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lists.json
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{"lists": [
{
"reference": {
"reference id": {
"SHA-256": "75ec3968ccf87d4a5cc07189ab4f688f9fab032f2d54e9899aacb4389a818962",
"type": "DOI",
"URL": "https://doi.org/10.1021/acsnano.5b03496"
},
"title": "Where Are We Heading in Nanotechnology Environmental Health and Safety and Materials Characterization?"
},
"maturity indicators": [
{
"name": "The bandgap in semiconductor particles is reported by the nano toxicity study",
"variable": "bandgap",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EMERGENT_BANDGAP_SEMINCONDUCTOR.md"
},
{
"name": "The nanomaterial's catalytic effect is reported by the nano toxicity study",
"variable": "catalytic effect",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EMERGENT_CATALYTIC_EFFECTS.md"
},
{
"name": "The presence of cationic particles with a proton sponge effect is reported by the nano toxicity study",
"variable": "cationic particles with a proton sponge effect",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EMERGENT_CATION_SPONGE.md"
},
{
"name": "The nanomaterial's compartmentalized toxicity is reported by the nano toxicity study",
"variable": "compartmentalized toxicity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EMERGENT_COMPARTMENTALIZED_TOXICITY.md"
},
{
"name": "The long aspect ratio injury to lysosomes is reported by the nano toxicity study",
"variable": "long aspect ratio injury to lysosomes",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EMERGENT_LAR_LYSOSOMES.md"
},
{
"name": "The presence of silica siloxane rings and silanols is reported by the nano toxicity study",
"variable": "silica siloxane rings and silanols",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EMERGENT_SILOXANE_SILANOLS.md"
},
{
"name": "The nanomaterial's charge (electrophoretic mobility and zeta-potential) is reported by the nano toxicity study",
"variable": "charge",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EXTRINSIC_CHARGE.md"
},
{
"name": "The nanomaterial's corona is reported by the nano toxicity study",
"variable": "corona",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EXTRINSIC_CORONA.md"
},
{
"name": "The nanomaterial's dissolution is reported by the nano toxicity study",
"variable": "dissolution",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EXTRINSIC_DISSOLUTION.md"
},
{
"name": "The nanomaterial's sorption is reported by the nano toxicity study",
"variable": "sorption",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EXTRINSIC_SORPTION.md"
},
{
"name": "The nanomaterial's state of agglomeration is reported by the nano toxicity study",
"variable": "agglomeration state",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EXTRINSIC_STATE_OF_AGGLOMERATION.md"
},
{
"name": "The nanomaterial's surface reconstruction is reported by the nano toxicity study",
"variable": "surface reconstruction",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-EXTRINSIC_SURFACE_RECONSTRUCTION.md"
},
{
"name": "The nanomaterial's chemical composition is reported by the nano toxicity study",
"variable": "chemical composition",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-INTRINSIC_CHEMICAL_COMPOSITION.md"
},
{
"name": "The nanomaterial's crystallinity (crystal structure) is reported by the nano toxicity study",
"variable": "crystallinity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-INTRINSIC_CRYSTALLINITY.md"
},
{
"name": "The nanomaterial's purity is reported by the nano toxicity study",
"variable": "purity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-INTRINSIC_PURITY.md"
},
{
"name": "The nanomaterial's shape is reported by the nano toxicity study",
"variable": "shape",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-INTRINSIC_SHAPE.md"
},
{
"name": "The nanomaterial's size distribution is reported by the nano toxicity study",
"variable": "size distribution",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-INTRINSIC_SIZE_DISTRIBUTION.md"
},
{
"name": "The nanomaterial's surface area is reported by the nano toxicity study",
"variable": "surface area",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-INTRINSIC_SURFACE_AREA.md"
},
{
"name": "The nanomaterial's surface coatings is reported by the nano toxicity study",
