ChemX
Collection
A Collection of Chemistry Datasets for Benchmarking Automated Information Extraction. More info at https://github.com/ai-chem/ChemX • 11 items • Updated
sn int64 | material string | shape string | coat_functional_group string | synthesis_method string | surface_charge string | size_in_medium_nm float64 | zeta_in_medium_mv float64 | no_of_cells_cells_well float64 | human_animal string | cell_source string | cell_tissue string | cell_morphology string | cell_age string | time_hr int64 | concentration float64 | test string | test_indicator string | viability_% float64 | doi string | article_list int64 | core_nm float64 | hydrodynamic_nm float64 | potential_mv float64 | cell_type string | journal_name string | publisher string | year int64 | title string | journal_is_oa bool | is_oa string | oa_status string | pdf string | access int64 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
0 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 1.95 | MTT | TetrazoliumSalt | 113.67 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
1 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 3.9 | MTT | TetrazoliumSalt | 97.265 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
2 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 7.8 | MTT | TetrazoliumSalt | 108.73 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
3 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 15.6 | MTT | TetrazoliumSalt | 98.451 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
4 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 31.2 | MTT | TetrazoliumSalt | 98.056 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
5 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 62.5 | MTT | TetrazoliumSalt | 100.43 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
6 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 125 | MTT | TetrazoliumSalt | 95.881 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
7 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 250 | MTT | TetrazoliumSalt | 79.473 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
8 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 500 | MTT | TetrazoliumSalt | 94.893 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
9 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 12 | 1,000 | MTT | TetrazoliumSalt | 79.275 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
10 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 1.95 | MTT | TetrazoliumSalt | 105.21 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
11 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 3.9 | MTT | TetrazoliumSalt | 120.85 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
12 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 7.8 | MTT | TetrazoliumSalt | 117.25 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
13 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 15.6 | MTT | TetrazoliumSalt | 106.06 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
14 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 31.2 | MTT | TetrazoliumSalt | 84.93 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
15 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 62.5 | MTT | TetrazoliumSalt | 96.127 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
16 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 125 | MTT | TetrazoliumSalt | 94.225 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
17 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 250 | MTT | TetrazoliumSalt | 103.94 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
18 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 500 | MTT | TetrazoliumSalt | 79.014 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
19 | SiO2 | Sphere | CTAB | Precipitation | Negative | 90.09 | null | 5,000 | A | Rat | null | null | null | 24 | 1,000 | MTT | TetrazoliumSalt | 63.803 | 10.3109/15376516.2015.1070229 | 1 | null | 386.9 | -35.9 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
20 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 1.95 | MTT | TetrazoliumSalt | 97.463 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
21 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 3.9 | MTT | TetrazoliumSalt | 95.486 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
22 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 7.8 | MTT | TetrazoliumSalt | 89.951 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
23 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 15.6 | MTT | TetrazoliumSalt | 105.96 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
24 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 31.2 | MTT | TetrazoliumSalt | 95.091 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
25 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 62.5 | MTT | TetrazoliumSalt | 96.474 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
26 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 125 | MTT | TetrazoliumSalt | 94.3 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
27 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 250 | MTT | TetrazoliumSalt | 72.356 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
28 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 500 | MTT | TetrazoliumSalt | 70.774 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
29 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 12 | 1,000 | MTT | TetrazoliumSalt | 71.763 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
30 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 1.95 | MTT | TetrazoliumSalt | 103.52 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
31 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 3.9 | MTT | TetrazoliumSalt | 96.761 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
32 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 7.8 | MTT | TetrazoliumSalt | 109.86 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
33 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 15.6 | MTT | TetrazoliumSalt | 122.75 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
