RIVM calls for increased involvement of scientific community in solving plastic crisis Industry and policymakers are not availing themselves enough of the available scientific knowledge when it comes to smarter ways of dealing with plastics.
Nature Nanotechnology publishes RIVM research on plastics On Thursday 20 January, Nature Nanotechnology published the article Quantitative tracing of uptake and transport of submicrometre plastics in crop plants using lanthanide chelates as a dual-functional tracer.
Safety of materials and products already starts at the design phase The Ministry of Infrastructure and Water Management aims to ensure that all new materials and technological developments are safe in 2050.
Menthol facilitates inhalation of tobacco smoke, even when you cannot taste it Even when menthol cannot be tasted, the substance makes it easier to inhale tobacco smoke. This way, menthol makes smoking more attractive for young and novice smokers who are not yet used to inhaling sharp, pungent tobacco smoke.
Microplastics in paint can cause problems in the environment Companies and organisations in the paint sector are aware that microplastics can cause problems as these particles end up in the environment where they persist and may be harmful to plants and anim
Antimicrobial resistance in the Netherlands is remaining reasonably stable Antimicrobial resistance is increasing on a global level. It is difficult to treat infections caused by resistant bacteria.
Measures against polluting microplastics from garments When garments made from synthetic materials wear, due to use and washing, microplastic fibres are released. Wastewater treatment plants remove 50 to 90 per cent of these microplastic fibres.
iGEM meetup for teams and supervisors The best synbio projects, including iGEM teams, have one thing in common: cutting edge science in the light of carefully considered societal needs.
Sustainability Day at RIVM: Microplastics Today, 10 October 2018, is national Sustainability Day in the Netherlands.
RIVM measures much higher levels of tar, nicotine and carbon monoxide in cigarettes Tar, nicotine and carbon monoxide (TNCO) levels measured in accordance with the Canadian Intense (CI) method are at least twice as high as the levels measured in accordance with the prescribed ISO