cuevas, I. Oller, A. Agüera, G. L. Puma,
and S. Malatoa, “Treatment of Emerging Contaminants in Wastewater
Treatment Plants (WWTP) Effluents by Solar Photocatalysis Using
Low TiO2 Concentrations,” Journal of Hazardous Materials, Vol. 211-212, pp. 131-137 (2012).
Rahman, M. F., E. K. Yanful, and S. Y. Jasim, “Occurrence of Endocrine Disrupting Compounds and Pharmaceuticals in the Aquatic Environment and their Removal from Drinking Water: Challenges in the Context of the Developing World,” Desalination, Vol. 248, pp. 578-585 (2009).
Reina, A., X. Jia, J. Ho, D. Nezich, H. Son, V. Bulovic, M. S. Dresselhaus, and J. Kong, “Few-Layer Graphene Films on Arbitrary Substrates by Chemical Vapor Deposition,” Nano Letter, Vol. 9, pp. 30-35 (2009).
Ribeiro, A. R. and T. C.Schmidt, “Determination Of Acid Dissociation Constants (Pka) Of Cephalosporin Antibiotics: Computational And Experimental Approaches,” Chemosphere, Vol. 169, pp. 524-533 (2017).
Rosal, R., A. Rodrıgueza, J. A. Perdigo-Melon, A. Petre, E. Garcıa-Calvo,
M. J. Gomez, A. Aguera, and A. R. Fernandez-Albab, “Occurrence of
Emerging Pollutants in Urban Wastewater and Their Removal Through Biological Treatment Followed by Ozonation,” Water Research, Vol. 44, pp. 578-588 (2010).
Royal Society of Chemistry, ChemSpider Search and Share Chemistry, http://www.chemspider.com/ (2014).
Rostamian, R. and H. Behnejad, “A Comparative Adsorption Study of Sulfamethoxazole onto Graphene and Graphene Oxide Nanosheets Through Equilibrium, Kinetic and Thermodynamic Modeling,” Process Safety and Environmental Protection, Vol. 102, pp. 20-29 (2016).
Sauvé, S. and M. Desrosiers, “A Review of What Is an Emerging Contaminant,” Chemisitry Centeral Journal, Vol. 8 (15), (2014).
Shraim, A., A. Diab, A. Alsuhaimi, E. Niazy, M. Metwally, M. Amad, S. Sioud, and A. Dawoud, “Analysis of Some Pharmaceuticals in Municipal Wastewater of Almadinah Almunawarah,” Arabian Journal of Chemistry, Available online 29 November (2012).
Shanmuganathan, S., S. Vigneswaran, T. V. Nguyen, P. Loganathan, and J. Kandasamy, “Use of Nanofiltration and Reverse Osmosis in Reclaiming Micro-filtered Biologically Treated Sewage Effluent for Irrigation”, Desalination, Vol. 364, pp. 119-125 (2015).
Sim, W. J., J. W. Lee, and J. E. Oh, “Occurrence and Fate of Pharmaceuticals in Wastewater Treatment Plants and Rivers in Korea,” Environmental Pollution, Vol. 158, pp. 1938-1947 (2010).
Steinle-Darling, E., E. Litwiller, and M. Reinhard, “Effects of Sorption on the Rejection of Trace Organic Contaminants during Nanofiltration,” Environmental Science and Technology, Vol. 44, pp. 2592-2598 (2010).
Stankovich, S., D. A. Dikin, R. D. Piner, K. A. Kohlhaas, A. Kleinhammes,
Y. Jia, Y. Wu, S. T. Nguyen, and R. S. Ruoff, “Synthesis of Graphene-Based Nanosheets via Chemical Reduction of Exfoliated Graphite Oxide,” Carbon, Vol. 45, pp. 1558-1565 (2007).
Su, C. Y., A. Y. Lu, Y. Xu, F. R. Chen, A. N. Khlobystov, and L. J. Li, “High-Quality Thin Graphene Films from Fast Electrochemical Exfoliation,” ACS Nano, Vol. 5, pp. 2332-2339 (2011).
