نتائج البحث - "Relative humidity"

العلاقة: Altekruse, S. F., M. L. Cohen, and D. L. Swerdlow,” Emerging foodborne disease.” Emerg. Infect. Dis. 3, 285-293（1997） American Conference of Governmental Industrial Hygienists (ACGIH) “Threshold Limit Values and Biological Exposure Indices.”, Cincinnati, Ohio: ACGIH. Aoife P. Boyd, Guy R. Cornelis “Yersinia” Principles of Bacterial Pathogenesis, 227-264, Academic Press (2001) Bellante De Martiis, G., A. D’Arca Simonetti, G. Tarsitani, Vanini G.C., L’aria “indoor: la tutela della salute negli ambient confinati”. Igiene Monderna; 97; 705-706（1994） Burge, H.A., J.A. Otten, “Fungi” In: Macher, J.M., H.A. Ammann, H.A. Burge and D. Milton.(eds) Bioaerosol: assessment and control, Cincinnati, ACGIH, 19.1-13（1995）. CDC “Salmonellosis: Frequently asked questions.” Centers for Disease Control and Prevention, http://www.cdc.gov/ncidod/diseases/submenus/sub_salmonella.htmTest（1998） Scherer, Christina A. and Samuel I. Miller “Molecular pathogenesis of Salmonellae”, Principles of Bacterial Pathogenesis, 265-333, Academic Press,（2001） Cover, T. L., and R. C. Aber, Yersinia enterocolitica: New Engl. J. Med. 321, 16-24（1989） Cox, C. S. “The Aerobiological Pathway of Microorganisms”, John Wiley & Sons, Chichester, xi（1987） D.R Harper, Molecular Virology, second edition, BIOS Scientific Publishers Limited（1998） Donham, J., P. Haglind, Y. Peterson, R. Rylander, L. Belin “Environmental and health studies of farm worers in Swedish swine confinement buildings,” British J. Ind. Med., 46, 31-37 (1989) Douwes, J., P. Thorne, N. Pearce, D. Heederic “Bioaerosol health effect and exposure assessment: Progress and prospects”, Ann. occup. Hyg., Vol. 47, No. 3, pp. 187–200（2003） Eduard, W., P. Sandven, F. Levy “Serum IgG antibodies to mold spores in two Norwegian sawmill populations: relationship to respiratory and other wor-related symptoms,” Am.J. Ind., 24, 207-222 (1993) ETV, “Test report of filtration efficiency of bioaerosols in HVAC systems- AAF International PerfectPleat Ultra”, GS10F0283K-BPA-1, EPA Task Order 1101, RTI Project No. 08787.001（2004） Fan, L., J. Song, P.D. Hildebrand, C.F. Forney “Interaction of ozone and negative air ions to control micro-organisms”, Journal of Applied Microbiology, 93 (1), 144–148. (2002) Fisk, J. W., A. H. Rosenfeld “Estimates of improved productivity and health from better indoor environments”, Indoor Air, 7, pp 158-172 (1997). Flannigan, B. “Air sampling for fungi in indoor environments,” Journal of Aerosol Science, 28, 381-392 (1997). Fox, A. M., M. T. Dulay ”Heterogeneous Photocatalysis”, Chem. Rev., 93, pp.341-357（1993） Fujishima, A., K. Honda “Electrochemical ph otolysis of water at a semiconducter electrode”, Nature, 238, pp.37-38（1972） Caneva, G., P. Mandrioli and C. Sabbioni, Cultural Heritage and Aerobiology, 3-29. Kluwer Academic Publishers. Printed in the