Characterization of airborne dust emissions from three types of crushed multi-walled carbon nanotube-enhanced concretes [0.03%]
三种 Crushed 多壁碳纳米管增强混凝土的空气悬浮粉尘排放特征研究
Camilla Abrahamsson,Jenny Rissler,Monica Kåredal et al.
Camilla Abrahamsson et al.
Dispersing Multi-Walled Carbon Nanotubes (MWCNTs) into concrete at low (
Elemental carbon - An efficient method to measure occupational exposure from materials in the graphene family [0.03%]
元素碳-一种有效测量石墨烯材料职业暴露的方法
Tobias Storsjö,Håkan Tinnerberg,Jinhua Sun et al.
Tobias Storsjö et al.
Graphene is a 2D-material with many useful properties such as flexibility, elasticity, and conductivity among others. Graphene could therefore become a material used in many occupational fields in the future, which can give rise to occupati...
Stool titanium dioxide is positively associated with stool alpha-1 antitrypsin and calprotectin in young healthy adults [0.03%]
年轻健康成人粪便中的二氧化钛与α-1抗胰蛋白酶及钙卫蛋白呈正相关性分析
Christianto Putra,Dhimiter Bello,Shannon L Kelleher et al.
Christianto Putra et al.
Titanium dioxide (TiO2/E171) is used widely in foods, primarily as a food additive. Animal models have shown that chronic TiO2 exposure may disturb homeostasis of the gastrointestinal tract by increasing gut permeability, inducing gut infla...
Toxic effects of environmental-relevant exposure to polyethylene terephthalate (PET) micro and nanoparticles in zebrafish early development [0.03%]
环境相关暴露于聚对苯二甲酸乙二醇酯(PET)微粒和纳米颗粒对斑马鱼早期发育的毒性效应
Lilian de Souza Teodoro,Camilo Alexandre Jablonski,Kauê Pelegrini et al.
Lilian de Souza Teodoro et al.
Polyethylene terephthalate (PET) is a commonly used thermoplastic in industry due to its excellent malleability and thermal stability, making it extensively employed in packaging manufacturing. Inadequate disposal of PET packaging in the en...
Predicting environmental concentrations of nanomaterials for exposure assessment - a review [0.03%]
环境中药物纳米颗粒浓度的预测——一次评估暴露的回顾
Arturo A Keller,Yuanfang Zheng,Antonia Praetorius et al.
Arturo A Keller et al.
There have been major advances in the science to predict the likely environmental concentrations of nanomaterials, which is a key component of exposure and subsequent risk assessment. Considerable progress has been since the first Material ...
Nanoscale sulfur alters the bacterial and eukaryotic communities of the tomato rhizosphere and their interactions with a fungal pathogen [0.03%]
纳米级硫黄改变了番茄根际的细菌和真核生物群落及其与真菌病原体的相互作用
Blaire Steven,M Amine Hassani,Jacquelyn C LaReau et al.
Blaire Steven et al.
Nanoformulations of sulfur have demonstrated the potential to enhance plant growth and reduce disease incidence when plants are confronted with pathogens. However, the impact of nanoscale sulfur on microbial communities in close contact wit...
Protein corona exacerbated inflammatory response in macrophages elicited by CdTe quantum dots [0.03%]
蛋白冠加剧了CdTe量子点引发的巨噬细胞炎症反应
Na Liu,Ying Liang,Tingting Wei et al.
Na Liu et al.
Nano-bio interface is significant concern in nanomedicine. When nanoparticles (NPs) come into contact with cells, they form complexes with proteins known as protein corona (PC). Cadmium telluride quantum dots (CdTe QDs) have been applied as...
Use of the dustiness index in combination with the handling energy factor for exposure modelling of nanomaterials [0.03%]
粉尘指数与操作能量因子在纳米材料暴露建模中联合使用的应用
Carla Ribalta,Alexander C Ø Jensen,Neeraj Shandilya et al.
Carla Ribalta et al.
The use of modelling tools in the occupational hygiene community has increased in the last years to comply with the different existing regulations. However, limitations still exist mainly due to the difficulty to obtain certain key paramete...
Dissolution kinetics of copper oxide nanoparticles in presence of glyphosate [0.03%]
草甘膦存在下铜氧化纳米颗粒的溶解动力学
Zhaoxun Yang,Jean-François Gaillard
Zhaoxun Yang
Recently CuO nanoparticles (n-CuO) have been proposed as an alternative method to deliver a Cu-based pesticide for controlling fungal infestations. With the concomitant use of glyphosate as an herbicide, the interactions between n-CuO and t...
Editorial - Special issue environmental and health impacts of two-dimensional nanomaterials [0.03%]
编辑评论 - 特刊 二维纳米材料的环境和健康影响
Peter Wick,Haiyuan Zhang,Sijie Lin et al.
Peter Wick et al.