"variable": "surface coatings",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/01-75ec3968cc/MI-R1.3-75ec3968cc-INTRINSIC_SURFACE_COATINGS.md"
}
],
"id": "75ec3968cc",
"title": "Nanomaterial properties contributing to hazard"
},
{
"reference": {
"reference id": {
"SHA-256": "649848907b45d263f45d575956387ac4d87cba2720364ebfdeb75d660b4bed5e",
"type": "DOI",
"URL": "https://doi.org/10.1039/C6EN00136J"
},
"title": "Guidance to improve the scientific value of zeta potential measurements in nanoEHS"
},
"maturity indicators": [
{
"name": "The Electrophoretic mobility is reported by the nano toxicity study",
"variable": "electrophoretic mobility",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-EP_MOBILITY.md"
},
{
"name": "The number of measurements made and averaged to determine each zeta-potential is reported by the nano toxicity study",
"variable": "number of measurements",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEASUREMENT_NUMBER.md"
},
{
"name": "The total number of replicate measurements is reported by the nano toxicity study",
"variable": "number of replicates",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEASUREMENT_REPLICATES.md"
},
{
"name": "The observed trends in replicate measurements is reported by the nano toxicity study",
"variable": "observed trends",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEASUREMENT_TRENDS.md"
},
{
"name": "The measurement parameter \"applied voltage\" is reported by the nano toxicity study",
"variable": "applied voltage",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEASUREMENT_VOLTAGE.md"
},
{
"name": "The media dependent factor \"ionic composition\" is reported by the nano toxicity study",
"variable": "media ionic composition",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_IONIC_COMPOSITION.md"
},
{
"name": "The media dependent factor \"ionic strength\" is reported by the nano toxicity study",
"variable": "media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_IONIC_STRENGTH.md"
},
{
"name": "Macromolecules/NOM present in the medium and their concentration are reported by the nano toxicity study",
"variable": "media macromolecules",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_MACROMOLECULES.md"
},
{
"name": "The nanomaterial concentration in the media is reported by the nano toxicity study",
"variable": "media nanomaterial concentration",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_NM_CONCENTRATION.md"
},
{
"name": "The pH of the media is reported by the nano toxicity study",
"variable": "media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_PH.md"
},
{
"name": "The media dependent factor \"conductance\" is reported by the nano toxicity study",
"variable": "media specific conductance",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_SPECIFIC_CONDUCTANCE.md"
},
{
"name": "The temperature of the media is reported by the nano toxicity study",
"variable": "media temperature",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_TEMPERATURE.md"
},
{
"name": "The viscosity of the media is reported by the nano toxicity study",
"variable": "media viscosity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MEDIA_VISCOSITY.md"
},
{
"name": "The model used to compute the zeta-potential is reported by the nano toxicity study",
"variable": "model",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-MODEL.md"
},
{
"name": "The composition is reported by the nano toxicity study",
"variable": "composition",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-NM_COMPOSITION.md"
},
{
"name": "The shape is reported by the nano toxicity study",
"variable": "shape",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-NM_SHAPE.md"
},
{
"name": "The size distribution is reported by the nano toxicity study",
"variable": "size distribution",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-NM_SIZE_DISTRIBUTION.md"
},
{
"name": "The surface functionalization is reported by the nano toxicity study",
"variable": "surface functionalization",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/02-649848907b/MI-R1.3-649848907b-NM_SURFACE_FUNCTIONALIZATION.md"
}
],
"id": "649848907b",
"title": "Values needed to interpret the meaning of the reported zeta-potential and maximize its utility for cross-comparison with other reported values."
