-
Greater North Sea and Celtic Seas - Eutrophication and Acidity aggregated dat...
EMODnet Chemistry aims to provide access to marine chemistry datasets and derived data products concerning eutrophication, acidity and contaminants. The importance of the... -
Black Sea - Danube Delta - DIVAnd 4D seasonal analysis of Water body silicate...
Water body silicate - Seasonal Climatology for NW Black Sea (region in front of Danube Delta months) for the period 1970-2019 on the domain: Lon E28.5-30.5°E, Lat N43.7-45.6°N.... -
Black Sea - Eutrophication and Acidity aggregated datasets 1935/2016 v2018
EMODnet Chemistry aims to provide access to marine chemistry data sets and derived data products concerning eutrophication, acidity and contaminants. The chemicals chosen... -
Baltic Sea - Gulf of Riga - DIVAnd 4D seasonal analysis of Water body silicat...
Water body silicate - Seasonal Climatology for Gulf of Riga for the period 1995-2021. Four seasons (March-May, June-August, September-November, December-February).... -
Arctic Ocean - Eutrophication and Acidity aggregated datasets 1923/2023 v2023
EMODnet Chemistry aims to provide access to marine chemistry datasets and derived data products concerning eutrophication, acidity and contaminants. The importance of the... -
Baltic Sea - DIVAnd 6-year seasonal analysis of Water body silicate 1965/2021...
Running 6-year analysis of Water body silicate in the Baltic Sea. Four seasons (March-May, June-August, September-November, December-February). Every year of the time... -
Baltic Sea - Eutrophication and Acidity aggregated datasets 1902/2022 v2022
EMODnet Chemistry aims to provide access to marine chemistry datasets and derived data products concerning eutrophication, acidity and contaminants. The importance of the... -
Northeast Atlantic Ocean - DIVAnd 4D seasonal 6-year average analysis of Wate...
Moving 6-year analysis of Water body silicate in the NorthEast Atlantic for each season: - winter: January-March, - spring: April-June, - summer: July-September, - autumn:... -
North Sea DIVA 4D analysis of Water_body_silicate
This gridded product visualizes 1960 - 2014 water body silicate concentration (umol/l) in the North Sea domain, for each season (winter: December – February; spring: March –... -
Combined DIVA 4D 6-year analysis of Water body silicate 1983-2016 v2018
The analysis was performed per season using DIVA software tool (Data-Interpolating Variational Analysis). The analyses products are stored as NetCDF CF files and made available... -
Mediterranean Sea DIVA 4D analysis of Water_body_silicate
Moving 10-years analysis of silicates at Mediterranean Sea for each season : - winter (January-March), - spring (April-June), - summer (July-September), - autumn... -
Northeast Atlantic Ocean DIVA 4D analysis of Water_body_silicate
Moving 10-years analysis of Silicate at Northeast Atlantic Ocean for each season. - winter: January-March, - spring: April-June, - summer: July-September, - autumn:... -
Baltic Sea DIVA 4D analysis of Water_body_silicate
Units: umol/l. Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis). URL: http://modb.oce.ulg.ac.be/DIVA. Comment: Every year of the time... -
Black Sea DIVA 4D analysis of Water_body_silicate
Gridded product for visualization of Water body silicate in the Black Sea generated by DIVA 4.6.9 using all EMODNET Chemistry data from 1960 to 2013. Depth range (IODE standard... -
Cation environments in lead-free glasses
BaO+ZnO containing glasses are being studied as an alternative to lead-based glasses because they exhibit excellent dielectric, thermal, optical and crystallisation properties.... -
CaTiO3 cooling from 291 K 30-130 ms jaws 15*20
This dataset has no description
-
Copy of: Structural and Magnetic Studies of Mixed-Valence Iron Silicates
We propose to study the temperature evolution of the spontaneous strain, crystal and magnetic structure of the charge ordered, mixed valence iron silicate ilvaite. In addition,... -
Shaping silica to mesoscale architectures at room-temperature
Hierarchical zeolites with molecular order at both the micropore (<2nm) and mesopore (2-50nm) level are able to combine confinement effects in catalysis without suffering...