{ "uuid": "FCSV-fe64d3f4-a889-3a69-b9f7-d8150979973c", "owner": { "substance": { "uuid": "FCSV-aab0ef77-8a71-36d7-9185-d2f76b9e3567" }, "company": { "uuid": "FCSV-319611c6-e7da-3977-a5ac-eb74d49a4319", "name": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv" } }, "citation": { "title": "Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles.csv", "year": "2014", "owner": null }, "protocol": { "topcategory": "P-CHEM", "category": { "code": "PC_GRANULOMETRY_SECTION", "term": "http://purl.obolibrary.org/obo/CHMO_0002119", "title": "4.5 Particle size distribution (Granulometry)" }, "endpoint": "DLS", "guideline": [ "doi: 10.1021/nn406018q" ] }, "parameters": { "DATA_GATHERING_INSTRUMENTS": "ZetaSizer Nano ZS (Malvern Instruments)", "Type of method": "DLS", "testmat_form": null }, "reliability": { "r_isRobustStudy": "false", "r_isUsedforClassification": "false", "r_isUsedforMSDS": "false", "r_purposeFlag": null, "r_studyResultType": "experimental result", "r_value": null }, "interpretation": { "result": null }, "effects": [ { "endpoint": "Z-Average Hydrodynamic Diameter", "conditions": { "MEDIUM": " ", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loQualifier": "mean", "loValue": 36.7, "errQualifier": "sd", "errorValue": 0.56 } }, { "endpoint": "Z-Average Hydrodynamic Diameter", "conditions": { "MEDIUM": "Human serum (Sigma #H4522)", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loQualifier": "mean", "loValue": 53.12, "errQualifier": "sd", "errorValue": 3.19 } }, { "endpoint": "Volume Mean Hydrodynamic Diameter", "conditions": { "MEDIUM": " ", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loValue": 34.45, "errQualifier": "sd", "errorValue": 2.52 } }, { "endpoint": "Volume Mean Hydrodynamic Diameter", "conditions": { "MEDIUM": "Human serum (Sigma #H4522)", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loValue": 43.83, "errQualifier": "sd", "errorValue": 4.76 } }, { "endpoint": "Number Mean Hydrodynamic Diameter", "conditions": { "MEDIUM": " ", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loValue": 40.24, "errQualifier": "sd", "errorValue": 3.02 } }, { "endpoint": "Number Mean Hydrodynamic Diameter", "conditions": { "MEDIUM": "Human serum (Sigma #H4522)", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loValue": 39.24, "errQualifier": "sd", "errorValue": 5.75 } }, { "endpoint": "Intensity Mean Hydrodynamic Diameter", "conditions": { "MEDIUM": " ", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loValue": 40.24, "errQualifier": "sd", "errorValue": 3.39 } }, { "endpoint": "Intensity Mean Hydrodynamic Diameter", "conditions": { "MEDIUM": "Human serum (Sigma #H4522)", "PHRASEOTHER_PERCENTILE": null, "Remark": null, "SEQ_NUM": null }, "result": { "unit": "nm", "loValue": 58.53, "errQualifier": "sd", "errorValue": 1.69 } } ] }