Taken, “Animal Carcinogenesis Bioassays and the IARC Monographs Programme: Recent Developments - Yann Grosse on Behalf of the IARC Monographs Programme,” IARC (2014).
Tran, B. C., M. J. Teil, M. Blanchard, F. Alliot, and M. Chevreuil, “BPA and Phthalate Fate in a Sewage Network and an Elementary River of France. Influence of Hydroclimatic Conditions,” Chemosphere, Vol. 119, pp. 43-51 (2015).
US Environmental Protection Agency. Integrated Risk Information System of Di(2-ethylhexyl)phthalate (DEHP), CASRN 117-81-7, http://www.epa.gov/iris/subst/0014.htm (1993).
USGS, “Environmental Health - Toxic Substances Hydrology Program”, (2016).
USGS, “Environmental Health - Toxic Substances”, (2016).
Vajda, A. M., L. B. Barber, J. L. Gray, E. M. Lopez, A. M. Bolden, H. L.
Schoenfussc, and D. O. Norris, “Demasculinization of Male Fish by Wastewater Treatment Plant Effluent,” Aquatic Toxicology, Vol. 103,
pp. 213-221 (2011).
Verlicchi, P., A. Galletti, M. Petrovic, and D. Barceló, “Hospital Effluents as a Source of Emerging Pollutants: An Overview of Micropollutants and Sustainable Treatment Options,” Journal of Hydrology, Vol. 389, pp. 416-428 (2010).
Wan, C., Y. Zhang, and Y. Zhang, “Effect of Alkyl Quaternary Ammonium on Processing Discoloration of Melt-intercalated PVC-montmorillonite Composites,” Polymer Testing, Vol. 23, pp. 299-306 (2004).
Wang, Y., C. Miao; B. C. Huang, J. Zhu, W. Liu, Y. Park, Y. H. Xie, and J. C. S. Woo, “Scalable Synthesis of Graphene on Patterned Ni and Transfer,” IEEE Transactions on Electron Devices, Vol. 57, pp. 3472-3476 (2010).
Wang, W., L. Chen, Z. Wang, Y. Wang, T. Li, and Y. Wang, “Weak Localization in Few-Layer Graphene Grown on Copper Foils by
Chemical Vapor Deposition,” Carbon, Vol. 50, pp. 5242-5246 (2012a).
Wang, Z. G., Y. F. Chen, P. J. Li, X. Hao, Y. Fu, K. Chen, L. X. Huang, and D. Liu, “Effects of Methane Flux on Structural and Transport Properties of CVD-Grown Graphene Films,” Vacuum, Vol. 86, pp. 859-898 (2012b).
Weigert, T., J. Altmann, and S. Reppeerger, “Crossflow Electrofiltration in Pilot Scale,” Journal of Membrane Science, Vol. 159, pp. 253-262 (1999).
Wei, X., Y. Shi, Y. Fei, J. Chen, B. Lv, Y. Chen, H. Zheng, J. Shen, and L. Zhu, “Removal of Trace Phthalate Esters from Water by Thin-film Composite Nanofiltration Hollow Fiber Membranes”, Chemical Engineering Journal, Vol. 292, pp. 382-388 (2016).
Xu, P., J. E. Drewes, T. U. Kim, C. Bellona, and G. Amy, “Effect of Membrane Fouling on Transport of Organic Contaminants in NF/RO Membrane Applications,” Journal of Membrane Science, Vol. 279, pp. 165-175 (2006).
Yang, G. C. C. and C. J. Li, “Preparation of Tubular TiO2/Al2O3 Composite Mmembranes and Their Performance in Electrofiltration of Oxide-CMP Wastewater,” Desalination, Vol. 200, pp. 74-76 (2006).
Yang, G. C. C. and C. J. Li, “Electrofiltration of Silica Nanoparticle Containing Wastewater Using Tubular Ceramic Membranes,” Separation and Purification Technology, Vol. 58, pp. 159-165 (2007).
