| Development of a standardized food model for studying the impact of food matrix effects on the gastrointestinal fate and toxicity of ingested nanomaterials |
23 |
| Progress towards standardized and validated characterizations for measuring physicochemical properties of manufactured nanomaterials relevant to nano health and safety risks |
20 |
| Life cycle assessment of manufactured nanomaterials: Where are we? |
19 |
| Nanomaterial exposures for worker, consumer and the general public |
17 |
| Risk assessment frameworks for nanomaterials: Scope, link to regulations, applicability, and outline for future directions in view of needed increase in efficiency |
16 |
| Development of reference metal and metal oxide engineered nanomaterials for nanotoxicology research using high throughput and precision flame spray synthesis approaches |
15 |
| Inter-laboratory comparison of nanoparticle size measurements using dynamic light scattering and differential centrifugal sedimentation |
15 |
| Effective delivery of sonication energy to fast settling and agglomerating nanomaterial suspensions for cellular studies: Implications for stability, particle kinetics, dosimetry and toxicity |
14 |
| In vivo effects: Methodologies and biokinetics of inhaled nanomaterials |
13 |
| Integration among databases and data sets to support productive nanotechnology: Challenges and recommendations |
13 |
| Multi-omics analysis of ten carbon nanomaterials effects highlights cell type specific patterns of molecular regulation and adaptation |
13 |
| Ranking of nanomaterial potency to induce pathway perturbations associated with lung responses |
11 |
| Comparative multi-generation study on long-term effects of pristine and wastewater-borne silver and titanium dioxide nanoparticles on key lifecycle parameters in Daphnia magna |
11 |
| Nanomaterial grouping: Existing approaches and future recommendations |
10 |
| Abiotic dissolution rates of 24 (nano)forms of 6 substances compared to macrophage-assisted dissolution and in vivo pulmonary clearance: Grouping by biodissolution and transformation |
10 |
| Impact of protein-nanoparticle interactions on gastrointestinal fate of ingested nanoparticles: Not just simple protein corona effects |
10 |
| Making use of available and emerging data to predict the hazards of engineered nanomaterials by means of in silico tools: A critical review |
10 |
| Bacterial exposure to ZnO nanoparticles facilitates horizontal transfer of antibiotic resistance genes |
9 |
| Quantitative measurement of nanoparticle uptake by flow cytometry illustrated by an interlaboratory comparison of the uptake of labelled polystyrene nanoparticles |
9 |
| Scientific rationale for the development of an OECD test guideline on engineered nanomaterial stability |
8 |
| Investigation of the in vitro genotoxicity of two rutile TiO2 nanomaterials in human intestinal and hepatic cells and evaluation of their interference with toxicity assays |
8 |
| Contribution of mesocosm testing to a single-step and exposure-driven environmental risk assessment of engineered nanomaterials |
8 |
| Grouping concept for metal and metal oxide nanomaterials with regard to their ecotoxicological effects on algae, daphnids and fish embryos |
7 |
| Evaluating weathering of food packaging polyethylene-nano-clay composites: Release of nanoparticles and their impacts |
7 |
| Surface coating determines the response of soybean plants to cadmium sulfide quantum dots |
7 |
| A systematic process for identifying key events for advancing the development of nanomaterial relevant adverse outcome pathways |
7 |
| Recursive feature elimination in random forest classification supports nanomaterial grouping |
7 |
| Effect of silver concentration and chemical transformations on release and antibacterial efficacy in silver-containing textiles |
7 |
| Effects of silver nanoparticles in early life-stage zebrafish are associated with particle dissolution and the toxicity of soluble silver |
6 |
| Toward a better extraction of titanium dioxide engineered nanomaterials from complex environmental matrices |
6 |
| Nano-enabled personal care products: Current developments in consumer safety |
6 |
| Occupational exposure during handling and loading of halloysite nanotubes - A case study of counting nanofibers |
5 |
| Assessing occupational risk in designs of production processes of nano-materials |
5 |
| Endoplasmic reticulum stress-dependent oxidative stress mediated vascular injury induced by silica nanoparticles in vivo and in vitro |
5 |
| Assessment of titanium dioxide nanoparticle toxicity in the rainbow trout (Onchorynchus mykiss) liver and gill cell lines RTL-W1 and RTgill-W1 under particular consideration of nanoparticle stability and interference with fluorometric assays |
5 |
| A cross-species and model comparison of the acute toxicity of nanoparticles used in the pigment and ink industries |
5 |
| Quantitative analysis of changes in amino acids levels for cucumber (Cucumis sativus) exposed to nano copper |
5 |
| Closing gaps for environmental risk screening of engineered nanomaterials |
5 |
| A 21-day sub-acute, whole-body inhalation exposure to printer-emitted engineered nanoparticles in rats: Exploring pulmonary and systemic effects |
5 |
| Collision of emerging and traditional methods for antibiotics removal: Taking constructed wetlands and nanotechnology as an example |
5 |
| Endothelial barrier dysfunction induced by nanoparticle exposure through actin remodeling via caveolae/raft-regulated calcium signalling |
5 |
| Co-exposure of imidacloprid and nanoparticle Ag or CeO2 to Cucurbita pepo (zucchini): Contaminant bioaccumulation and translocation |
5 |
| An inventory of ready-to-use and publicly available tools for the safety assessment of nanomaterials |
4 |
| Dispersion preparation, characterization, and dosimetric analysis of cellulose nano-fibrils and nano-crystals: Implications for cellular toxicological studies |
4 |
| Directions in QPPR development to complement the predictive models used in risk assessment of nanomaterials |
4 |
| A guide to nanosafety testing: Considerations on cytotoxicity testing in different cell models |
4 |
| Identification of nanomaterials: A validation report of two laboratories using analytical ultracentrifugation with fixed and ramped speed options |
4 |
| Effect of silver nanoparticle contaminated biosolids on the soil microbial community |
4 |
| Determination of the delivered dose of nanoparticles in the trachea-bronchial and alveolar regions of the lung |
4 |
| Procedures for the production and use of synthetically aged and product released nanomaterials for further environmental and ecotoxicity testing |
3 |
