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 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
3,748 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 5 |
MTT
|
TetrazoliumSalt
| 79.262 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,749 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 10 |
MTT
|
TetrazoliumSalt
| 58.779 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,750 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 25 |
MTT
|
TetrazoliumSalt
| 43.13 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,751 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 50 |
MTT
|
TetrazoliumSalt
| 20.229 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,752 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 100 |
MTT
|
TetrazoliumSalt
| 11.196 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,753 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 1 |
MTT
|
TetrazoliumSalt
| 93.13 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,754 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 2 |
MTT
|
TetrazoliumSalt
| 75.064 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,755 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 5 |
MTT
|
TetrazoliumSalt
| 70.483 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,756 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 10 |
MTT
|
TetrazoliumSalt
| 48.219 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,757 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 25 |
MTT
|
TetrazoliumSalt
| 33.461 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,758 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 50 |
MTT
|
TetrazoliumSalt
| 16.031 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,759 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 100 |
MTT
|
TetrazoliumSalt
| 8.7786 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,760 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 1 |
NRU
|
NeutralRed
| 98.588 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,761 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 2 |
NRU
|
NeutralRed
| 84.339 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,762 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 5 |
NRU
|
NeutralRed
| 69.576 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,763 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 10 |
NRU
|
NeutralRed
| 53.017 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,764 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 25 |
NRU
|
NeutralRed
| 38.768 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,765 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 50 |
NRU
|
NeutralRed
| 25.546 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,766 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Cervix
|
Epithelial
|
Adult
| 24 | 100 |
NRU
|
NeutralRed
| 15.661 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
HEp-2
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,767 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 1 |
NRU
|
NeutralRed
| 94.095 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,768 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 2 |
NRU
|
NeutralRed
| 77.535 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,769 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 5 |
NRU
|
NeutralRed
| 58.28 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,770 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 10 |
NRU
|
NeutralRed
| 44.673 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,771 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 25 |
NRU
|
NeutralRed
| 33.761 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,772 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 50 |
NRU
|
NeutralRed
| 20.796 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,773 |
NiO
|
Sphere
| null |
Commercial
| null | 151 | null | 10,000 |
H
|
Human
|
Breast
|
Epithelial
|
Adult
| 24 | 100 |
NRU
|
NeutralRed
| 13.992 |
10.1016/j.fct.2012.01.017
| 117 | null | 22 | null |
MCF-7
|
Food and Chemical Toxicology
|
Elsevier BV
| 2,012 |
Nickel oxide nanoparticles induce cytotoxicity, oxidative stress and apoptosis in cultured human cells that is abrogated by the dietary antioxidant curcumin
| false |
FALSE
|
closed
|
117_siddiqui2012.pdf
| 0 |
3,774 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 0.5 |
CCK-8
| null | 109.73 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,775 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 1 |
CCK-8
| null | 103.7 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,776 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 5 |
CCK-8
| null | 97.86 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,777 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 20 |
CCK-8
| null | 84.241 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,778 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 30 |
CCK-8
| null | 56.42 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,779 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 40 |
CCK-8
| null | 19.844 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,780 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 50 |
CCK-8
| null | 4.2802 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,781 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 100 |
CCK-8
| null | 3.3074 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,782 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 0.5 |
CCK-8
| null | 104.67 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,783 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 1 |
CCK-8
| null | 101.36 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,784 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 5 |
CCK-8
| null | 65.564 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,785 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 20 |
CCK-8
| null | 27.821 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,786 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 30 |
CCK-8
| null | 2.9183 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,787 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 40 |
CCK-8