Netherlands. (2003) Gregory, P.H., The microbiology of the atmosphere, 2nd ed. Leonard Hall, (1973) Gustavsson, J., “How can Air Filters Contribute to Better IAQ?” Filtration and Separation, V 36, n2, pp. 20-25 (1999) Hey Reoun An “Development and calibration of real-time PCR for quantification of airborne microorganisms in air samples”, Atmospheric Environment, doi:10.1016/j.atmosenv.2006.07.020 (2006) Heyder, J., J. Gebhart, G. Rudolf, C.F. Schiller, W. Stahlhofen “Deposition of particles in the human respiratory tract in the size range 0.005-15 μm,” Journal of Aerosol Science, 5, 811-828 (1986) Hirst, J. M. “ Statutes of the British Aerobiology Federation, Aerobiology at Rothamsted Grana”, 33, 66（1994） Horrak, U., J. Salm, H. Tammet “Bursts of intermediate ion in atmospheric air.”, Geophys. Res., 103（D12）, 13909-13915 (1998) http://www.cabri.org/CABRI/srs-doc/index.htmlTest http://www.nanosight.co.uk/applicationnotes/LambdaPhage.phpTest Ireland, J. C., P. Klostermann, E. W. Rice, R. M. Clark, “Inactivation of Escherichia coli by titanium dioxide photocatalytic oxidation, Appl. Environ. Microbial. 59,（5）pp.1668-1670（1993） Angulo-Romero, J. “Pathogenic and antigenic fungi in school dust of the south of Spain.”, Aerobiology, 49-65, Lewis Publishers（1996） Kellogg , E. W. III, M. G. Yost, N. Barthakur, A. P. Kreuger “Superoxide involvement in the bactericidal effects of negative air ions on Staphylococcus albus” , Nature, 281, 400 - 401 (1979) Kowasaki, W. J., Y. T. Choi, D. J. Seo, S. B. Park “Bactericidal effects of high airborne ozone concentrations on Escherichia coli and Staphylococcus aureus”, Ozone-Sci Eng., 20, 205-221 (1998) Krueger , A.P. “Biological impact of small ions”, Science, 193, 1209-1213 (1976) Kuo, Y. M., C. S. Li “Seasonal fungus prevalence inside and outside of domestic environment in the subtropical climate,” Atmospheric Environment, 28, No.19, 3125-3130 (1994) Lacey, J. “The aerobiology of conidial fungi”. In Biology of Conidial Fungi, G.T. Cole, B. Kendrick, eds; New York: Academic Press, 373-416 (1981) Lee, S., M. Naamura, S. Ohgai “Inactivation of phase Q beta by 254 nm UV light and titanium dioxide photocatalyst,” J Environ Sci Heal A, 33, 1643-1655 (1998) Li, C. S., P. S. Chen “Environmental bioaerosol monitering: Real-time quantitative PCR with gene probe, fluorochrome, and flow cytometry”, Institute of Environmental Health, College of Public Health, National Taiwan University.（2005） Li, C. S. and Y. C. Wang ” Inactivation Effects of Airborne Ozone for Bioaerosols”, J. Environ. Heal., submitted. (2005) Li, C. S. and Y. M. Wen “Control effectiveness of electrostatic precipitation on airborne microorganisms”, Aerosol Science and Technology, 37:933–938 (2003) Li, L. M., D. C. Sheu “Influences of Preparation Conditions on Bactericidal Efficacy of TiO2 Containing Coating” (2004) Liao, C. M., W. C. Luo, “Use of temporal/seasonal- and