Sebastiaan Deetman
Assistant Professor
- Name
- Dr. S.P. Deetman
- Telephone
- +31 71 527 5616
- s.p.deetman@cml.leidenuniv.nl
- ORCID iD
- 0000-0002-1820-658X
Sebastiaan Deetman graduated as an Industrial Ecologist from Leiden University in 2010 and has been working as a climate policy researcher at the PBL Netherlands Environmental Assessment agency under the Responses project until end 2012.
Professional Experience
Sebastiaan Deetman graduated as an Industrial Ecologist from Leiden University in 2010 and has been working as a climate policy researcher at the PBL Netherlands Environmental Assessment agency under the Responses project until end 2012.
He has a broad background in sustainable chemistry, practical experience with Life Cycle Assessment (LCA) and energy modeling and is currently researching resource efficiency of critical materials under the Desire project at the CML.
Expertise
- Industrial Ecology
- Life Cycle Assessment (LCA)
- Energy Modeling
Assistant Professor
- Science
- 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). Supervisor(s): 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 no. 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.