},
{
"reference": {
"reference id": {
"SHA-256": "88b52fa7b80a4734a28814e926adc9f6d51bff9aa5cece8c779e06302dc621ea",
"type": "DOI",
"URL": "https://doi.org/10.3390/nano10102033"
},
"title": "Metadata Stewardship in Nanosafety Research: Community-Driven Organization of Metadata Schemas to Support FAIR NanoScience Data"
},
"maturity indicators": [
{
"name": "The agglomerate aspect ratio is reported by the nano toxicity study",
"variable": "agglomerate aspect ratio",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_ASPECT_RATIO.md"
},
{
"name": "The agglomerate effective density is reported by the nano toxicity study",
"variable": "agglomerate effective density",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_EFFECTIVE_DENSITY.md"
},
{
"name": "The agglomerate packing factor is reported by the nano toxicity study",
"variable": "agglomerate packing factor",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_PACKING_FACTOR.md"
},
{
"name": "The agglomerate packing method is reported by the nano toxicity study",
"variable": "agglomerate packing method",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_PACKING_METHOD.md"
},
{
"name": "The agglomerate polydispersity is reported by the nano toxicity study",
"variable": "agglomerate polydispersity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_POLYDISPERSITY.md"
},
{
"name": "The agglomerate shape is reported by the nano toxicity study",
"variable": "agglomerate shape",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_SHAPE.md"
},
{
"name": "The agglomerate size diameter is reported by the nano toxicity study",
"variable": "agglomerate size diameter",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_SIZE_DIAMETER.md"
},
{
"name": "The agglomerate size statistical measure is reported by the nano toxicity study",
"variable": "agglomerate size statistical measure",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_SIZE_MEASURE.md"
},
{
"name": "The agglomerate size determination method is reported by the nano toxicity study",
"variable": "agglomerate size determination method",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_SIZE_METHOD.md"
},
{
"name": "The agglomerate size qualifier is reported by the nano toxicity study",
"variable": "agglomerate size qualifier",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_SIZE_QUALIFIER.md"
},
{
"name": "The agglomerate stability is reported by the nano toxicity study",
"variable": "agglomerate stability",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-AGGLOMERATE_STABILITY.md"
},
{
"name": "The experiment administrated dose is reported by the nano toxicity study",
"variable": "experiment administrated dose",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_ADMINISTRATED_DOSE.md"
},
{
"name": "The experiment delivered dose is reported by the nano toxicity study",
"variable": "experiment delivered dose",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_DELIVERED_DOSE.md"
},
{
"name": "The experiment dispersion protocol is reported by the nano toxicity study",
"variable": "experiment dispersion protocol",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_DISPERSION_PROTOCOL.md"
},
{
"name": "The experiment exposure time is reported by the nano toxicity study",
"variable": "experiment exposure time",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_EXPOSURE_TIME.md"
},
{
"name": "The experiment medium density is reported by the nano toxicity study",
"variable": "experiment medium density",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_MEDIUM_DENSITY.md"
},
{
"name": "The experiment medium dish depth is reported by the nano toxicity study",
"variable": "experiment medium dish depth",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_MEDIUM_DISH_DEPTH.md"
},
{
"name": "The experiment medium temprature is reported by the nano toxicity study",
"variable": "experiment medium temprature",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_MEDIUM_TEMPRATURE.md"
},
{
"name": "The experiment medium type is reported by the nano toxicity study",
"variable": "experiment medium type",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_MEDIUM_TYPE.md"
},
{
"name": "The experiment medium viscosity is reported by the nano toxicity study",
"variable": "experiment medium viscosity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_MEDIUM_VISCOSITY.md"
},
{
"name": "The experiment method is reported by the nano toxicity study",
"variable": "experiment method",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_METHOD.md"
},
{
"name": "The experiment model is reported by the nano toxicity study",
"variable": "experiment model",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_MODEL.md"
},
{
"name": "The experiment tool name is reported by the nano toxicity study",
"variable": "experiment tool name",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_TOOL_NAME.md"
},
{
"name": "The experiment tool reference is reported by the nano toxicity study",
"variable": "experiment tool reference",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_TOOL_REFERENCE.md"
},
{
"name": "The experiment tool version is reported by the nano toxicity study",
