| 1.
Acquired Superoxide-Scavenging Ability of Ceria Nanoparticles
[840]
|
| 2.
Shape-Dependent Transformation and Translocation of Ceria Nanopart..
[511]
|
| 3.
Origin of the different phytotoxicity and biotransformation of cer..
[498]
|
| 4.
Species-specific toxicity of ceria nanoparticles to Lactuca plants
[489]
|
| 5.
Phytotoxicity of silver nanoparticles to cucumber (Cucumis sativus..
[471]
|
| 6.
Comparative toxicity of nanoparticulate/bulk Yb2O3 and YbCl3 to cu..
[463]
|
| 7.
Nano-CeO2 Exhibits Adverse Effects at Environmental Relevant Conce..
[455]
|
| 8.
Influence of phosphate on phytotoxicity of ceria nanoparticles in ..
[453]
|
| 9.
Transformation of ceria nanoparticles in cucumber plants is influe..
[434]
|
| 10.
Effects of rare earth oxide nanoparticles on root elongation of pl..
[424]
|
| 11.
纳米二氧化铈对蛋白核小球藻和大型溞的毒性及其在大型溞体内的形态转化
[418]
|
| 12.
Comparison Study on the Antibacterial Activity of Nano- or Bulk-Ce..
[407]
|
| 13.
Quantifying the distribution of ceria nanoparticles in cucumber ro..
[399]
|
| 14.
Toxicity of zinc oxide nanoparticles to zebrafish embryo: a physic..
[387]
|
| 15.
Changing exposure media can reverse the cytotoxicity of ceria nano..
[383]
|
| 16.
Toxicity of cerium and thorium on Daphnia magna
[382]
|
| 17.
Protein corona influences liver accumulation and hepatotoxicity of..
[362]
|
| 18.
Effect of cerium oxide nanoparticles on asparagus lettuce cultured..
[350]
|
| 19.
Comparative effects of nano and bulk-Fe3O4 on the growth of cucumb..
[340]
|
| 20.
Quantifying the total ionic release from nanoparticles after parti..
[325]
|
| 21.
Quantifying the dissolution of nanomaterials at the nano-bio inter..
[324]
|
| 22.
Lung deposition and extrapulmonary translocation of nano-ceria aft..
[309]
|
| 23.
Phytotoxicity of CeO2 nanoparticles on radish plant (Raphanus sati..
[309]
|
| 24.
小鼠鼻腔滴注纳米二氧化铈进入嗅球的研究
[303]
|
| 25.
Adsorption and desorption characteristics of arsenic onto ceria na..
[299]
|
| 26.
Quantifying and Imaging Engineered Nanomaterials In Vivo: Challeng..
[298]
|
| 27.
Fate and Phytotoxicity of CeO2 Nanoparticles on Lettuce Cultured i..
[298]
|
| 28.
Trophic Transfer and Transformation of CeO2 Nanoparticles along a ..
[294]
|
| 29.
New nuclear facilities and their analytical applications in China
[290]
|
| 30.
Magnetic (Fe3O4) Nanoparticles Reduce Heavy Metals Uptake and Miti..
[282]
|
| 31.
Toxicity and transformation of graphene oxide and reduced graphene..
[276]
|
| 32.
Comparative Pulmonary Toxicity of Two Ceria Nanoparticles with the..
[272]
|
| 33.
Effects of Copper Nanoparticles on the Development of Zebrafish Em..
[269]
|
| 34.
Bioavailability and Distribution and of Ceria Nanoparticles in Sim..
[264]
|
| 35.
Xylem and Phloem Based Transport of CeO2 Nanoparticles in Hydropon..
[247]
|
| 36.
Influence of Speciation of Thorium on Toxic Effects to Green Algae..
[220]
|
| 37.
纳米ZnO对斑马鱼胚胎抗氧化酶系统的影响
[210]
|
| 38.
Phytotoxicity, Translocation, and Biotransformation of NaYF4 Upcon..
[206]
|
| 39.
Engineering Cobalt Defects in Cobalt Oxide for Highly Efficient El..
[199]
|
| 40.
Phytotoxicity, uptake and transformation of nano-CeO2 in sand cult..
[185]
|
| 41.
Aligned amorphous and microcrystalline Si nanorods by glancing ang..
[150]
|
| 42.
Renal impairment caused by chronic occupational chromate exposure
[142]
|
| 43.
Molecular properties of R-phycocyanin subunits from Polysiphonia u..
[103]
|
| 44.
Effect of CeO2 nanoparticles on plant growth and soil microcosm in..
[52]
|
| 45.
Preparation of a 3D flower-like spherical structure g-C3N4/CuBi2O4..
[40]
|
| 46.
A novel snowflake dual Z-scheme Cu2S/RGO/Bi2WO6 photocatalyst for ..
[38]
|
| 47.
Geochemical cycle of exogenetic CeO2 nanoparticles in agricultural..
[37]
|
| 48.
Impact of Albumin Pre-Coating on Gold Nanoparticles Uptake at Sing..
[37]
|
