Most cited publications

 These are the publications of the DfS group with most citations in Scopus (with a minimum of 25):

1. Entrop, Brouwers, & Reinders (2011). Experimental research on the use of micro-encapsulated Phase Change Materials to store solar energy in concrete floors and to save energy in Dutch houses. Solar energy, 85 (5), pp. 1007-1020.
2. Van Dam, Bakker & Van Hal (2010). Home energy monitors: impact over the medium-term. Building Research & Information, 38(5), pp. 458-469.
3. Huisman, Magalini, Kuehr,Maurer, Ogilvie, Poll, , ... & Stevels (2008). 2008 review of directive 2002/96 on waste electrical and electronic equipment (WEEE). United Nations University.
4. Wever, Van Kuijk, Boks (2008) User-Centred Design for Sustainable Behaviour. International Journal of Sustainable Engineering, 1(1), March 2008, pp. 9-20 
5. Komoto & Tomiyama (2008). Integration of a service CAD and a life cycle simulator. CIRP Annals-Manufacturing Technology, 57(1), pp. 9-12.
6. Hellman, & Van den Hoed (2007). Characterising fuel cell technology: Challenges of the commercialisation process. International Journal of Hydrogen Energy, 32(3), pp 305-315.
7. Amini, Remmerswaal, Castro & Reuter (2007). Quantifying the quality loss and resource efficiency of recycling by means of exergy analysis, Journal of Cleaner Production,  15(10), pp. 907-913.
8. Boks (2006). The soft side of ecodesign. Journal of Cleaner Production, 14(15), pp 1346-1356.
9. Boks & Diehl (2006). Integration of sustainability in regular courses: experiences in industrial design engineering. Journal of Cleaner Production, 14(9), pp 932-939.
10. Van der Lugt, van den Dobbelsteen, Janssen (2006) An environmental, economic and practical assessment of bamboo as a building material for supporting structures. Construction and Building Materials, 20(9), pp 648-656.
11. Lordkipanidze, Brezet, Backman (2005) The entrepreneurship factor in sustainable tourism development. Journal of Cleaner Production, 13(8), pp 787-798.
12. Berchicci & Bodewes (2005). Bridging environmental issues with new product development. business strategy and the environment 14(5), 272-285.
13. Castro, Remmerswaal, Brezet, Van Schaik, & Reuter (2005). A simulation model of the comminution–liberation of recycling streams: Relationships between product design and the liberation of materials during recycling. International journal of mineral processing, 75(3), pp. 255-281.
14. Ermolaeva, Castro & Kandachar (2004). Materials selection for an automotive structure by integrating structural optimization with environmental impact assessment. Materials & design, 25(8), pp 689-698
15. Huisman, Boks, & Stevels (2003). Quotes for environmentally weighted recyclability (QWERTY): concept of describing product recyclability in terms of environmental value. International Journal of Production Research, 41(16), pp 3649-3665.
16. Brown, Vergragt, Green & Berchicci (2003). Learning for sustainability transition through bounded socio-technical experiments in personal mobility. Technology Analysis & Strategic Management, 15(3), pp 291-315.
17. Huisman (2003) The QWERTY/EE concept, Quantifying recyclability and eco-efficiency for end-of-life treatment of consumer electronic products. PhD thesis, Delft University of Technology.
18. Boks, Stevels (2003). Theory and practice of environmental benchmarking in a major consumer electronics company. Benchmarking: An International Journal,  10(2), pp 120-135. 
19. Rose, Ishii, & Stevels (2002). Influencing design to improve product end-of-life stage. Research in Engineering Design, 13(2), pp. 83-93.
20. Green & Vergragt (2002). Towards sustainable households: a methodology for developing sustainable technological and social innovations, Futures  34(5), pp 381-400.
21. Vogtländer, Bijma, & Brezet (2002). Communicating the eco-efficiency of products and services by means of the eco-costs/value model. Journal of Cleaner Production, 10(1), pp 57-67.
22. Brezet, Bijma, Ehrenfeld & Silvester (2001). The design of eco-efficient services; Method, tools and review of the case study based ‘Designing Eco-efficient  Services’ project. Delft University of Technology, Design for Sustainability program. 
23. Vogtländer, Brezet, Hendriks (2001) The virtual Eco-costs '99: A single LCA-based indicator for sustainability and the Eco-costs - Value ratio (EVR) model for economic allocation: A new LCA-based calculation model to determine the sustainability of products and services  International Journal of Life Cycle Assessment. 6(3), pp 157-166.
24. Van Hemel (1998) Ecodesign emperically explored. PhD thesis, Delft University of Technology.
25. Brezet (1997). Dynamics in ecodesign practice. Industry and environment, 20(1-2), pp 21-4.
26. Brezet, Van Hemel (1997). Ecodesign: a promising approach to sustainable production and consumption. H. Böttcher, & R. Clarke (Eds.). UNEP.