size-dependent bioaerosol data to characterize the contribution of outdoor fungi to residential exposures,” Science of the Total Environment, 347, 78-97 (2005) Licht, W. , Air pollution control engineering, 2nd edition, Marcel Dekker, Inc., New York and Basel （1988） Lin, C.H., C.S. Li, “Effectiveness of titanium dioxide photocatalyst filter for controlling bioaerosol,” Aerosol Sci. Technol, 37, 162-170 (2003) Luts, A. “Evolution of negative small ions at enhanced ionization.”, J. Geophys. Res., 100(D1), 1487–1496 (1995) Macher, J., Bioaerosols: assessment and control, American Conference of Governmental Industrial Hygienists, Cincinnati, Ohio: ACGIH. (1999) Maness, P. C., S. Smolinski, D. M. Blake, Z. Huang, E. J. Wolfrum, W. A. Jacoby “Bactericidal activity of photocatalytic TiO2 reaction: Toward an understanding of its killing mechanism” Appl. Environ. Microbial., 65,（9）,pp.4094-4098（1999） Matsunaga, T., R. Tomoda, T. Nakajima, N. Nakamura, T. Komine “Continuous-Sterilization system that uses photosemiconductor powders”, Appl. Environ. Microbial. 54 pp. 1330-1333（1988） Matsunaga, T., R. Tomoda, T. Nakajima, H. Wake “Photo-Electrochemical sterilization of microbial cells by semiconductor powders”, FEMS Microbial. Lett.29:pp.211（1985） Melbosted, E., W. Eduard, A. Sogstad, P. Sandven, J. Lassen, P. Sostrand, K. Heldal, “Exposure to bacterial aerosol and work-related symptoms in sewage workers,” Am. J. Ind. Med., 25, 59-63 (1994) Michael B. A. Oldstone, Viruses, Plagues, and History, 125-186, New York Oxford University Press, Inc.（1998） Muilenberg, M. and H. Burge, Aerobiology, Lewis Publishers, Introduction（1996） Mitchell, B.W., J.K. King, “Effect of Negative Air Ionization on Airborne Transmission of Newcastle Disease Virus” Avian Diseases 38 pp.725-732 (1994) Morey, P. R., M. J. Hodgson, W. G. Sorenson, G. J. Kullman, W.W. Rhodes, G. S. Visvesvara “Environmental studies in moldy office buildings”, Div. of Respiratory Disease Studies, NIOSH, 399-419（1986） Nicholson, K.W., “The dry deposition of small particles: a review of experimental measurements” Atoms Environ, 22, 2653-2666 (1988) Micali,O., R. Montacutelli and Tarsitani ” Pathogenic microorganisms and situations of risk to man”, Cultural Heritage and Aerobiology, 31-43. Kluwer Academic Publishers. Printed in the Netherlands. (2003) Pasanen, A.L., “A Review: fungal exposure assessment in indoor environments,” Indoor Air., 11, 87-98 (2001) Perry, R. D. and J. D. Fetherston “Yersinia pestis: Etilogic agent of plaque.” Clin. Microbial. Rev. 10, 35-66（1997） Rajeshwar, K. “Photoelectrochemistry and the environment. Revs. of Appl. Electrochem. 44.pp.1067-1082（1995） Rambelli. A. “Fondamenti di micolgia. Bologna: Zanichelli”.