PMID: 32189589DOI: 10.2174/138620732301200316112000Categories: 2020, PublicationsBy NanoSolveITApril 27, 2020Tags: AIArtificial intelligenceNanotechnology Author: NanoSolveITPost navigationPreviousPrevious post:Driving the nanoinformatics waveNextNext post:Transcriptomics in Toxicogenomics, Part II: Preprocessing and Differential Expression Analysis for High Quality DataRelated PostsToxicogenomics analysis of dynamic dose-response in macrophages highlights molecular alterations relevant for multi-walled carbon nanotube-induced lung fibrosisNovember 21, 2020Metadata Stewardship in Nanosafety Research: Community-Driven Organisation of Metadata Schemas to Support FAIR Nanoscience DataOctober 20, 2020Predicting Cytotoxicity of Metal Oxide Nanoparticles using Isalos Analytics PlatformOctober 20, 2020A Semi-Automated Workflow for FAIR Maturity Indicators in the Life SciencesOctober 20, 2020Structure–activity prediction networks (SAPNets): a step beyond Nano-QSAR for effective implementation of the safe-by-design conceptOctober 13, 2020In Silico Prediction of Protein Adsorption Energy on Titanium Dioxide and Gold NanoparticlesOctober 12, 2020
Toxicogenomics analysis of dynamic dose-response in macrophages highlights molecular alterations relevant for multi-walled carbon nanotube-induced lung fibrosisNovember 21, 2020
Metadata Stewardship in Nanosafety Research: Community-Driven Organisation of Metadata Schemas to Support FAIR Nanoscience DataOctober 20, 2020
Structure–activity prediction networks (SAPNets): a step beyond Nano-QSAR for effective implementation of the safe-by-design conceptOctober 13, 2020
In Silico Prediction of Protein Adsorption Energy on Titanium Dioxide and Gold NanoparticlesOctober 12, 2020
