Sebastiaan Deetman
Universitair docent
- Naam
- Dr. S.P. Deetman
- Telefoon
- +31 71 527 5616
- s.p.deetman@cml.leidenuniv.nl
- ORCID iD
- 0000-0002-1820-658X
Voor meer informatie, zie de Engelse versie.
Universitair docent
- Wiskunde en Natuurwetenschappen
- Centrum voor Milieuwetenschappen Leiden
- CML/Industriele Ecologie
- Engelenburg M. van, Deetman S.P., Fishman T., Behrens P.A. & Voet E. van der (2024), TRIPI: a global dataset and codebase of the total resources in physical infrastructure encompassing road, rail, and parking, Data in Brief 54: 110387.
- Wang R., Hertwich E.G., Fishman T., Deetman S.P., Behrens P.A., Chen W., Koning A. de, Xu M., Matus K., Ward H., Tukker A. & Zimmerman J.B. (2023), The legacy environmental footprints of manufactured capital, Proceedings of the National Academy of Sciences 120(24): e2218828120.
- Tukker A., Behrens P., Deetman S.P., Hu M., Migoni Alejandre E., Meide M. van der, Zhong X. & Zhang C. (2023), Circular construction: six key recommendations, One Earth 6: 1425-1429.
- Wang R., Hertwich E.G., Fishman T., Deetman S.P., Behrens P.A., Chen W., Koning A. de, Xu M., Matus K., Ward H., Tukker A. & Zimmerman J.B. (2023), The legacy environmental footprints of manufactured capital, Proceedings of the National Academy of Sciences 120(24): e2218828120.
- Zhong X., Deetman S.P., Tukker A. & Behrens P.A. (2022), Increasing material efficiencies of buildings to address the global sand crisis, Nature Sustainability 5: 389-392.
- Aguilar-Hernandez G.A., Deetman S.P., Merciai S., Dias Rodrigues J.F. & Tukker A. (2021), Global distribution of material inflows to in-use stocks in 2011 and its implications for a circularity transition, Journal of Industrial Ecology 25(6): 1447-1461.
- Deetman S.P., Boer H.S. de, Engelenburg M. van, Voet E. van der & Vuuren D.P. van (2021), Projected material requirements for the global electricity infrastructure: generation, transmission and storage, Resources, Conservation and Recycling 164: 105200.
- Zhong X., Hu M., Deetman S.P., Dias Rodrigues J.F., Lin H., Tukker A. & Behrens P.A. (2021), The evolution and future perspectives of energy intensity in the global building sector 1971–2060, Journal of Cleaner Production 305: 127098.
- Zhong X., Hu M., Deetman S.P., Steubing B.R.P., Lin H., Aguilar Hernandez G.A., Harpprecht C.I., Zhang C., Tukker A. & Behrens P.A. (2021), Global greenhouse gas emissions from residential and commercial building materials and mitigation strategies to 2060, Nature Communications 12: 6126.
- Deetman S.P. (8 december 2021), Stock-driven scenarios on global material demand: the story of a lifetime (Dissertatie. Institute of Environmental Sciences (CML), Faculty of Science, Leiden University). Promotor(en): Voet E. van der, Vuuren D.P. van & Tukker A.
- Deetman S.P., Marinova S.A., Voet E. van der, Vuuren D. van, Edelenbosch O. & Heijungs R. (2020), Modelling global material stocks and flows for residential and service sector buildings towards 2050, Journal of Cleaner Production 245: 118658.
- Marinova S.A., Deetman S.P., Voet E. van der & Daioglou V. (2020), Global construction materials database and stock analysis of residential buildings between 1970-2050, Journal of Cleaner Production 247: 119146.
- Mendoza Beltran A., Cox B., Chris M., Vuuren D.P. van, Font Vivanco D., Deetman S., Edelenbosch O.Y., Guinée J. & Tukker A. (2019), When the Background Matters: Using Scenarios from Integrated Assessment Models in Prospective Life Cycle Assessment, Journal of Industrial Ecology 24(1): 64-79.
- Vivanco D.F., Wang R.R., Deetman S.P. & Hertwich E. (2019), Unraveling the nexus: exploring the pathways to combined resource use, Journal of Industrial Ecology 23(1): 241-252.
- Deetman S., Oers L. van, Voet E. van der & Tukker A. (2018), Deriving European Tantalum Flows Using Trade and Production Statistics, Journal of Industrial Ecology 22(1): 166-179.
- Mancheri N.A., Sprecher B., Deetman S., Young S.B., Bleischwitz R., Dong L., Kleijn R. & Tukker A. (2018), Resilience in the tantalum supply chain, Resources, Conservation and Recycling 129: 56-69.
- Deetman S.P., Pauliuk S., Vuuren D.P. van, Voet E. van der & Tukker A. (2018), Scenarios for Demand Growth of Metals in Electricity Generation Technologies, Cars, and Electronic Appliances, Environmental Science and Technology 52(8): 4950-4959.
- Huppes G., Deetman S.P., Huele R., Kleijn E.G.M., Koning A. de & Voet E. van der (2017), Strategic design of long-term climate policy instrumentations, with exemplary EU focus, Climate Policy 17(S1): S8 – S31.
- Koning A. de, Huppes G., Deetman S.P. & Tukker A. (2016), Scenarios for a 2°C world: a trade-linked input-output model with high sector detail, Climate Policy 16(3): 301-317.
- Radu O.B., Berg M. van den, Klimont Z., Deetman S.P., Janssens-Maenhout G., Muntean M., Heyes C., Dentener F. & Vuuren D.P. van (2016), Exploring synergies between climate and air quality policies using long-term global and regional emission scenarios, Atmospheric Environment 140: 577-591.
- Huppes G., Deetman S.P., Huele R., Kleijn R., Koning A. de & Voet E. van der (2015), Instrumentation strategies and instrument mixes for long term climate policy nr. CECILIA 2050 - WP6, Deliverable D6.1. Leiden: CML - Leiden University.
- Hof A.F., Kumar A., Deetman S.P., Ghosh S. & Vuuren D.P. van (2015), Disentangling the ranges: climate policy scenarios for China and India, Regional Environmental Change 15: 1025-1033.
- Deetman S.P., Hof A.F., Girod B. & Vuuren D. van (2015), Regional differences in mitigation strategies: an example for passenger transport, Regional Environmental Change 15: 987-995.
- Deetman S., Hol A.F. & Vuuren D.P. van (2014), Deep CO2 emission reductions in a global bottom-up model approach, Climate Policy 15(2): 253-271.
- Koning A. de., Huppes G. & Deetman S. (2014), Scenarios for 2050 for a 2-degrees world;Using a four regions trade linked IO-model with high sector detail. Leiden: Institute of Environmental Sciences (CML), Leiden University.