（1981） Rengasamy, A., “Respiratory protection against bioaerosols: Literature review and research needs,” American Journal of Infection Control, 345-354 (2004). Reponen, T., A. Hyvarinen, J. Ruusanen, T. Raunemaa, A. Nevalainen, “Comparison of concentration and size distributions of fungal spores in buildings with and without mould problems,” 25, No. 8, 1595-1603 (1994). Richardson, G., S. A. Eick, D. J. Harwood, K. G. Rosen, F. Dobbs “Negative air ionization and the production of hydrogen peroxide.”, Atomospheric Environment, 37, 3701-3706( 2003) Saito, T., T. Iwase, J. Horie, T. Morioka ”Antibacterial effect of powdered TiO2 with Photocatalytic reaction on Streptococcus Mutan Strain AHT”, J. Dent. Health. 36, pp.490-491（1992） Sanden G., B. S. Fields, J.M. Barbaree, J.C. Feeley “Viability of Legionella pneumophila in chlorine-free waters at elevated temperatures”, Curr. Microbiol, No. 18, pp. 61-65.(1989) Shi, L., B. Chen, Y. Wang “Electret air filter used for getting rid of bacteria”,（ISE6）Proceedings, 6th International Symposium on Electrets, 549-522 (1988) Sigsgaard, T., P. Malmros, L. Nersting, C. Peterson “Respiratory disorders and atopy in Danish resource recovery worers,” Can. J. Microbiol, 1-24 (1992) Simeray, J., J. P. Chaumont, D. Leger “Seasonal variations in the airborne fungal spore population of the east of France（Franche-Comte）. Comparison between urban and rural environment during two years.”, Aerobiologia; 9; 201-206 (1993) Skalny J. D., T. Mikoviny, S. Matejcik, N. J. Mason “An analysis of mass spectrometric study of negative ions extracted from negative corona discharge in air.”, International Journal of Mass Spectrometry, 233, 317-324, (2004) Spurr, R.A., H. Myers “Quantitative analysis of anatase-rutile mixtures with an X-Ray diffractometer”, Anal. Chem. 29 pp 760-762 (1957). Stanley, R. G., H. F. Linskins, Pollen: biology, chemistry and management. Berlin: Springer-Verlag, (1974) Sunada, K., Y. Kikuchi, K. Hashimoto, A. Fujishima “Bactericidal and detoxification effects of TiO2 thin film photocatalysts”, Environmental Science & Technology 32. pp. 726-728（1998） Tauxe, R. V., J. Vandepitte, G. Wauters, S. M. Martin, V. Goossens, P. De Mol, R. Ven Noyen, G. Thiers ” Yersinia enterocolitica infections and pork: The missing link.” Lancet ii, 1129-1132（1987） Taylor, E.J., Dorlands medical dictionary, Philidelphia: W.B. Saunders Co(1988) Thompson, WAR, editor. Black medical dictionary, 33ed. Adam and Charles Black, (1981) Tipple, M. A., L. A. Bland, J. J. Murphy, M. J. Arduino, A. L. Panlilio, J. J. Farmer III, M. A. Tourault, C. R. Macpherson, J. E. Menitove, A. J. Grindon “Sepsis associated with transfusion of red cells contaminated with Yersinia enterocolitica.”, Transfusion 30, 207-213（1990） Tseng, C. C. and C. S. Li “Ozone for inactivation of aerosolized bacteriophages”, Aerosol Science and Technology, 40:683–689 (2006) Tseng, C. C., C. S. Li “Collection efficiencies of aerosol samplers for virus-containing aerosols”, Aerosol Science, 36, 593–607 (2005) Watts, R. J., S. Kong, M. P. Orr, G. C. Miller, B. E. Henry “Photo Catalytic Inactivation of coliform bacteria and viruses in secondary wastewater effluent”, Water Research, 29, pp. 95-100（1995） WHO “Typhoid fever”, World Health Organization, http://www.who.chTest/ （1998） WHO, Fact sheet no.139:” Multi-drug resistant Salmonella typhimurium. “ World Health Organization, http://www.who.chTest/ （1997） Willeke, K., Y. Qian, J. Donnelly, S. Grinsphpun, V. Ulevicius “Penetration of airborne microorganisms through a surgical mask and a dust/mist respirator,” Am Indust Hyg Assoc J, 57, 348-355 (1996) Wu, P.C., H. J. Su, C.Y. Lin, “Characteristics of indoor and outdoor airborne fungi at suburban and urban homes in two seasons” The Science of the Total Environment, 253, 111-118 (2000) 王玉純，臭氧對生物氣膠殺菌效率之評估，國立台灣大學環境衛生研究所博士論文（2002）生物資源保存及研究中心，http://www.bcrc.firdi.org.twTest/ 余國賓，以紫外光/臭氧程序增進光觸媒對室內揮發性有機物去除效率之研究，國立台灣大學環境工程研究所博士論文(2006) 吳致呈，空氣負離子控制室內空氣污染物之研究。國立台灣大學環境工程研究所博士論文（2006）吳華真，退伍軍人症，仁愛醫訊，第19卷，第一期（2003）林玟仙，Dopa之生物活性探討。嘉南藥理科技大學碩士論文（2005）林家妤，以紫外線及二氧化鈦光觸媒對生物氣膠控制技術之評估，國立台灣大學環境衛生研究所博士論文(2002) 林鴻鵬，紡織工業抗菌劑之比較，絲織公會-台灣區絲織產業網，第37期(2001) 室內空氣質量標準，中國大陸國家環保總局衛生部，2002 年12月，http://www.zhb.gov.cnTest 孫浩仁，室內材質表面特性對空氣負離子去除懸浮微粒效率之影響，國立台灣大學環境工程研究所碩士論文（2006）國家衛生研究院，流感資訊網，http://flu.nhri.org.tw/H5N1_index.phpTest 婁嘉玲，紫外光與光觸媒濾材對生物氣膠殺菌效率之研究，國立台灣大學環境工程研究所碩士論文(2005) 曾國瑋，奈米銀濾材處理生物氣膠之研究，國立台灣大學環境工程研究所碩士論文(2006) 黃小林，莊佩君，黃宜靖，揚心豪，幾丁聚醣前處理濾材對細菌類生物氣膠去除效能之評估， 2006年國際氣膠研討會論文集鄭博仁，空氣負離子對室內懸浮微粒去除效率之研究，國立台灣大學環境工程研究所碩士論文(2004) 辦公室及公眾場所室內空氣質素檢定計劃指南，香港政府之室內空氣質素管理小組，2003 年9 月，http://www.iaq.gov.hkTest 環保署室內空氣品質建議值，中華民國行政院環保署，2006 年1月，http://www.epa.gov.twTest。; zh-TW; http://ntur.lib.ntu.edu.tw/handle/246246/62780Test; http://ntur.lib.ntu.edu.tw/bitstream/246246/62780/1/ntu-96-R94541122-1.pdfTest

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رسالة جامعية

奈米碳管產生空氣負離子微型裝置控制懸浮微粒之研究 ; Removal of suspended particulates by microscale air ionizer of carbon nanotubes

المؤلفون: 管俊亭, Kuan, Chun-ting

المساهمون: 李慧梅, 臺灣大學：環境工程學研究所

مصطلحات موضوعية: 懸浮微粒, 空氣負離子(NAI), 奈米碳管, 相對濕度, ECR, suspended particulate, negative air ion (NAI), carbon nanotube, relative humidity

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العلاقة: Alonso, M. and F.J. Alguacil, “ Filtration of Unipolarly Charged Aerosol Nanoparticles with an Initially Discharged Dialectric Screen,” Journal of colloid and interface science, 216, 71-76 ( 1999 ) Berber, S., Y.K. Kwon, and D. Tomanek, “ Unusually High Thermal Conductivity of Carbon Nanotubes,” Physical review letters, 84, 4613 ( 2000 ) Bethune, D.S., C.H. Klang, M.S. de Vries, G. Gorman, R. Savoy, J.Vazquez, and R. Beyers, “ Cobalt-catalysed Growth of Carbon Nanotubes with Single-atomic-layer Walls,” Nature, 363, 605 ( 1993 ) Bonard, J.M., “ Carbon Nanostructures by Hot Filament Chemical Vapor Deposition:Growth,Properties, Applications,” Thin Solid Films, 501,8-14 ( 2006 ) Chen, C.C. and S.H. Huang, “ The