"variable": "experiment tool version",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-EXPERIMENT_TOOL_VERSION.md"
},
{
"name": "The primary particle aspect ratio is reported by the nano toxicity study",
"variable": "primary particle aspect ratio",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_ASPECT_RATIO.md"
},
{
"name": "The primary particle density is reported by the nano toxicity study",
"variable": "primary particle density",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_DENSITY.md"
},
{
"name": "The primary particle dissolution rate is reported by the nano toxicity study",
"variable": "primary particle dissolution rate",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_DISSOLUTION_RATE.md"
},
{
"name": "The primary particle polydispersity is reported by the nano toxicity study",
"variable": "primary particle polydispersity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_POLYDISPERSITY.md"
},
{
"name": "The primary particle porosity is reported by the nano toxicity study",
"variable": "primary particle porosity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_POROSITY.md"
},
{
"name": "The primary particle shape is reported by the nano toxicity study",
"variable": "primary particle shape",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_SHAPE.md"
},
{
"name": "The primary particle diameter is reported by the nano toxicity study",
"variable": "primary particle diameter",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_SIZE_DIAMETER.md"
},
{
"name": "The primary particle statistical measure is reported by the nano toxicity study",
"variable": "primary particle statistical measure",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_SIZE_MEASURE.md"
},
{
"name": "The primary particle size determination method is reported by the nano toxicity study",
"variable": "primary particle size determination method",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_SIZE_METHOD.md"
},
{
"name": "The primary particle size qualifier is reported by the nano toxicity study",
"variable": "primary particle size qualifier",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_SIZE_QUALIFIER.md"
},
{
"name": "The primary particle surface charge is reported by the nano toxicity study",
"variable": "primary particle surface charge",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_SURFACE_CHARGE.md"
},
{
"name": "The primary particle synthesis protocol is reported by the nano toxicity study",
"variable": "primary particle synthesis protocol",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/03-88b52fa7b8/MI-R1.3-88b52fa7b8-PARTICLE_SYNTHESIS_PROTOCOL.md"
}
],
"id": "88b52fa7b8",
"title": "Nano particle agglomeration-related metadata relevant for delivered dose (DD) assessment as a means to facilitate correct interpretation of in vitro bioassays and support data reuse."
},
{
"reference": {
"reference id": {
"SHA-256": "faf3eea67a301b71aebf1649079be72c6ed0e155a837d8117719f6cb5068b58c",
"type": "DOI",
"URL": "https://doi.org/10.3109/17435391003775266"
},
"title": "Minimal analytical characterization of engineered nanomaterials needed for hazard assessment in biological matrices"
},
"maturity indicators": [
{
"name": "The agglomerate size is reported by the nano toxicity study",
"variable": "agglomerate size",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_AGGLOMERATE_SIZE.md"
},
{
"name": "The aspect ratio is reported by the nano toxicity study",
"variable": "aspect ratio",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_ASPECT_RATIO.md"
},
{
"name": "The chemical composition is reported by the nano toxicity study",
"variable": "chemical composition",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_CHEMICAL_COMPOSITION.md"
},
{
"name": "The purity is reported by the nano toxicity study",
"variable": "purity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_PURITY.md"
},
{
"name": "The size distribution is reported by the nano toxicity study",
"variable": "size distribution",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_SIZE_DISTRIBUTION.md"
},
{
"name": "The solubility is reported by the nano toxicity study",
"variable": "solubility",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_SOLUBILITY.md"
},
{
"name": "The surface area is reported by the nano toxicity study",
"variable": "surface area",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_SURFACE_AREA.md"
},
{
"name": "The surface charge is reported by the nano toxicity study",
"variable": "surface charge",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_SURFACE_CHARGE.md"
},
{
"name": "The thermal stability is reported by the nano toxicity study",
"variable": "thermal stability",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_THERMAL_STABILITY.md"
},
{
"name": "The UV stability is reported by the nano toxicity study",
"variable": "UV stability",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/04-faf3eea67a/MI-R1.3-faf3eea67a-PCHEM_UV_STABILITY.md"
}
],
"id": "faf3eea67a",
"title": "Minimal characteristics and metrics recommended for every field of research investigating the health impact of nanomaterials and metrics."
