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Standard and/or project under the direct responsibility of ISO/TC 229 Secretariat Stage ICS
Nanotechnologies — Vocabulary — Liposomes
60.60
Nanotechnologies — In vitro acute nanoparticle phototoxicity assay
40.60
Nanotechnologies — Nanostructured porous silica microparticles for chromatography
20.00
Nanotechnologies — Performance evaluation of nanosuspensions containing clay nanoplates for quorum quenching
60.60
Nanotechnologies — Toxicity assessment and bioassimilation of manufactured nano-objects in suspension using the unicellular organism Tetrahymena sp.
60.60
Nanotechnologies — Assessment of peroxidase-like activity of metal and metal oxide nanoparticles
60.60
Nanotechnologies — Nomenclature — Part 1: General nomenclature
20.00
Nanotechnologies — Lung burden mass measurement of nanomaterials for inhalation toxicity tests
60.60
Nanotechnologies — Extraction method of nanomaterials from lung tissue by proteinase K digestion
60.60
'Nanotechnologies — Classification framework for graphene‐related 2D materials
20.00
Nanotechnologies — Superhydrophobic surfaces and coatings: Characteristics and performance assessment
60.60
Nanotechnologies — Characterization of single-wall carbon nanotubes using transmission electron microscopy
90.93
Nanotechnologies — Charaterization of single-wall carbon nanotubes using scanning electron microscopy and energy dispersive X-ray spectrometry analysis
90.93
Nanotechnologies — Generation of metal nanoparticles for inhalation toxicity testing using the evaporation/condensation method
90.93
Nanotechnologies — Characterization of nanoparticles in inhalation exposure chambers for inhalation toxicity testing
90.93
Nanotechnologies — Textiles containing nanomaterials and nanostructures — Superhydrophobic characteristics and durability assessment
60.60
Nanotechnologies — Characterization of single-wall carbon nanotubes using near infrared photoluminescence spectroscopy
95.99
Nanotechnologies — Characterization of single-wall carbon nanotubes using near infrared photoluminescence spectroscopy
90.93
Nanotechnologies — Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
95.99
Nanotechnologies — Characterization of single-wall carbon nanotubes using ultraviolet-visible-near infrared (UV-Vis-NIR) absorption spectroscopy
90.93
Nanotechnologies — Characterization of multiwall carbon nanotube (MWCNT) samples
60.60
Nanotechnologies — Characterization of volatile components in single-wall carbon nanotube samples using evolved gas analysis/gas chromatograph-mass spectrometry
95.99
Nanotechnologies — Characterization of volatile components in single-wall carbon nanotube samples using evolved gas analysis/gas chromatograph-mass spectrometry
90.93
Nanotechnologies — Characterization of carbon nanotube samples using thermogravimetric analysis
20.00
Nanotechnologies — Characterization of single-wall carbon nanotubes using thermogravimetric analysis
95.99
Nanotechnologies — Characterization of carbon nanotube samples using thermogravimetric analysis
90.92
Nanotechnologies — Test method for detection of nano-object release from respiratory masks media under different working conditions
30.60
Nanotechnologies — Methodology for the classification and categorization of nanomaterials
60.60
Nanotechnologies — Guidance on methods for nano- and microtribology measurements
60.60
Nanotechnologies — Characterization of multiwall carbon nanotubes — Mesoscopic shape factors
95.99
Nanotechnologies — Characterization of multiwall carbon nanotubes — Mesoscopic shape factors
90.93
Nanotechnologies — Nanoscale calcium carbonate in powder form — Characteristics and measurement
90.93
Nanotechnologies — Nanoscale titanium dioxide in powder form — Characteristics and measurement
90.93
Nanomaterials — Quantification of nano-object release from powders by generation of aerosols
95.99
Nanomaterials — Quantification of nano-object release from powders by generation of aerosols
60.60
Nanotechnologies — Toxicity assessment of manufactured nanomaterials in soils using plant Arabidopsis thaliana
20.00
Nanotechnologies — Model taxonomic framework for use in developing vocabularies — Core concepts
60.60
Nanotechnologies — Materials specifications — Guidance on specifying nano-objects
90.93
Nanotechnologies — Health and safety practices in occupational settings relevant to nanotechnologies
95.99
Nanotechnologies — Health and safety practices in occupational settings
60.60
Nanotechnologies — Occupational risk management applied to engineered nanomaterials — Part 1: Principles and approaches
90.92
Nanotechnologies — Occupational risk management applied to engineered nanomaterials — Part 1: Principles and approaches
50.20
Nanotechnologies — Occupational risk management applied to engineered nanomaterials — Part 2: Use of the control banding approach
90.92
