Övriga publikationer
[1]
S. Lange et al.,
Digital Reset : Redirecting Technologies for the Deep Sustainability Transformation.
oekom verlag, 2023.
[2]
[3]
G. Finnveden och S. Sörlin,
"Debattartikel : Arbetet med hållbar utveckling är inte färdigt!,"
, 2023.
[4]
M. I. Litter och A. Ahmad,
Industrial applications of nanoparticles : A prospective overview.
Informa UK Limited, 2023.
[5]
M. I. Litter och A. Ahmad,
"The world of nanotechnology,"
i Industrial Applications of Nanoparticles : A Prospective Overview, : Taylor and Francis, 2023, s. 1-15.
[6]
C. S.S. Ferreira et al.,
"Agricultural Land Degradation in Portugal and Greece,"
i Handbook of Environmental Chemistry, : Springer Nature, 2023, s. 105-137.
[7]
S. Keerthanan, P. Bhattacharya och M. Vithanage,
"Geochemical provenance of metalloids and their release : Implications on medical geology,"
i Medical Geology : En route to One Health, : Wiley, 2023, s. 217-234.
[8]
M. I. Litter och A. Ahmad,
"Preface,"
i Industrial Applications of Nanoparticles : A Prospective Overview, : Taylor and Francis, 2023.
[9]
C. Dobbs, D. Haase och U. Mörtberg,
"Understanding land use, land cover, and landscape patterns of the world's cities for sustainable biodiversity planning,"
i The Routledge Handbook of urban biodiversity, C. Nilon and M. Aronson red., 1. uppl. : Taylor & Francis, 2023, s. 20.
[10]
M. A. Rahman et al.,
"Arsenic,"
i Inorganic Contaminants and Radionuclides, : Elsevier, 2023, s. 13-40.
[11]
R. Irunde et al.,
"Bauxite : a prospective mineral for arsenic elicitation from water and acidity influence,"
(Manuskript).
[12]
[13]
T. Kuhn et al.,
"The Missing Links in Ecosystem Service Research,"
i Southern Baltic Coastal Systems Analysis, H. Schubert, F. Müller red., : Springer, 2023, s. 223-234.
[14]
A. H. Wiberg et al.,
"Embodied Emissions : Knowledge Building For Industry,"
i The Routledge Handbook of Embodied Carbon in the Built Environment, : Taylor and Francis, 2023, s. 147-181.
[15]
[16]
C. Katzeff et al.,
"Hemmens berättelser om smarta elnät : Avslutande webbinarium 24 maj 2022,"
, 2022.
[17]
Z. Kalantari et al.,
"Using Landscape Connectivity to Identify Suitable Locations for Nature-Based Solutions to Reduce Flood Risk,"
i Handbook of Environmental Chemistry, : Springer Nature, 2022, s. 339-354.
[18]
C. S. S. Ferreira et al.,
"Nature-Based Solutions for Flood Mitigation and Resilience in Urban Areas,"
i Nature-Based Solutions for Flood Mitigation, : Springer Nature, 2022, s. 59-78.
[19]
G. Finnveden,
"What Can “Promoting Sustainable Development” at a University Mean?—A Guideline from KTH,"
i Handbook of Best Practices in Sustainable Development at University Level, : Springer Nature, 2022, s. 101-111.
[20]
C. S. S. Ferreira et al.,
"Introduction : Nature-Based Solutions for Flood Mitigation,"
i Nature-Based Solutions for Flood Mitigation, : Springer Nature, 2022, s. 1-7.