},
{
"reference": {
"reference id": {
"SHA-256": "99c4a218fe0ef63bbf79734c283d79423c3c45970af1d561abb0b310ffd10cd9",
"type": "DOI",
"URL": "https://doi.org/10.1039/C9EN00448C"
},
"title": "Harmonizing Across Environmental Nanomaterial Testing Media for Increased Comparability of Nanomaterial Datasets"
},
"maturity indicators": [
{
"name": "The fluidity of the leaves (e.g. epicuticular wax) media (in air-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "leaves media fluidity",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-AS_LEAVES_MEDIA_FLUIDITY.md"
},
{
"name": "The pH of the leaves (e.g. epicuticular wax) media (in air-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "leaves media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-AS_LEAVES_MEDIA_PH.md"
},
{
"name": "The biological molecules (proteins) inthe simulated surface contact media (in air-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "simulated surface contact media proteins",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-AS_SSC_MEDIA_BIO_MOLECULES.md"
},
{
"name": "The ionic strength of the simulated surface contact media (in air-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "simulated surface contact media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-AS_SSC_MEDIA_IONIC_STRENGTH.md"
},
{
"name": "The pH of the simulated surface contact media (in air-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "simulated surface contact media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-AS_SSC_MEDIA_PH.md"
},
{
"name": "The usage of enzymes or other additived with the artificial lysosomal fluid media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "artificial lysosomal fluid media additives",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_ALF_MEDIA_ADDITIVES.md"
},
{
"name": "The ionic strength of the artificial lysosomal fluid media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "artificial lysosomal fluid media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_ALF_MEDIA_IONIC_STRENGTH.md"
},
{
"name": "The pH of the artificial lysosomal fluid media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "artificial lysosomal fluid media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_ALF_MEDIA_PH.md"
},
{
"name": "The DOC (Dissolved Organic Carbon) concentration inthe aquatic organism culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "aquatic organism media DOC",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_AQUA_MEDIA_DOC.md"
},
{
"name": "The ionic strength of the aquatic organism culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "aquatic organism media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_AQUA_MEDIA_IONIC_STRENGTH.md"
},
{
"name": "The major anions of the aquatic organism culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "aquatic organism media major anions",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_AQUA_MEDIA_MAJOR_ANIONS.md"
},
{
"name": "The major cations of the aquatic organism culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "aquatic organism media major cations",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_AQUA_MEDIA_MAJOR_CATIONS.md"
},
{
"name": "The pH of the aquatic organism culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "aquatic organism media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_AQUA_MEDIA_PH.md"
},
{
"name": "The ionic content of the mammalian culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "mammalian media ionic content",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MAM_MEDIA_IONIC_CONTENT.md"
},
{
"name": "The ionic strength of the mammalian culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "mammalian media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MAM_MEDIA_IONIC_STRENGTH.md"
},
{
"name": "The pH of the mammalian culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "mammalian media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MAM_MEDIA_PH.md"
},
{
"name": "The serum of the mammalian culture media (in liquid-surface exposure scenarios) status (heat activated or not) is reported by the nano toxicity study",
"variable": "mammalian media serum heat inactivated",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MAM_MEDIA_SERUM_HEAT_INACTIVATED.md"
},
{
"name": "The serum percentage of the mammalian culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "mammalian media serum percentage",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MAM_MEDIA_SERUM_PERCENTAGE.md"
},
{
"name": "The serum source of the mammalian culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "mammalian media serum source",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MAM_MEDIA_SERUM_SOURCE.md"
},
{
"name": "The ionic strength of the microbial culture media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "microbial media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MICROBIAL_MEDIA_IONIC_STRENGTH.md"
},
{
"name": "The pH of the microbial media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "microbial media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_MICROBIAL_MEDIA_PH.md"
},
{
"name": "The ionic strength of the plant transport mimics media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "plant transport mimics media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_PTM_MEDIA_IONIC_STRENGTH.md"
},
{
"name": "The pH of the plant transport mimics media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "plant transport mimics media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_PTM_MEDIA_PH.md"
},
{
"name": "The water extractable elements (Si, Ca, Mg, Fe, Al, Mn) of the rhizosomal system (in liquid-surface exposure scenarios) is reported by the nano toxicity study.",
"variable": "rhizosomal system extractable elements",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_RHIZOSOMAL_EXTRACTABLE_ELEMENTS.md"
},
{
"name": "The redox potential of the rhizosomal system (in liquid-surface exposure scenarios) is reported by the nano toxicity study.",
"variable": "rhizosomal system redox potential",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_RHIZOSOMAL_REDOX_POTENTIAL.md"
},
{
"name": "The soil pH of the rhizosomal system (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "rhizosomal system soil pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_RHIZOSOMAL_SOIL_PH.md"