Effects of Particle Charge on the Performance of a Filtering Facepiece,” American Industrial Hygiene Association Journal, 59, 227 ( 1998 ) Choi, J.H., J.H. Park, J.S. Moon, J.W. Nam, J.B. Yoo, C.Y. Park, J.H. Park, C.G. Lee and D.H. Choe, “ Fabrication of Carbon Nanotube Emitter on the Flexible Substrate,”Diamond & Related materials, 15, 44-48( 2006 ) Collins, P.G. and P. Avouris, “ Nanotubes for Electronics,” Scientific American, 283, 6 ( 2000 ) Daniels, S.L., ” Applications of Air Ionization for Control of VOCs and PMx,” 94th Annual Conference of Air & Waste Management Association, paper 918 ( 2001 ) Dekker, C., ” Carbon Nanotubes as Molecular Quantum Wires,” Physics Today, 52, 22-28 ( 1999 ) Dillion, A.C., K.M. Jones, T.A. Bekkedahl, C.H. Klang, D.S. Bethune and M.J. Heben, ” Storage of Hydrogen in Single-walled Carbon Nanotubes,”Nature, 386, 377-379 ( 1997 ) Dillon, A.C., J.L. Parilla, J.L. Alleman, J.D. Perkins and Heben, M.J.,“ Controlling Single-wall Nanotube Diameter with Variation in Laser Pulse Power,” Chemical Physics Letters, 316, 13-18 ( 2000 ) Ebbesen, T.W. and P.M. Ajaran, “ Large-scale Synthesis of Carbon Nanotubes,” Nature, 358, 220 ( 1992 ) Fuchs, N.A., The Mechanics of Aerosols, Pergamon Press, New York ( 1964 ) Godish, T., Indoor Air Pollution Control, Lewis Publishers, INC ( 1989 ) Gooding, J.J., “ Nanostructuring Electrodes with Carbon Nanotubes: A review on electrochemistry and applications for sensing,” Electrochimica Acta, 50, 3049-3060 ( 2005 ) Hafner, J.H., C.L. Cheung and Lieber, C.M., “ Growth of Nanotubes for Probe Microscopy Tips,” Nature, 398, 761 ( 1999 ) Huang, Z.P., J.W. Xu, Z.F. Ren, J.H. Wang, M.P. Siegal, and Provencio, ”Growth of Highly Oriented Carbon Nanotubes by Plasma-enhanced Hot Filament Chemical Vapor Deposition,” Appl. Phys. Lett., 73, 3845 ( 1998 ) Hinds, W.C., Aerosol Technology: Properties, Behavior, and Measurement of Airbone Particles, 2nd Ed., John Wiley & Sons, INC. ( 1999 ) Hines, L. Anthony, Ghosh, K. Tushar, Loyalka, K. Sudarshan, Jr Warder,and C. Richard, Indoor Air Quality and Control, Prentice-Hall, INC.( 1993 ) Iijima, S., “ Helical Microtubes of Graphite Carbon ,“ Nature, 354, 56( 1991 ) Iijima, S., ” Single-shell Carbon Nanotubes of 1-nm Diameter ,” Nature, 363, 603 ( 1993 ) Jones, A.P., ” Indoor Air Quality and Health,” Atmosphere Environment,33,4535-4564 ( 1999 ) Koizumi, Y., M. Kawamura, F. Tochikubo and T. Watanabe,” Estimation of the Agglomeration Coefficient of Bipolar-charged Aerosol Particles,”Journal of Electrostatic, 48, 93-101 ( 2000 ) Kondrashova, M.N., E.V. Grigorenko, A.N. Tikhonov, T.V. Sirota, A.V.Temnov, I.G. Stravrovskaja, N.I. Kosyakova, N.V. Lange, and V.P.Tikhonov, “ The Primary Physico-chemical Mechanism for the Beneficial Biological/medical Effects of Negative Air Ions,” IEEE Transaction on Plasma Science, 28, 230-237 ( 2000 ) Kong, J., A.M. Cassell and