Yang, G. C. C. and C. H. Yen, “Treatment of Acetaminophen and Erythromycin in Sewage by the Simultaneous Electrocoagulation/Electrofiltration Process Using Ttubular Carbonaceous/Ceramic Composite Membranes,” Proceedings of the 4th IWA-ASPIRE Conference and Exhibition, Oct 2-6, Tokyo, Japan (2011).
Yang, G. C. C. and C. H. Yen, “The Use of Different Materials to form the Intermediate Layers of Tubular Carbon Nanofibers/Carbon/Alumina Composite Membranes for Removing Pharmaceuticals from Aqueous Solutions,” Journal of Membrane Science, Vol. 425-426, pp. 121-130 (2013).
Yang, G. C. C., C. H. Yen, and C. L. Wang, “Monitoring and Removal of Residual Phthalate Esters and Pharmaceuticals in the Drinking Water of Kaohsiung City, Taiwan,” Journal of Hazardous Materials, Vol. 277, pp. 53-61 (2014a).
Yang, G. C. C., S. H. Liou, and C. L. Wang, “The Influences of Storage and Further Purification on Residual Concentrations of Pharmaceuticals and Phthalate Esters in Drinking Water,” Water, Air, and Soil Pollution, DOI 10.1007/s11270-014-1968-z (2014b).
Yoon, Y., P. Westerhoff, S. A. Snyder, and E. C. Wert, “Nanofiltration and Ultrafiltration of Endocrine Disrupting Compounds, Pharmaceuticals and Personal Care Products,” Journal of Membrane Science, Vol. 270, pp. 88-100 (2006).
Yu, J. G., X. H. Zhao, H. Yang, X. H. Chen, Q. Yang, L.Y. Yu, J. H. Jiang, and X. Q. Chen, “Aqueous Adsorption and Removal of Organic Contaminants by Carbon Nanotubes,” Science of the Total Environment, Vol. 482-483, pp. 241-251 (2014).
Yu, F., Y. Li, S. Han, and J. Ma, “Adsorptive Removal of Antibiotics from Aqueous Solution Using Carbon Materials,” Chemosphere, Vol. 153, pp. 365-385 (2016).
Yu, F., S. Sun, S. Han, J. Zheng, and J. Ma, “Adsorption Removal of Ciprofloxacin by Multi-walled Carbon Nanotubes with Different Oxygen Contents from Aqueous Solutions,” Chemical Engineering Journal, Vol. 285, pp. 588-595 (2016).
Yüksel, S., N. Kabay, and M.Yüksel, “Removal of Bisphenol A (BPA) from Water by Various Nanofiltration (NF) and Rreverse Osmosis (RO) Membranes,” Journal of Hazardous Materials, Vol. 263, pp. 307-310 (2013).
Zhao, G., X. Ren, X. Gao, X. Tan, J. X. Li, C. L. Chen, Y. Y. Huang and X. K. Wang, “Removal of Pb (II) ions from Aqueous Solutions on Few-layered Graphene Oxide Nanosheets,” Dalton Transactions, Vol. 40, pp. 10 945-10952 (2011).
Zhang, L., D. Liang, L. Ren, S. Shi, L. Zhou, T. Zhang, and Y. Huang, “Concentration and Source Identification of Polycyclic Aromatic Hydrocarbons and Phthalic Acid Esters in the Surface Water of the Yangtze River Delta, China,” Journal of Environmental Sciences, Vol. 24, pp. 335-342 (2012).
Zhang, K., K. C. Kemp, V. Chandra, “Homogeneous Anchoring of TiO2 Nanoparticles on Graphene Sheets for Waste Water Treatment,” Materials Letters, Vol. 81, pp. 127-130 (2012).
Zhang, C., B. Y. Man, S. Z. Jiang, C. Yang, M. Liu, C. S. Chen, S. C. Xu, D. J. Feng, D. Bi, F. Y. Liu, H. W. Qiu, “Facile Synthesis Of Graphene On Single Mode Fiber Via Chemical Vapordeposition,” Applied Surface Science, Vol. 307, pp. 327-332 (2014).
Zhu, L., “Rejection of Organic Micropollutants by Clean and Fouled Nanofiltration Membranes,” Journal of Chemistry, Vol. 2015 (2015).