Nanotechnologies — Occupational risk management applied to engineered nanomaterials — Part 2: Use of the control banding approach
20.20
Nanotechnologies — Nanocomposite materials for insulating — Specification of characteristics and measurement methods
20.00
Nanotechnologies — Guidance on physico-chemical characterization of engineered nanoscale materials for toxicologic assessment
60.60
Nanotechnologies — Guidance on physico-chemical characterization of engineered nanoscale materials for toxicologic assessment — Technical Corrigendum 1
60.60
Nanotechnologies — Nanomaterial risk evaluation
20.00
Nanotechnologies — Nanomaterial risk evaluation
90.92
Nanotechnologies — Determination of elemental impurities in samples of carbon nanotubes using inductively coupled plasma mass spectrometry
95.99
Nanotechnologies — Determination of elemental impurities in samples of carbon nanotubes using inductively coupled plasma mass spectrometry
90.20
Nanomaterials — Preparation of material safety data sheet (MSDS)
90.92
Nanomaterials – Preparation of safety data sheets (SDS)
30.99
Nanotechnologies — Guidance on voluntary labelling for consumer products containing manufactured nano-objects
90.93
Surface characterization of gold nanoparticles for nanomaterial specific toxicity screening: FT-IR method
90.93
Nanotechnologies — Considerations for the development of chemical nomenclature for selected nano-objects
60.60
Nanotechnologies — Guidance for developing representative test materials consisting of nano-objects in dry powder form
95.99
Nanotechnologies — Specification for developing representative test materials consisting of nano-objects in dry powder form
90.93
Nanotechnologies — Compilation and description of sample preparation and dosing methods for engineered and manufactured nanomaterials
60.60
Nanotechnologies — Compilation and description of toxicological screening methods for manufactured nanomaterials
60.60
Nanotechnologies — Determination of silver nanoparticles potency by release of muramic acid from Staphylococcus aureus
90.93
Nanotechnology — Nanoparticles in powder form — Characteristics and measurements
60.60
Nanotechnology — Nanoparticles in powder form — Characteristics and measurements
95.99
Nanotechnologies — Framework for identifying vocabulary development for nanotechnology applications in human healthcare
60.60
Use of UV-Vis absorption spectroscopy in the characterization of cadmium chalcogenide colloidal quantum dots
90.93
Nanotechnologies — Vocabularies for science, technology and innovation indicators
90.93
Nanotechnologies — Measurement technique matrix for the characterization of nano-objects
20.00
Nanotechnologies — Measurement technique matrix for the characterization of nano-objects
90.92
Nanotechnologies — Plain language explanation of selected terms from the ISO/IEC 80004 series
60.60
Nanotechnologies — Overview of available frameworks for the development of occupational exposure limits and bands for nano-objects and their aggregates and agglomerates (NOAAs)
60.60
Nanotechnologies — Electron spin resonance (ESR) as a method for measuring reactive oxygen species (ROS) generated by metal oxide nanomaterials
90.93
Nanotechnologies — 5-(and 6)-Chloromethyl-2’,7’ Dichloro-dihydrofluorescein diacetate (CM-H2DCF-DA) assay for evaluating nanoparticle-induced intracellular reactive oxygen species (ROS) production in RAW 264.7 macrophage cell line
90.93
Nanotechnologies — In vitro MTS assay for measuring the cytotoxic effect of nanoparticles
90.93
Nanotechnologies — Use and application of acellular in vitro tests and methodologies to assess nanomaterial biodurability
60.60
Nanotechnologies — Characteristics of working suspensions of nano-objects for in vitro assays to evaluate inherent nano-object toxicity
60.60
Nanotechnologies — Characteristics of working suspensions of nano-objects for in vitro assays to evaluate inherent nano-object toxicity
95.99
Nanotechnologies — Size distribution and concentration of inorganic nanoparticles in aqueous media via single particle inductively coupled plasma mass spectrometry
90.92
Nanotechnologies — Characterization of nano-objects using single particle inductively coupled plasma mass spectrometry
50.00
Nanotechnologies — Aerosol generation for air exposure studies of nano-objects and their aggregates and agglomerates (NOAA)
60.60
Nanotechnologies — Characterization of cellulose nanocrystals
60.60
Nanotechnologies — Matrix of properties and measurement techniques for graphene and related two-dimensional (2D) materials
60.60
Nanotechnologies — Measurements of particle size and shape distributions by scanning electron microscopy
60.60
Nanotechnologies — Magnetic nanomaterials — Part 1: Specification of characteristics and measurements for magnetic nanosuspensions
90.93
Nanotechnologies — Magnetic nanomaterials — Part 2: Specification of characteristics and measurement methods for nanostructured magnetic beads for nucleic acid extraction