},
{
"name": "The specific conductance of the rhizosomal system (in liquid-surface exposure scenarios) is reported by the nano toxicity study.",
"variable": "rhizosomal system specific conductance",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_RHIZOSOMAL_SPECIFIC_CONDUCTANCE.md"
},
{
"name": "The texture of the rhizosomal system (in liquid-surface exposure scenarios) is reported by the nano toxicity study.",
"variable": "rhizosomal system texture",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_RHIZOSOMAL_TEXTURE.md"
},
{
"name": "The TOC (total organic carbon) of the rhizosomal system (in liquid-surface exposure scenarios) is reported by the nano toxicity study.",
"variable": "rhizosomal system TOC",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_RHIZOSOMAL_TOC.md"
},
{
"name": "The usage of enzymes or other additived with the simulated digestive fluids media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "simulated digestive fluids media additives",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_SDF_MEDIA_ADDITIVES.md"
},
{
"name": "The ionic strength of the simulated digestive fluids media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "simulated digestive fluids media ionic strength",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_SDF_MEDIA_IONIC_STRENGTH.md"
},
{
"name": "The pH of the simulated digestive fluids media (in liquid-surface exposure scenarios) is reported by the nano toxicity study",
"variable": "simulated digestive fluids media pH",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/05-99c4a218fe/MI-R1.3-99c4a218fe-LS_SDF_MEDIA_PH.md"
}
],
"id": "99c4a218fe",
"title": "Minimum set of parameters recommended for inter-study comparison of the fate and effects of nanomaterials in biological media."
},
{
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"type": "DOI",
"URL": "https://doi.org/10.1016/j.nantod.2019.06.004"
},
"title": "Best practice in reporting corona studies: minimum information about Nanomaterial Biocorona Experiments (MINBE)"
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"maturity indicators": [
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"name": "The aggregation state information is reported by the nano toxicity study",
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{
"name": "The collection approach information is reported by the nano toxicity study",
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{
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{
"name": "The dosimetrics information is reported by the nano toxicity study",
"variable": "dosimetrics",
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"variable": "surface chemistry",
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{
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{
"name": "The corona separation information is reported by the nano toxicity study",
"variable": "corona separation",
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{
"name": "The protein digestion information is reported by the nano toxicity study",
"variable": "protein digestion",
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{
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{
"name": "The fragmentation method information is reported by the nano toxicity study",
"variable": "fragmentation method",
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{
"name": "The injection volume information is reported by the nano toxicity study",
"variable": "injection volume",
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{
"name": "The LC column information is reported by the nano toxicity study",
"variable": "LC column",
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{
"name": "The LC gradient information is reported by the nano toxicity study",
"variable": "LC gradient",
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{
"name": "The LC platform information is reported by the nano toxicity study",
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{
"name": "The LC solvents information is reported by the nano toxicity study",
"variable": "LC solvents",
"url": "https://github.com/ammar257ammar/NanoMaturityIndicators/blob/main/06-324358ad68/MI-R1.3-324358ad68-III-LC_SOLVENTS.md"
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{
"name": "The MS/MS platform information is reported by the nano toxicity study",
"variable": "MS/MS platform",
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{
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"variable": "MS source settings",
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{
"name": "The accession number is reported by the nano toxicity study",
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{
"name": "The database information is reported by the nano toxicity study",
"variable": "database",
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{
"name": "The protein identification confidence information is reported by the nano toxicity study",
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{
"name": "The quantification information is reported by the nano toxicity study",
"variable": "quantification",
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"title": "Reporting standards for corona characterization"
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{
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{
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{
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{
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},
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"title": "Minimum information for a safety data sheet (SDS) (section 9, nanomaterials physiochemical properties)"
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"title": "The Nanomaterial Registry: facilitating the sharing and analysis of data in the diverse nanomaterial community"
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{
"name": "The nanomaterial's shape is reported by the nano toxicity study",
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"title": "caLIBRAte nano risk governance quality criteria for data"
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"name": "The cell type is reported by the nano toxicity study",