H. Dai, “ Chemical Vapor Deposition of Methane for Single-walled Carbon Nanotubes,” Chemical Physics Letters, 292, 567-574 ( 1998 ) Kroto, H.W., J.R., Heath, S.C. O’Brien, R.F. Curl and R.E. Smally, ” C60:Buckminsterfullerene,” Nature, 318, 162 ( 1985 ) Kwo, J.L., M. Yokoyama, W.C. Wang, F.Y. Chaung and I.N. Lin, ”Characteristics of Flat Panel Display Using Carbon Nanotubes as Electron Emitters,” Diamond and Related Materials, 9, 1270 ( 2000 ) Lathrache, R. and H. Fissan, “ Enhancement of Particle Deposition in Filters Due to Electrostatic Effects,” Filtration & Separation, 24, 418 ( 1987 ) Lance, W., “ Indoor Particles: A Review,” Journal of the Air and Waste Management Association, 46, 98 ( 1996 ) Lau, K.T., M. Lu and D. Hui, “ Coiled Carbon Nanotubes: Synthesis and Potential Application in Advanced Composite Structures,” Composites:part B, 37, 437-448 ( 2006 ) Lee, B.U., M. Yermakov, and A.G. Sergey, “ Removal of Fine and Ultrafine Particles from Indoor Air Environments by the Unipolar Ion Emission,” Atmospheric Environment, 38, 4815-4823 ( 2004 ) Liu, C., Y.Y. Fan, M. Liu, H.T. Cong, H.M. Cheng, and M.S. Dresselhaus,“ Hydrogen Storage in Single-walled Carbon Nanotubes at Room Temperature,” Science, 286, 1127 ( 1999 ) Luts, A., “ Evolution of Negative Small Ions at Enhanced Ionization,”Journal of Geophysical Reserch, 100(D1), 1487-1496 ( 1995 ) Matsumoto, K., S. Kinosita, and Y. Gotoh, “ Ultralow Biased Field Emitterusin Using Single-wall Carbon Nanotube Directly Grown onto Silicon Tip by Thermal Chemical Vapor Deposition,” Applied Physics letters, 78, 539 ( 2001 ) Mayya, Y.S., B.K. Sapra, A. Khan, and F. Sunny, ” Aerosol Removal by Unipolar Ionization in Indoor Environments,” Journal of Aerosol Science, 35, 923-941 ( 2004 ) Mizuno, K., K. Hata, T. Saito, S. Ohshima, M. Yumura, and S. Iijima,“ Selective Matching of Catalyst Element and Carbon Sources in Single-Walled Carbon Nanotube Synthesis on Silicon Substrates,”J.Phys. Chem. B, 109, 2632 ( 2005 ) Offermann, F.J., R.G. Sextro, W.J. Fisk, D.T. Grimsrud, W.W. Nazaroff, A.V. Nero, K.L. Revzan, and J. Yater, “ Control of Respirable Particles in Indoor Air with Portable Air Cleaners,” Atmospheric Environment, 19, 1761-1771 ( 1985 ) Modi, A., N. Koratkar, E. Lass, B. Wei and P.M. Ajayan, “ Miniaturized Gas Ionization Sensors Using Carbon Nanotubes,” Nature, 424, 171 ( 2003 ) Pan, Z.W., S.S. Xie, B.H. Chang, L.F. Sun, W.Y. Zhou, and G. Wang,“ Direct Growth of Aligned Open Carbon Nanotubes by Chemical Vapor Deposition,” Chemical Physics Letters, 299, 97 ( 1999 ) Park, S.H., H.O. Kim, Y.T. Han, S.B. Kwon and K.W. Lee, ” Wall Loss Rate of Polydispersed Aerosols,” Aerosol science and technology, 35,710-717 ( 2001 ) Popov, V.N., “ Carbon Nanotubes: Properties and Application,” Report: A Review Journal, 43, 61 ( 2004 ) Rinzler, A.G., J.H. Hafner, P. Nikolaev, L. Lou, S.G. Kim, D. Tomanek, P. Nordlander, D.T. Colbert