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 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1,693 |
CuO
| null | null |
Commercial
|
Positive
| 214 | -10.5 | null |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 48 | 40 |
CellTiterBlue
|
AlamarBlue
| 7.1739 |
10.1186/s12989-016-0160-6
| 46 | null | 28.2 | 35.9 |
A549
|
Particle and Fibre Toxicology
|
Springer Science and Business Media LLC
| 2,015 |
Copper oxide nanoparticle toxicity profiling using untargeted metabolomics
| true |
TRUE
|
gold
|
46_boyles2015.pdf
| 1 |
1,694 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 2 |
MTS
| null | 95.629 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -4.23 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,695 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 5 |
MTS
| null | 86.713 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -4.23 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,696 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 10 |
MTS
| null | 78.322 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -4.23 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,697 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 20 |
MTS
| null | 67.308 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -4.23 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,698 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 50 |
MTS
| null | 56.294 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -4.23 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,699 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 2 |
MTS
| null | 98.776 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.85 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,700 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 5 |
MTS
| null | 94.755 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.85 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,701 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 10 |
MTS
| null | 88.462 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.85 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,702 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 20 |
MTS
| null | 81.993 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.85 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,703 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.87 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 50 |
MTS
| null | 67.133 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.85 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,704 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.82 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 2 |
MTS
| null | 100.7 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.36 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,705 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.82 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 5 |
MTS
| null | 97.727 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.36 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,706 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.82 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 10 |
MTS
| null | 88.462 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.36 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,707 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.82 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 20 |
MTS
| null | 83.042 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.36 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,708 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.82 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 50 |
MTS
| null | 73.427 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 30 | -3.36 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,709 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.32 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 2 |
MTS
| null | 98.427 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 50 | -2.49 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,710 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.32 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 5 |
MTS
| null | 97.028 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 50 | -2.49 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,711 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.32 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 10 |
MTS
| null | 90.385 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 50 | -2.49 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,712 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.32 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 20 |
MTS
| null | 88.986 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 50 | -2.49 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,713 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.32 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 50 |
MTS
| null | 76.224 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 50 | -2.49 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,714 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.25 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 2 |
MTS
| null | 102.1 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 100 | -1.46 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,715 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.25 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 5 |
MTS
| null | 103.67 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 100 | -1.46 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,716 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.25 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 10 |
MTS
| null | 102.8 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 100 | -1.46 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,717 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.25 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 20 |
MTS
| null | 99.65 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 100 | -1.46 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,718 |
Ag
|
Wire
| null |
Commercial
|
Negative
| null | -0.25 | 10,000 |
A
|
Mouse
| null |
Macrophage
| null | 24 | 50 |
MTS
| null | 76.399 |
10.1016/j.chemosphere.2019.124565
| 47 | null | 100 | -1.46 |
J774A.1
|
Chemosphere
|
Elsevier BV
| 2,019 |
Length and diameter-dependent phagocytosis and cytotoxicity of long silver nanowires in macrophages
| false |
FALSE
|
closed
|
