about
Decreased dissolution of ZnO by iron doping yields nanoparticles with reduced toxicity in the rodent lung and zebrafish embryosSurface defects on plate-shaped silver nanoparticles contribute to its hazard potential in a fish gill cell line and zebrafish embryosDifferential expression of syndecan-1 mediates cationic nanoparticle toxicity in undifferentiated versus differentiated normal human bronchial epithelial cellsUse of a high-throughput screening approach coupled with in vivo zebrafish embryo screening to develop hazard ranking for engineered nanomaterialsInfluence of photosensitizer solvent on the mechanisms of photoactivated killing of Enterococcus faecalis.Augmenting the antibiofilm efficacy of advanced noninvasive light activated disinfection with emulsified oxidizer and oxygen carrier.Comparison of the response of human embryonic stem cells and their differentiated progenies to oxidative stress.Uptake pathways of anionic and cationic photosensitizers into bacteriaHierarchical Rank Aggregation with Applications to Nanotoxicology.Classification NanoSAR development for cytotoxicity of metal oxide nanoparticlesTOXICITY PROFILING OF ENGINEERED NANOMATERIALS VIA MULTIVARIATE DOSE-RESPONSE SURFACE MODELING.The multi-facets of sustainable nanotechnology - Lessons from a nanosafety symposium.Use of a rapid cytotoxicity screening approach to engineer a safer zinc oxide nanoparticle through iron doping.Dispersion and stability optimization of TiO2 nanoparticles in cell culture media.Emerging in vitro models for safety screening of high-volume production nanomaterials under environmentally relevant exposure conditions.Individual and combined effects of Aflatoxin B1, Deoxynivalenol and Zearalenone on HepG2 and RAW 264.7 cell lines.Size and site dependent biological hazard potential of particulate matters collected from different heights at the vicinity of a building construction.Differential effect of solar light in increasing the toxicity of silver and titanium dioxide nanoparticles to a fish cell line and zebrafish embryos.Association rule mining of cellular responses induced by metal and metal oxide nanoparticles.Size of TiO(2) nanoparticles influences their phototoxicity: an in vitro investigation.Advanced noninvasive light-activated disinfection: assessment of cytotoxicity on fibroblast versus antimicrobial activity against Enterococcus faecalis.Size influences the cytotoxicity of poly (lactic-co-glycolic acid) (PLGA) and titanium dioxide (TiO(2)) nanoparticles.Possibilities of gutta-percha-centered infection in endodontically treated teeth: an in vitro study.A predictive toxicological paradigm for the safety assessment of nanomaterials.Effect of tissue fluids on hydrophobicity and adherence of Enterococcus faecalis to dentin.A light-assisted in situ embedment of silver nanoparticles to prepare functionalized fabrics.Combined toxicity of prevalent mycotoxins studied in fish cell line and zebrafish larvae revealed that type of interactions is dose-dependent.Photophysical, photochemical, and photobiological characterization of methylene blue formulations for light-activated root canal disinfection.A Comparative Analysis of Different Grades of Silica Particles and Temperature Variants of Food-Grade Silica Nanoparticles for Their Physicochemical Properties and Effect on Trypsin
P50
Q23922775-5A6E8252-C280-42FB-AC78-DCFB33610AE0Q28392748-DE15E6CC-F447-49BF-B9F1-604A4B9BF7A9Q28394538-08684485-DA79-4302-BA7D-1A089BB59C5AQ28394548-D317FC3B-DBDE-48AC-A359-87373CC8E0CAQ33330711-BF0C77AF-F32A-4A52-91E4-482C855DA11EQ33362230-F11EDEC5-9EE6-4B2E-B4DB-02E398C4FE8FQ33468586-6CB15878-3A54-4848-BBA0-8EF26E337EC4Q33555762-85CB4505-7C5C-47F4-AB1E-BEFB999C734FQ33621840-5D5C055D-25E9-4166-A6CB-216F9C24F3E8Q33859712-D1CBCF0C-C075-4764-AF47-5BBD1EF2003BQ34121124-B99A084C-7200-4985-BBDA-BA8F9B22CD88Q35834306-F3C3AB82-4E5A-4F4D-A63B-417FE8E8272EQ37510522-7C08917C-FA9B-41A0-8D23-4BDFD6835092Q37677800-E32AA2F5-6A21-4CAC-9B0E-51BC3CB3171CQ38047270-5AD708AD-E417-4890-8AC0-C0CAED9D7B74Q38715470-DE0867D0-6A31-4FE1-BAC6-506191CEA56FQ38845420-8DF9C861-B825-405E-9EA5-35FA02AA9E84Q38996909-188D0C21-2914-422A-AD2E-5443C5F83A1EQ39059539-FA36191B-45B5-4C4A-BA05-242D354385F7Q39299090-40B74FC8-7D4E-42C5-8974-5802BA957A90Q40145166-7D927D09-40FC-46C0-B324-F86761676531Q42626462-2E3D5765-8DAE-4213-8F78-4C98F9697C97Q45236539-62DFED0E-BF6A-4959-86FA-0DEA1B0C178FQ46026731-95ED95A2-B06C-4A19-9FED-C93EAA6BD79EQ46883361-368B2DCB-0C93-4176-899B-59EDBB9F9624Q47161660-E81A63A0-C20C-4D62-AB21-6CEEE69E2211Q47839201-13F0D460-1F9D-4F72-9810-38C05965B0B7Q50467397-A381218A-6B3B-496A-BECB-FC0A1EC4597BQ90715172-43A4F770-6440-4F12-B137-208E333143ED
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Saji George
@ast
Saji George
@en
Saji George
@es
Saji George
@nl
Saji George
@sl
type
label
Saji George
@ast
Saji George
@en
Saji George
@es
Saji George
@nl
Saji George
@sl
prefLabel
Saji George
@ast
Saji George
@en
Saji George
@es
Saji George
@nl
Saji George
@sl
P106
P21
P31
P496
0000-0002-8807-0737