| null | 2.5292 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,788 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 50 |
CCK-8
| null | 1.1673 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,789 |
CuO
|
Sphere
| null |
Commercial
|
Negative
| 185.2 | -7.05 | 5,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 100 |
CCK-8
| null | 0.7782 |
10.1021/tx3002093
| 118 | null | 30 | -29.1 |
A549
|
Chemical Research in Toxicology
|
American Chemical Society (ACS)
| 2,012 |
CuO Nanoparticle Interaction with Human Epithelial Cells: Cellular Uptake, Location, Export, and Genotoxicity
| false |
FALSE
|
closed
|
118_wang2012.pdf
| 0 |
3,790 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
PropidiumIodide
| 89.744 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,791 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
PropidiumIodide
| 85.755 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,792 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
PropidiumIodide
| 7.9772 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,793 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 1,000 |
Live/Dead
|
PropidiumIodide
| 9.6866 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,794 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 146.1 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
PropidiumIodide
| 100.28 |
10.2147/ijn.s72580
| 119 | null | 4.7 | -57.5 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,795 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 146.1 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
PropidiumIodide
| 98.86 |
10.2147/ijn.s72580
| 119 | null | 4.7 | -57.5 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,796 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 146.1 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
PropidiumIodide
| 53.561 |
10.2147/ijn.s72580
| 119 | null | 4.7 | -57.5 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,797 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
PropidiumIodide
| 100.28 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,798 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
PropidiumIodide
| 89.744 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,799 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
PropidiumIodide
| 25.926 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,800 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 1,000 |
Live/Dead
|
PropidiumIodide
| 23.077 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,801 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
PropidiumIodide
| 93.162 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,802 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
PropidiumIodide
| 94.872 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,803 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
PropidiumIodide
| 94.872 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,804 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 1,000 |
Live/Dead
|
PropidiumIodide
| 88.604 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,805 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
CalceinAM
| 86.005 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,806 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
CalceinAM
| 84.224 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,807 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
CalceinAM
| 14.249 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,808 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 27.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 1,000 |
Live/Dead
|
CalceinAM
| 7.888 |
10.2147/ijn.s72580
| 119 | null | 9 | -26.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,809 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 146.1 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
CalceinAM
| 100.25 |
10.2147/ijn.s72580
| 119 | null | 4.7 | -57.5 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,810 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 146.1 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
CalceinAM
| 82.952 |
10.2147/ijn.s72580
| 119 | null | 4.7 | -57.5 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,811 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 146.1 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
CalceinAM
| 68.957 |
10.2147/ijn.s72580
| 119 | null | 4.7 | -57.5 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,812 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
CalceinAM
| 98.982 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,813 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
CalceinAM
| 82.952 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,814 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
CalceinAM
| 27.481 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,815 |
SiO2
|
Sphere
| null |
Commercial
|
Negative
| 14.3 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 1,000 |
Live/Dead
|
CalceinAM
| 10.941 |
10.2147/ijn.s72580
| 119 | null | 280 | -73.8 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,816 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 5 |
Live/Dead
|
CalceinAM
| 93.893 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,817 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 10 |
Live/Dead
|
CalceinAM
| 86.005 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,818 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 100 |
Live/Dead
|
CalceinAM
| 79.644 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,819 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 167.2 | null | 6,000 |
A
|
Mouse
|
Ascites
|
Monocyte/Macrophage
|
Adult
| 48 | 1,000 |
Live/Dead
|
CalceinAM
| 52.672 |
10.2147/ijn.s72580
| 119 | null | 270 | -45.96 |
RAW264.7
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,014 |
Effect of silica and gold nanoparticles on macrophage proliferation, activation markers, cytokine production, and phagocytosis in vitro
| true |
TRUE
|
green
|
119_tyner2014.pdf
| 1 |
3,895 |
CaHCO3
|
Rod
| null |
Precipitation
|
Negative
| null | -11.7 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 50 |
MTT
|
TetrazoliumSalt
| 95.017 |
