中文圖書:
1. 白敬帆譯 (2007)。《居家空氣大淨化-50種能製造新鮮空氣的室內植物》。台北縣:蘋果屋出版社。
2. 李有田、張淑貞(2012)。《我愛綠屋頂》。台北市:城邦文化事業股份有限公司 麥浩斯出版。
3. 李哖(1976)。《花卉無土栽培》。豐年半月刊。26:18-25。4. 李叡明譯 (1995)。《最先端的綠化技術》。台北市:淑馨出版社。
5. 李麗雪譯(2011)。《景觀設計原理與應用》。台北市:六合出版社。
6. 洪崇彬(2004)。《木、竹炭在生活上的應用》。林業研究專訊11(3):18-21。7. 黃 艷(2007)。《室內綠化設計》。中國建築工業出版社。
8. 楊逸芬(1988)。《溫室設計原則》。台北市:地景企業股份有限公司。
9. 譚琦、姜洪濤譯(2004)。《屋頂.牆面綠化技術指南》。中國建築工業出版社。
英文圖書:
Karl Thatcher Ulrich, Karen, TungFundamentals of Product Modularity. Sloan School of Management, Massachusetts Institute of Technology, 1991
中文文獻:
1. 安乃駒(2007)。二階層供應鏈下最佳退貨價格與模組化設計之探討。成功大學工業與資訊管理學系碩博士班學位論文。2. 陳柏州(2004)。以人工濕地淨化水質。國立高雄第一科技大學環境與安全衛生工程系碩士班學位論文。3. 莊育川(1997)。以台灣常民文化背景探討室內綠化現象。中原大學室內設計系碩士班學位論文。4. 曹哲維(2011)。栽培光度及介質對室內植物吸收苯及甲苯之影響。國立台灣大學植物病理與微生物學研究所碩士班學位論文。5. 蔡皓程(1997)。垂直流人工溼地氮循環過程研究與操作機制探討。國立中山大學海洋環境及工程學系碩士班學位論文。中文期刊:
1. 黃世孟(2009)。〈建築物的垂直綠化與風土外牆設計〉。35(7):114-120。
3. 孫岩章(1993)。〈綠色植物淨化空氣的機能〉。《科學農業》41 (7, 8): 163-176。3. 廖振華(2007)。〈空氣負離子與空氣質量〉《化學教學》。11 期:56-58。
英文文獻:
1. Abbriti MC, Muzi G (1995). Indoor air quality and health effects in office buildings. Intl. Conf. Healthy Buildings in a Mild Climate. Italy 1: 185-195.
2. Gershenson, J.K. Prasad, G.J., Alamneni, S., Modular product design: a life-cycle view. Journal of Integrated Design and Process Science, 3 3-26, 1999.
3. Gershenson, J.K. Prasad, G.J., Zhang, Y., Product modularity: definitions and benefits. Journal of Engineering Design , 14(3). 295-313, 2003.
4. Kil, J.K., Kim, K. J., Pak, C. H., Kim, H. H. and Lim, Y. W. 2008. Effects of growing media and exposure frequency on the volatile formaldehyde removal in potted Epipremnum aureum. Korean journal of horticultural science and technology 26 (3):325.
5. Klepeis, N.E., W.C. Nelson, W.R. Ott, J.P. Robinson, A.M. Tsang, P. Switzer, J.V. Behar, S.C. Hern, and W.H. Engelmann. 2001. The national humam activity pattern survey (NHAPS): a resource for assessing exposure to environmental pollutants. J. Exposure Anal. Environ. Epidem. 11:231-252.
6. Knoppel and Wolkoff, P. 1992. Chemical, microbiological, health, and comfort aspects of indoor air quality-- state of the art in SBS.
7. Orwell, R. L., Wood, R. A., Burchett, M. D., Tarran, J. and Torpy, F. 2006. The potted-plant microcosm substantially reduces indoor air VOC pollution: II. Laboratory study. Water Air and Soil Pollution 177 (1-4):59-80.
8. Orwell, R. L., Wood, R. L., Tarran, J., Torpy, F. and Burchett, M. D. 2004. Removal of benzene by the indoor plant/substrate microcosm and implications for air quality. Water Air and Soil Pollution 157 (1-4):193-207.
9. Thomas, M. D. and Hill, G. R. 1935. Absorption of sulphur dioxide by alfalfa and its relation to leaf injury. Plant Physiology 10 (2):291-307.
10. Ulrich, K. and K. Tung (1991), “Fundamentals of Product Modularity,” Proceedings of the 1991 ASME Design Technical Conferences - Conference on Design Manufacture/Integration, Miami, Florida.
11. Wolverton, B. C., Douglas, W. L. and Bounds, K. 1989. A study of interior landscape plants for indoor air pollution abatement, An interim report. National aeronautics and space administration; Stennis space center; Sverdrup technology, Inc.
12. Wolverton, B. C. and Wolverton, J. D. 1993. Plants and soil microorganisms: removal of formaldehyde, xylene, and ammonia from the indoor environment. Journal of the Mississippi Academy of Sciences 38 (2):11-15.
網路文獻:
U.S. National Cancer Institute(2011). Formaldehyde and Cancer Risk . Retrieved Oct 6, 2011, from http://www.cancer.gov/cancertopics/factsheet/Risk/formaldehyde