34 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 31.2 | MTT | TetrazoliumSalt | 104.58 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
35 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 62.5 | MTT | TetrazoliumSalt | 118.73 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
36 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 125 | MTT | TetrazoliumSalt | 94.648 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
37 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 250 | MTT | TetrazoliumSalt | 103.1 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
38 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 500 | MTT | TetrazoliumSalt | 105.63 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
39 | SiO2 | Sphere | Ph | Precipitation | Negative | 135.83 | null | 5,000 | A | Rat | null | null | null | 24 | 1,000 | MTT | TetrazoliumSalt | 80.493 | 10.3109/15376516.2015.1070229 | 1 | null | 375.4 | -26.8 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
40 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 1.95 | MTT | TetrazoliumSalt | 120 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
41 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 3.9 | MTT | TetrazoliumSalt | 119.41 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
42 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 7.8 | MTT | TetrazoliumSalt | 109.52 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
43 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 15.6 | MTT | TetrazoliumSalt | 111.3 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
44 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 31.2 | MTT | TetrazoliumSalt | 114.86 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
45 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 62.5 | MTT | TetrazoliumSalt | 116.05 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
46 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 125 | MTT | TetrazoliumSalt | 106.95 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
47 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 250 | MTT | TetrazoliumSalt | 73.74 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
48 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 500 | MTT | TetrazoliumSalt | 93.904 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
49 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 12 | 1,000 | MTT | TetrazoliumSalt | 76.31 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
50 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 1.95 | MTT | TetrazoliumSalt | 104.15 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
51 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 3.9 | MTT | TetrazoliumSalt | 102.89 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
52 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 7.8 | MTT | TetrazoliumSalt | 102.04 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
53 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 15.6 | MTT | TetrazoliumSalt | 94.225 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
54 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 31.2 | MTT | TetrazoliumSalt | 90.423 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
55 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 62.5 | MTT | TetrazoliumSalt | 91.056 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
56 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 125 | MTT | TetrazoliumSalt | 100.77 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
57 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 250 | MTT | TetrazoliumSalt | 96.761 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
58 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 500 | MTT | TetrazoliumSalt | 103.94 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
59 | SiO2 | Sphere | NH2 | Precipitation | Positive | 142.11 | null | 5,000 | A | Rat | null | null | null | 24 | 1,000 | MTT | TetrazoliumSalt | 85.775 | 10.3109/15376516.2015.1070229 | 1 | null | 437 | 21.7 | PC12 | Toxicology Mechanisms and Methods | Taylor & Francis | 2,015 | Effect of mesoporous silica nanoparticles on cell viability and markers of oxidative stress | false | FASLE | hybrid | 1_10.3109@15376516.2015.1070229.pdf | 0 |
60 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 1 | CellTiterBlue | AlamarBlue | 107.59 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
61 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 10 | CellTiterBlue | AlamarBlue | 100.81 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
62 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 100 | CellTiterBlue | AlamarBlue | 70.11 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
63 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 1,000 | CellTiterBlue | AlamarBlue | 22.617 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
64 | SiO2 | null | null | Commercial | null | 10 | null | null | A | Mouse | null | null | null | 24 | 1 | XTT | TetrazoliumSalt | 123.42 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
65 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 10 | XTT | TetrazoliumSalt | 114.38 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
66 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 100 | XTT | TetrazoliumSalt | 82.714 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
67 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 1,000 | XTT | TetrazoliumSalt | 25.525 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
68 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 1 | LDH | LDHrelease | 4.5234 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
69 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 2,600 | A | Mouse | null | null | null | 24 | 10 | LDH | LDHrelease | 6.1389 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
70 | SiO2 | null | null | Commercial | null | 10 | null | null | A | Mouse | null | null | null | 24 | 100 | LDH | LDHrelease | 22.294 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