10.1088/0957-4484/22/10/105708
| 120 | null | 20 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,896 |
CaHCO3
|
Rod
| null |
Precipitation
|
Negative
| null | -11.7 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 100 |
MTT
|
TetrazoliumSalt
| 99.336 |
10.1088/0957-4484/22/10/105708
| 120 | null | 20 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,897 |
CaHCO3
|
Rod
| null |
Precipitation
|
Negative
| null | -11.7 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 500 |
MTT
|
TetrazoliumSalt
| 81.063 |
10.1088/0957-4484/22/10/105708
| 120 | null | 20 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,898 |
CaHCO3
|
Rod
| null |
Precipitation
|
Negative
| null | -11.7 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 1,000 |
MTT
|
TetrazoliumSalt
| 87.043 |
10.1088/0957-4484/22/10/105708
| 120 | null | 20 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,899 |
CaHCO3
|
Rod
|
NH2
|
Precipitation
|
Positive
| null | 48.6 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 1,000 |
MTT
|
TetrazoliumSalt
| 196.68 |
10.1088/0957-4484/22/10/105708
| 120 | null | 20 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,900 |
CaHCO3
|
Rod
|
COOH
|
Precipitation
|
Negative
| null | -28.3 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 1,000 |
MTT
|
TetrazoliumSalt
| 88.704 |
10.1088/0957-4484/22/10/105708
| 120 | null | 20 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,901 |
CaHCO3
|
Rod
|
CH3
|
Precipitation
|
Negative
| null | -11.4 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 1,000 |
MTT
|
TetrazoliumSalt
| 92.359 |
10.1088/0957-4484/22/10/105708
| 120 | null | 50 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,902 |
CaHCO3
|
Rod
| null |
Precipitation
|
Negative
| null | -11.7 | 10,000 |
A
|
Mouse
|
Bone
|
Osteoblast
|
Adult
| 72 | 1,000 |
MTT
|
TetrazoliumSalt
| 98.339 |
10.1088/0957-4484/22/10/105708
| 120 | null | 20 | null |
MC3T3-E1
|
Nanotechnology
|
IOP Publishing
| 2,011 |
The role of surface charge on the uptake and biocompatibility of hydroxyapatite nanoparticles with osteoblast cells
| false |
TRUE
|
green
|
120_chen2011.pdf
| 1 |
3,903 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 0.5 |
MTT
|
TetrazoliumSalt
| 102.52 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,904 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 5 |
MTT
|
TetrazoliumSalt
| 87.815 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,905 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 10 |
MTT
|
TetrazoliumSalt
| 79.503 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,906 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 25 |
MTT
|
TetrazoliumSalt
| 73.748 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,907 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 50 |
MTT
|
TetrazoliumSalt
| 39.645 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,908 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 75 |
MTT
|
TetrazoliumSalt
| 14.494 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,909 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 100 |
MTT
|
TetrazoliumSalt
| 14.92 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,910 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 48 | 0.5 |
MTT
|
TetrazoliumSalt
| 102.52 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,911 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 48 | 5 |
MTT
|
TetrazoliumSalt
| 96.128 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,912 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 48 | 10 |
MTT
|
TetrazoliumSalt
| 85.258 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,913 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 48 | 25 |
MTT
|
TetrazoliumSalt
| 73.108 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,914 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 48 | 50 |
MTT
|
TetrazoliumSalt
| 35.169 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,915 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 48 | 75 |
MTT
|
TetrazoliumSalt
| 6.1812 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,916 |
Ag
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 64.8 | -8.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 48 | 100 |
MTT
|
TetrazoliumSalt
| 7.8863 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.1 | -42.7 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,917 |
Ag
|
Sphere
|
PEG
|
Commercial
|
Negative
| 57.7 | -6.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 0.5 |
MTT
|
TetrazoliumSalt
| 107.48 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.7 | -12.1 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,918 |
Ag
|
Sphere
|
PEG
|
Commercial
|
Negative
| 57.7 | -6.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 5 |
MTT
|
TetrazoliumSalt
| 100.62 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.7 | -12.1 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,919 |
Ag
|
Sphere
|
PEG
|
Commercial
|
Negative
| 57.7 | -6.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 10 |
MTT
|
TetrazoliumSalt
| 101.25 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.7 | -12.1 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,920 |
Ag
|
Sphere
|
PEG
|
Commercial
|
Negative
| 57.7 | -6.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 25 |
MTT
|
TetrazoliumSalt
| 97.921 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.7 | -12.1 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,921 |
Ag
|
Sphere
|
PEG
|
Commercial
|
Negative
| 57.7 | -6.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 50 |
MTT
|
TetrazoliumSalt
| 99.792 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.7 | -12.1 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
3,922 |
Ag
|
Sphere
|
PEG
|
Commercial
|
Negative
| 57.7 | -6.5 | null |
H
|
Human
|
Skin
|
Keratinocyte
|
Adult
| 24 | 75 |
MTT
|
TetrazoliumSalt
| 111.64 |
10.1016/j.toxlet.2016.03.005
| 121 | null | 27.7 | -12.1 |
HaCat
|
Toxicology Letters
|
Elsevier BV
| 2,016 |
The influence of Citrate or PEG coating on silver nanoparticle toxicity to a human keratinocyte cell line
| false |
FALSE
|
closed
|
121_bastos2016.pdf
| 0 |
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