47_wang2019.pdf
| 0 |
1,719 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 50 |
MTT
|
TetrazoliumSalt
| 91.667 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,720 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 100 |
MTT
|
TetrazoliumSalt
| 91.27 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,721 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 200 |
MTT
|
TetrazoliumSalt
| 86.111 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,722 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 500 |
MTT
|
TetrazoliumSalt
| 83.333 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,723 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 50 |
MTT
|
TetrazoliumSalt
| 89.431 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,724 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 100 |
MTT
|
TetrazoliumSalt
| 81.707 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,725 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 200 |
MTT
|
TetrazoliumSalt
| 81.03 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,726 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 96 | 500 |
MTT
|
TetrazoliumSalt
| 84.959 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A549
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,727 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Ovary
|
Epithelial
|
Adult
| 96 | 50 |
MTT
|
TetrazoliumSalt
| 81.081 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,728 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Ovary
|
Epithelial
|
Adult
| 96 | 100 |
MTT
|
TetrazoliumSalt
| 83.499 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,729 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
| null | null | null | 96 | 200 |
MTT
|
TetrazoliumSalt
| 84.637 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,730 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
| null | null | null | 96 | 500 |
MTT
|
TetrazoliumSalt
| 82.646 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,731 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
| null | null | null | 96 | 50 |
MTT
|
TetrazoliumSalt
| 90.15 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,732 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
| null | null | null | 96 | 100 |
MTT
|
TetrazoliumSalt
| 89.33 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,733 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
| null | null | null | 96 | 200 |
MTT
|
TetrazoliumSalt
| 85.226 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,734 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
| null | null | null | 96 | 500 |
MTT
|
TetrazoliumSalt
| 82.216 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
A2780
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,735 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 50 |
MTT
|
TetrazoliumSalt
| 88.514 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,736 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 100 |
MTT
|
TetrazoliumSalt
| 86.892 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,737 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 200 |
MTT
|
TetrazoliumSalt
| 83.378 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,738 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 500 |
MTT
|
TetrazoliumSalt
| 82.973 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -5.21 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,739 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 50 |
MTT
|
TetrazoliumSalt
| 96.138 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,740 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 100 |
MTT
|
TetrazoliumSalt
| 90.013 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,741 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 200 |
MTT
|
TetrazoliumSalt
| 90.679 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,742 |
SiO2
|
Sphere
|
COOH
|
Soft Templating Method
|
Negative
| null | null | 10,000 |
H
|
Human
|
Breast
| null | null | 96 | 500 |
MTT
|
TetrazoliumSalt
| 82.157 |
10.1016/j.matdes.2019.108187
| 48 | null | 120 | -28.7 |
MCF-7
|
Materials & Design
|
Elsevier BV
| 2,019 |
Functionalised mesoporous silica nanoparticles with excellent cytotoxicity against various cancer cells for pH-responsive and controlled drug delivery
| true |
TRUE
|
gold
|
48_park2019.pdf
| 1 |
1,767 |
Fe3O4
|
Rod
|
Urea
|
Chemical Reduction
| null | null | null | 10,000 |
A
|
Mouse
|
SubcutaneousConnectiveTissue
|
Fibroblast
|
Adult
| 24 | 200 |
MTT
|
TetrazoliumSalt
| 55.577 |
10.1016/j.etp.2015.07.005
| 49 | null | 150 | null |
L929
|
Experimental and Toxicologic Pathology
|
Elsevier BV
| 2,015 |
Investigating the cytotoxicity of iron oxide nanoparticles in in vivo and in vitro studies
| false |
FALSE
|
closed
|
49_ghasempour2015.pdf
| 0 |
1,768 |
Fe3O4
|
Rod
|
Urea
|
Chemical Reduction
| null | null | null | 10,000 |
A
|
Mouse
|
SubcutaneousConnectiveTissue
|
Fibroblast
|
Adult
| 24 | 400 |
MTT
|
TetrazoliumSalt
| 72.401 |
10.1016/j.etp.2015.07.005
| 49 | null | 150 | null |
L929
|
Experimental and Toxicologic Pathology
|
Elsevier BV
| 2,015 |
Investigating the cytotoxicity of iron oxide nanoparticles in in vivo and in vitro studies
| false |
FALSE
|
closed
|
49_ghasempour2015.pdf
| 0 |
1,769 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 24 | 10 |
CCK-8
| null | 95 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,770 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 24 | 20 |
CCK-8
| null | 93 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,771 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 24 | 50 |
CCK-8
| null | 102.4 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,772 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 24 | 100 |
CCK-8
| null | 99 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,773 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 48 | 10 |
CCK-8
| null | 184.82 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,774 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 48 | 20 |
CCK-8
| null | 221.01 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,775 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 48 | 50 |
CCK-8
| null | 234.63 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,776 |
Fe3O4
|
Sphere
|
Dextran
|
Co-precipitation
|
Negative
| 60 | -11 | 150,000 |
H
|
Human
|
Blood
|
Monocyte
|
Adult
| 48 | 100 |
CCK-8
| null | 230.74 |
10.2147/ijn.s135189
| 50 | null | 7.5 | null |
Monocytes
|
International Journal of Nanomedicine
|
Dove Medical Press Ltd.