71 | SiO2 | null | null | Commercial | null | 10 | null | null | A | Mouse | null | null | null | 24 | 1,000 | LDH | LDHrelease | 69.467 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
72 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 6,000 | A | Mouse | null | null | null | 24 | 1 | Live/Dead | PropidiumIodide | 95.315 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
73 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 6,000 | A | Mouse | null | null | null | 24 | 10 | Live/Dead | PropidiumIodide | 86.268 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
74 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 6,000 | A | Mouse | null | null | null | 24 | 100 | Live/Dead | PropidiumIodide | 69.467 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
75 | SiO2 | null | null | Commercial | null | 10 | null | null | A | Mouse | null | null | null | 24 | 1,000 | Live/Dead | PropidiumIodide | 9.6931 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
76 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 6,000 | A | Mouse | null | null | null | 24 | 1 | Live/Dead | CalceinAM | 94.023 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
77 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 6,000 | A | Mouse | null | null | null | 24 | 10 | Live/Dead | CalceinAM | 91.761 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
78 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 6,000 | A | Mouse | null | null | null | 24 | 100 | Live/Dead | CalceinAM | 71.729 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
79 | SiO2 | Sphere | null | Commercial | Negative | 10 | null | 6,000 | A | Mouse | null | null | null | 24 | 1,000 | Live/Dead | CalceinAM | 44.265 | 10.5402/2012/454072 | 2 | null | 10 | -27 | RAW264.7 | ISRN Nanotechnology | Hindawi Limited | 2,012 | Evaluation of Viability and Proliferation Profiles on Macrophages Treated with Silica Nanoparticles <i>In Vitro</i> via Plate-Based, Flow Cytometry, and Coulter Counter Assays | true | TRUE | gold | 2_International Scholarly Research Notices - 2012 - Bancos - Evaluation of Viability and Proliferation Profiles on.pdf | 1 |
92 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 100 | MTT | TetrazoliumSalt | 102 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | VERO | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
93 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 200 | MTT | TetrazoliumSalt | 105.08 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | VERO | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
94 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 300 | MTT | TetrazoliumSalt | 100 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | VERO | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
95 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 400 | MTT | TetrazoliumSalt | 100 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | VERO | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
96 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 500 | MTT | TetrazoliumSalt | 80 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | VERO | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
97 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 100 | MTT | TetrazoliumSalt | 101.97 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
98 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 200 | MTT | TetrazoliumSalt | 115.09 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
99 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 300 | MTT | TetrazoliumSalt | 115.09 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
100 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 400 | MTT | TetrazoliumSalt | 100.1 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
101 | Fe3O4 | Sphere | Dextran | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 500 | MTT | TetrazoliumSalt | 118.08 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
102 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 100 | MTT | TetrazoliumSalt | 80 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
103 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 200 | MTT | TetrazoliumSalt | 75.077 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
104 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 300 | MTT | TetrazoliumSalt | 50 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
105 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 400 | MTT | TetrazoliumSalt | 38 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
106 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 500 | MTT | TetrazoliumSalt | 34.923 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
107 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 100 | MTT | TetrazoliumSalt | 89.986 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
108 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 200 | MTT | TetrazoliumSalt | 80.245 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
109 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 300 | MTT | TetrazoliumSalt | 31.916 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
110 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 400 | MTT | TetrazoliumSalt | 30.043 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
111 | Fe3O4 | Sphere | PEG | Thermal Decomposition | null | null | null | 10,000 | A | null | null | null | null | 24 | 500 | MTT | TetrazoliumSalt | 30.043 | 10.1002/jbm.b.33068 | 3 | null | 18 | null | MDCK | Journal of Biomedical Materials Research Part B: Applied Biomaterials | Wiley | 2,014 | <i>In vitro</i> and <i>in vivo</i> experiments with iron oxide nanoparticles functionalized with DEXTRAN or polyethylene glycol for medical applications: Magnetic targeting | false | TRUE | green | 3_mojicapisciotti2014.pdf | 1 |
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Information about the dataset is detailed in the documentation:
https://ai-chem.github.io/ChemX/overview/datasets_description.html
You can find the Croissant file in our GitHub repository:
https://github.com/ai-chem/ChemX/tree/main/datasets/croissants
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