about
Review of nanomaterial aging and transformations through the life cycle of nano-enhanced products.Envisioning Nano Release Dynamics in a Changing World: Using Dynamic Probabilistic Modeling to Assess Future Environmental Emissions of Engineered Nanomaterials.Polyester Textiles as a Source of Microplastics from Households: A Mechanistic Study to Understand Microfiber Release During Washing.Improvements in Nanoparticle Tracking Analysis To Measure Particle Aggregation and Mass Distribution: A Case Study on Engineered Nanomaterial Stability in Incineration Landfill Leachates.The need for a life-cycle based aging paradigm for nanomaterials: importance of real-world test systems to identify realistic particle transformations.Agglomeration potential of TiO2 in synthetic leachates made from the fly ash of different incinerated wastes.Are nanosized or dissolved metals more toxic in the environment? A meta-analysis.Presence of nanoparticles in wash water from conventional silver and nano-silver textiles.Detecting nanoparticulate silver using single-particle inductively coupled plasma-mass spectrometry.Textile Functionalization and Its Effects on the Release of Silver Nanoparticles into Artificial Sweat.Unraveling the Complexity in the Aging of Nanoenhanced Textiles: A Comprehensive Sequential Study on the Effects of Sunlight and Washing on Silver Nanoparticles.Characterization of silver nanoparticles using flow-field flow fractionation interfaced to inductively coupled plasma mass spectrometryEffect of Variations of Washing Solution Chemistry on Nanomaterial Physicochemical Changes in the Laundry CycleSynthesis of metal-doped nanoplastics and their utility to investigate fate and behaviour in complex environmental systemsSystematic Study of Microplastic Fiber Release from 12 Different Polyester Textiles during WashingTransport of Nano- and Microplastic through Unsaturated Porous Media from Sewage Sludge Application
P50
Q38364140-9A605D63-AFFE-4DCF-BCD9-6969FFA600F2Q38762122-B5DD09E7-019F-4C34-9DEE-275AEE37A8B9Q38767494-A3BB69DA-A9CD-422E-98F0-D74821969DF8Q38822539-573CDD2C-AD00-4553-86E7-85A55B10CA79Q39079330-E560D05A-7BE1-4DD1-8058-55B24E008F5AQ43359470-AD3E47DE-3611-4DD9-9955-C4FE241789E8Q45353628-0E97D108-FC20-4EB3-8139-E179FA230374Q46877840-134445F9-F3D2-40B6-8C22-6D39933D5DD6Q51582066-1267BBE7-CB25-496A-81F7-63CF9B0E90ACQ52852960-30B916B5-D4E0-41FB-983A-95A665E44536Q53118148-9311F28A-0DFF-43AC-8761-946833F3EAD7Q60481776-412D3B5A-754F-4057-B1ED-3D727416964BQ60490172-F1930552-33E3-45FF-8FB7-654B566CD2E2Q91341273-DB47DBEE-0506-427E-80C0-D458048960A7Q91586102-456CB556-81D7-4044-A750-3CC3D0E6E34BQ91987205-BA1B32F8-C280-497D-A48A-BB8175BFF0EB
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
հետազոտող
@hy
研究者
@zh
name
Denise M Mitrano
@ast
Denise M Mitrano
@en
Denise M Mitrano
@es
Denise M Mitrano
@nl
type
label
Denise M Mitrano
@ast
Denise M Mitrano
@en
Denise M Mitrano
@es
Denise M Mitrano
@nl
prefLabel
Denise M Mitrano
@ast
Denise M Mitrano
@en
Denise M Mitrano
@es
Denise M Mitrano
@nl
P31
P496
0000-0001-8030-6066