| 2,017 |
Iron oxide nanoparticles and induced autophagy in human monocytes
| true |
TRUE
|
green
|
50_wu2017.pdf
| 1 |
1,777 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| 61.8 | -25.4 | 6,000 |
H
|
Human
| null | null | null | 48 | 10 |
MTT
|
TetrazoliumSalt
| 98.63 |
10.1016/j.talanta.2013.01.037
| 51 | null | 55.6 | null |
HeLa
|
Talanta
|
Elsevier BV
| 2,013 |
Size-dependent cellular uptake efficiency, mechanism, and cytotoxicity of silica nanoparticles toward HeLa cells
| false |
FALSE
|
closed
|
51_zhu2013.pdf
| 0 |
1,778 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| 61.8 | -25.4 | 6,000 |
H
|
Human
| null | null | null | 48 | 100 |
MTT
|
TetrazoliumSalt
| 94.894 |
10.1016/j.talanta.2013.01.037
| 51 | null | 55.6 | null |
HeLa
|
Talanta
|
Elsevier BV
| 2,013 |
Size-dependent cellular uptake efficiency, mechanism, and cytotoxicity of silica nanoparticles toward HeLa cells
| false |
FALSE
|
closed
|
51_zhu2013.pdf
| 0 |
1,779 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| 164.2 | -24 | 6,000 |
H
|
Human
| null | null | null | 48 | 10 |
MTT
|
TetrazoliumSalt
| 95.641 |
10.1016/j.talanta.2013.01.037
| 51 | null | 167.8 | null |
HeLa
|
Talanta
|
Elsevier BV
| 2,013 |
Size-dependent cellular uptake efficiency, mechanism, and cytotoxicity of silica nanoparticles toward HeLa cells
| false |
FALSE
|
closed
|
51_zhu2013.pdf
| 0 |
1,780 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| 164.2 | -24 | 6,000 |
H
|
Human
| null | null | null | 48 | 100 |
MTT
|
TetrazoliumSalt
| 96.887 |
10.1016/j.talanta.2013.01.037
| 51 | null | 167.8 | null |
HeLa
|
Talanta
|
Elsevier BV
| 2,013 |
Size-dependent cellular uptake efficiency, mechanism, and cytotoxicity of silica nanoparticles toward HeLa cells
| false |
FALSE
|
closed
|
51_zhu2013.pdf
| 0 |
1,781 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| 342 | -27.3 | 6,000 |
H
|
Human
| null | null | null | 48 | 10 |
MTT
|
TetrazoliumSalt
| 94.894 |
10.1016/j.talanta.2013.01.037
| 51 | null | 307.6 | null |
HeLa
|
Talanta
|
Elsevier BV
| 2,013 |
Size-dependent cellular uptake efficiency, mechanism, and cytotoxicity of silica nanoparticles toward HeLa cells
| false |
FALSE
|
closed
|
51_zhu2013.pdf
| 0 |
1,782 |
SiO2
|
Sphere
| null |
Soft Templating Method
|
Negative
| 342 | -27.3 | 6,000 |
H
|
Human
| null | null | null | 48 | 100 |
MTT
|
TetrazoliumSalt
| 94.894 |
10.1016/j.talanta.2013.01.037
| 51 | null | 307.6 | null |
HeLa
|
Talanta
|
Elsevier BV
| 2,013 |
Size-dependent cellular uptake efficiency, mechanism, and cytotoxicity of silica nanoparticles toward HeLa cells
| false |
FALSE
|
closed
|
51_zhu2013.pdf
| 0 |
1,783 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 8 |
CCK-8
|
TetrazoliumSalt
| 101.67 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,784 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 16 |
CCK-8
|
TetrazoliumSalt
| 103.04 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,785 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 32 |
CCK-8
|
TetrazoliumSalt
| 103.04 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,786 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 64 |
CCK-8
|
TetrazoliumSalt
| 104.41 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,787 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 128 |
CCK-8
|
TetrazoliumSalt
| 101.67 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,788 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 256 |
CCK-8
|
TetrazoliumSalt
| 79.62 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,789 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 8 |
CCK-8
|
TetrazoliumSalt
| 101.06 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,790 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 16 |
CCK-8
|
TetrazoliumSalt
| 102.73 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,791 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 32 |
CCK-8
|
TetrazoliumSalt
| 103.64 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,792 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 64 |
CCK-8
|
TetrazoliumSalt
| 106.22 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,793 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 128 |
CCK-8
|
TetrazoliumSalt
| 72.989 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,794 |