and R.E. Smalley, “ Unraveling Naotubes: Field Emission from an Atomic Wire,” Science, 269, 1550 ( 1995 ) Shun Cheng Lee,” Indoor Air Quality at Restaurants with Different Styles of Cooking in Metropolitan Hong Kong,” The Science of the Total Environment , 279, 181 ( 2001 ) Siegmann, K. and K. Sattler, “ Aerosol from Hot Cooking Oil, A possible Health Hazard,” J. Aerosol Science, 27, 493 ( 1996 ) Skalny, J.D., T. Mikoviny, S. Matejcik and N.J. Mason, “ An Analysis of Mass Spectrometric Study of Negative Ions Extracted from Negative Corona Discharge in Air,” International Journal of Mass Spectrometry, 233, 317-324 ( 2004 ) Smirnov, B.M., Cluster Ions and Van der Waals Molecules. Gordon and Breach, Philiadephia ( 1992 ) Song, J., M. Sun, Q. Chen, J. Wang, G. Zhang, and Z. Xue, “ Field Emission from Carbon Nanotube Arrays Fabricated by Pyrolysis of Iron Phthalocyanine,” J.Phys.D: Appl. Phy., 37, 5 ( 2004 ) Tzeng, Y., Y. Chen, N. Sathitsuksanoh, and C. Liu, “ Electrochemical Behaviors and Hydration Properties of Multi-wall Carbon Nanotube Coated Electrodes in Water,” Diamond and Related Materials, 13,1821-1826 ( 2004 ) Wallace, L.A., S.J. Emmerich, and C. Howard-Reed, “ Effect of Central Fans and In-duct Filters on Deposition Rates of Ultrafine and Fine Particles in an Occupied Townhouse,” Atmospheric Environment, 38, 405-413 ( 2004 ) Wang, Y., Z. Iqbal and S. Mitra, “ Rapid, Low Temperature Microwave Synthesis of Novel Carbon Nanotube-silcon Carbide Composite,”Carbon, 44, 2804-2808 ( 2006 ) Wu, C.C., W.M. Lee, P. Cheng, S. Yang, and K.P. Yu “ Effect of Wall Surface Materials on Deposition of Particles with the Aid of Negative Air Ions,” Journal of Aerosol Science, 37, 616-630 ( 2006 ) Wu, C.C., W.M. Lee, P. Cheng, S. Yang, K.P. Yu and C.L. Lou “ Influence of Air Humidity and the Distance from the Source on Negative Air Ion Concentration in Indoor Air,” Science of the Total Environment, 370,245-253 ( 2006 ) Yu, J., J. Lucas, V. Strezov and T. Wall, “ Coal and Carbon Nanotube Production,” FUEL, 82, 2025 ( 2003 ) Zhang, Y. and S. Iijima, “ Elastic Response of Nanotube Bundle to Visible Light,” Physical Review Letters, 82, 3472 ( 1999 ) 李建坤，”拜香及蚊香燃燒產生之多環芳香烴化合物”，碩士論文，台大公共衛生學研究所，1996 劉美娟，”電蚊香片釋放物之探討”，碩士論文，台大職業醫學與工業衛生研究所，1996 張西川，家庭醫學圖書館 - 呼吸系統，光復書局企業股份有限公司，1996 高玫鍾、龍世俊，”燒香對居家室內PM10 濃度影響之研究”，氣膠科技國際研討會論文集，280~286 頁，1999 楊心豪，”噴霧劑室內氣膠吸濕成長之研究”，碩士論文，台大環境工程學研究所，2000 王秋森、陳時欣，氣膠技術學，新文京開發出版有限公司，2002 李世銘，”聚醯亞胺-黏土奈米複合材料之製備與其介電特性之研究”，碩士論文，中原大學化學系，2004 成會明，奈米碳管 Carbon Nanotubes，五南圖書出版股份有限公司，2004 鄭博仁，”空氣負離子對室內懸浮微粒去除效率之研究”，碩士論文，台大環境工程研究所，2004 室內空氣品質建議值，行政院環保署，2005 孫浩仁，”室內材質表面特性對空氣負離子去除懸浮微粒效率之影響”，碩士論文，台大環境工程研究所，2006 吳致呈，”空氣負離子控制室內空氣污染物之研究”，博士論文，台大環境工程研究所，2006; zh-TW; http://ntur.lib.ntu.edu.tw/handle/246246/62631Test; http://ntur.lib.ntu.edu.tw/bitstream/246246/62631/1/ntu-96-R94541105-1.pdfTest

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