1 박정구, "폐금속광산 토양오염 실태 종합보고서(158개 광산 포함)" 환경부 2005
2 한요셉, "生活 廢棄物 燒却材 슬래그를 利用한 메조포러스 실리카 合成 : NaOH 濃度의 影響†" 한국자원리싸이클링학회 19 (19): 40-48, 2010
3 Park, J.H., "The preparation of Ag/mesoporous silica by direct siliver redution and Ag/functionalized mesoporous silica by in situ formation of adsorbed silver" 61 (61): 156-159, 2007
4 Yu, H., "Synthesis of mesoporous silica materials (MCM-41) from iron ore tailings" 44 (44): 2112-2115, 2009
5 안화승, "Synthesis of hexagonal and cubic mesoporous silica using power plant bottom ash" 111 (111): 455-462, 200804
6 Tarafdar, A., "Synthesis of aminofunctionalized mesoporous silica-zirconia mixed oxide using sodium silicate and zirconium carbonate complex" 91 (91): 221-224, 2006
7 Jo, C., "Syntheses of high quality KIT-6 and SBA-15 mesoporous silicas using low-cost water glass, through rapid quenching of silicate structure in acidic solution" ELSEVIER SCIENCE BV 124 (124): 45-51, 2009
8 Liu, J., "Pore size control of mesoporous silicas from mixtures of sodium silicate and TEOS" 106 (106): 62-67, 2007
9 Kresge, C.T., "Ordered mesoporous molecular sieves synthesized by a liquid-crystal template mechanism" 359 (359): 710-712, 1992
10 Zhao, D., "Nonionic triblock and star diblock copolymer and oilgomeric surfactant syntheses of highly ordered, hydrothermally stable, mesoporous silica structures" 120 (120): 6024-6036, 1998
1 박정구, "폐금속광산 토양오염 실태 종합보고서(158개 광산 포함)" 환경부 2005
2 한요셉, "生活 廢棄物 燒却材 슬래그를 利用한 메조포러스 실리카 合成 : NaOH 濃度의 影響†" 한국자원리싸이클링학회 19 (19): 40-48, 2010
3 Park, J.H., "The preparation of Ag/mesoporous silica by direct siliver redution and Ag/functionalized mesoporous silica by in situ formation of adsorbed silver" 61 (61): 156-159, 2007
4 Yu, H., "Synthesis of mesoporous silica materials (MCM-41) from iron ore tailings" 44 (44): 2112-2115, 2009
5 안화승, "Synthesis of hexagonal and cubic mesoporous silica using power plant bottom ash" 111 (111): 455-462, 200804
6 Tarafdar, A., "Synthesis of aminofunctionalized mesoporous silica-zirconia mixed oxide using sodium silicate and zirconium carbonate complex" 91 (91): 221-224, 2006
7 Jo, C., "Syntheses of high quality KIT-6 and SBA-15 mesoporous silicas using low-cost water glass, through rapid quenching of silicate structure in acidic solution" ELSEVIER SCIENCE BV 124 (124): 45-51, 2009
8 Liu, J., "Pore size control of mesoporous silicas from mixtures of sodium silicate and TEOS" 106 (106): 62-67, 2007
9 Kresge, C.T., "Ordered mesoporous molecular sieves synthesized by a liquid-crystal template mechanism" 359 (359): 710-712, 1992
10 Zhao, D., "Nonionic triblock and star diblock copolymer and oilgomeric surfactant syntheses of highly ordered, hydrothermally stable, mesoporous silica structures" 120 (120): 6024-6036, 1998
11 Halina, M., "Non-hydrothermal synthesis of mesoporous materials using sodium silicate from coal fly ash" 101 (101): 344-351, 2007
12 Wang. F., "Mesoporous silicabased electrochemical sensor for sensitive determination of environmental hormone bisphenol" 638 (638): 23-28, 2009
13 Kumar, P., "Mesoporous materials prepared using coal fly ash as the silicon and aluminium source" 11 : 3285-3290, 2001
14 Habib, S., "High catalytic cracking activity of Al-MCM-41 type materials prepared from ZSM-5 zeolite crystals and fumed silica" 344 (344): 61-69, 2008
15 Chao, M.C., "Controlling the crystal morphology of mesoporous silica SBA-1" 83 (83): 269-276, 2005
16 Shylesh, S., "Catalytic Meerwein-Ponndorf-Verley reductions over mesoporous silica supports: Rational design of hydrophobic mesoporous silica for enhanced stability of aluminum doped mesoporous catalysts" 301 (301): 118-126, 2009