SiO2
|
Sphere
| null |
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 256 |
CCK-8
|
TetrazoliumSalt
| 20.822 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -21.77 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,795 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 8 |
CCK-8
|
TetrazoliumSalt
| 98.928 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,796 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 16 |
CCK-8
|
TetrazoliumSalt
| 98.622 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,797 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 32 |
CCK-8
|
TetrazoliumSalt
| 97.243 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,798 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 64 |
CCK-8
|
TetrazoliumSalt
| 98.315 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,799 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
Lung
|
Epithelial
|
Adult
| 24 | 128 |
CCK-8
|
TetrazoliumSalt
| 98.622 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
A549
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,800 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 8 |
CCK-8
|
TetrazoliumSalt
| 93.539 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,801 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 16 |
CCK-8
|
TetrazoliumSalt
| 94.86 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,802 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 32 |
CCK-8
|
TetrazoliumSalt
| 95.448 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,803 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 64 |
CCK-8
|
TetrazoliumSalt
| 98.385 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,804 |
SiO2
|
Sphere
|
DPPC
|
Sol-Gel Method
|
Negative
| null | null | 40,000 |
H
|
Human
|
RespiratoryTract
|
Epithelial
|
Adult
| 24 | 128 |
CCK-8
|
TetrazoliumSalt
| 92.364 |
10.1016/j.ecoenv.2019.109770
| 52 | null | 19.4 | -13.5 |
16HBE
|
Ecotoxicology and Environmental Safety
|
Elsevier BV
| 2,019 |
Evaluation of in vitro toxicity of silica nanoparticles (NPs) to lung cells: Influence of cell types and pulmonary surfactant component DPPC
| false |
FALSE
|
closed
| 0 |
|
1,805 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 0.028 |
WST-1
|
TetrazoliumSalt
| 83.921 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,806 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 0.061 |
WST-1
|
TetrazoliumSalt
| 83.357 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,807 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 0.131 |
WST-1
|
TetrazoliumSalt
| 88.011 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,808 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 0.281 |
WST-1
|
TetrazoliumSalt
| 91.537 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,809 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 0.604 |
WST-1
|
TetrazoliumSalt
| 92.102 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,810 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 1.298 |
WST-1
|
TetrazoliumSalt
| 93.371 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,811 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 2.791 |
WST-1
|
TetrazoliumSalt
| 95.769 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,812 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 24 | 6 |
WST-1
|
TetrazoliumSalt
| 71.227 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,813 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 48 | 0.028 |
NRU
|
NeutralRed
| 99.577 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,814 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 48 | 0.061 |
NRU
|
NeutralRed
| 96.897 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,815 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 48 | 0.131 |
NRU
|
NeutralRed
| 95.769 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
|
1,816 |
Au
|
Sphere
|
Citrate
|
Commercial
|
Negative
| 48 | -7.7 | 2,000 |
A
|
Mouse
|
Embryo
|
Fibroblast
|
Embryonic
| 48 | 0.281 |
NRU
|
NeutralRed
| 97.884 |
10.1016/j.tiv.2016.09.012
| 53 | null | 13 | -60.7 |
BALB/c3T3
|
Toxicology in Vitro
|
Elsevier BV
| 2,016 |
The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes
| false |
FALSE
|
closed
| 0 |
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