60.60
Nanotechnologies — Carbon nanotube suspensions — Specification of characteristics and measurement methods
90.93
Nanotechnologies — Standard terms and their definition for cellulose nanomaterial
95.99
Nanotechnologies — Vocabulary for cellulose nanomaterial
60.60
Nanotechnologies — Sample preparation for the characterization of metal and metal-oxide nano-objects in water samples
60.60
Guidelines to use synthetic biological reference materials for nanoscale imaging by electron microscopy for life sciences and clinical diagnostics
20.00
Nanotechnologies — Antibacterial silver nanoparticles — Specification of characteristics and measurement methods
90.93
Nanotechnologies - Aquatic toxicity assessment of manufactured nanomaterials in saltwater lakes using Artemia sp. Nauplii
90.20
Nanotechnologies — Testing the photocatalytic activity of nanoparticles for NADH oxidation
60.60
Nanotechnologies — Clay nanomaterials — Part 1: Specification of characteristics and measurement methods for layered clay nanomaterials
90.93
Nanotechnologies — Clay nanomaterials — Part 2: Specification of characteristics and measurements for clay nanoplates used for gas-barrier film applications
60.60
Nanotechnologies — Air filter media containing polymeric nanofibres — Specification of characteristics and measurement methods
90.93
Nanotechnologies — Characterization of individualized cellulose nanofibril samples
90.20
Nanotechnologies — Structural characterization of graphene — Part 1: Graphene from powders and dispersions
90.92
Nanotechnologies — Structural characterization of graphene — Part 1: Graphene from powders and dispersions
10.99
Nanotechnologies — Structural characterization of graphene — Part 2: Chemical vapour deposition (CVD) grown graphene
10.99
Nanotechnologies — Evaluation of the mean size of nano-objects in liquid dispersions by static multiple light scattering (SMLS)
60.60
Nanotechnologies — Method to quantify air concentrations of carbon black and amorphous silica in the nanoparticle size range in a mixed dust manufacturing environment
90.92
Nanotechnologies — Method to quantify air concentrations of carbon black and amorphous silica in the nanoparticle size range in a mixed dust manufacturing environment
30.60
Nanotechnologies — Analysis of nano-objects using asymmetrical-flow and centrifugal field-flow fractionation
30.60
Nanotechnologies — Analysis of nano-objects using asymmetrical-flow and centrifugal field-flow fractionation
90.92
Nanotechnologies — Measurements of particle size and shape distributions by transmission electron microscopy
60.60
Nanotechnologies — Considerations for the measurement of nano-objects and their aggregates and agglomerates (NOAA) in environmental matrices
60.60
Nanotechnologies — Nano-object-assembled layers for electrochemical bio-sensing applications — Specification of characteristics and measurement methods
90.93
Nanotechnologies — Considerations for in vitro studies of airborne nano‐objects and their aggregates and agglomerates (NOAA)
60.60
Label-free impedance technology to assess the toxicity of nanomaterials in vitro
60.60
Nanotechnologies — Polymeric nanocomposite films for food packaging with barrier properties — Specification of characteristics and measurement methods
90.93
Nanotechnologies — Considerations for performing toxicokinetic studies with nanomaterials
60.60
Nanotechnologies — Assessment of nanomaterial toxicity using dechorionated zebrafish embryo
90.93
Nanotechnologies — 3D image reconstruction of rod-supported nano-objects using transmission electron microscopy
60.60
Evaluation of methods for assessing the release of nanomaterials from commercial, nanomaterial-containing polymer composites
60.60
Nanotechnologies — Silica nanomaterials — Specification of characteristics and measurement methods for silica with ordered nanopore array (SONA)
60.60
Nanotechnologies — High throughput screening method for nanoparticles toxicity using 3D model cells
60.60
Nanotechnologies — Method to estimate cellular uptake of carbon nanomaterials using optical absorption
60.60
Nanotechnologies — Particle size distribution for cellulose nanocrystals
60.60
Nanotechnologies — Requirements and recommendations for the identification of measurands that characterise nano-objects and materials that contain them
60.60
Nanotechnologies — Chemical characterization of graphene in in powders and suspensions
30.60
Nanotechnologies — Crystallinity of cellulose nanomaterials by powder X-ray diffraction (Ruland-Rietveld analysis)
30.60
Nanotechnologies — Nanostructured porous alumina as catalyst support for vehicle exhaust emission control — Specification of characteristics and measurement methods
90.20
Nanotechnologies — Performance evaluation requirements for quantifying biomolecules using fluorescent nanoparticles in immunohistochemistry
60.60
Nanotechnologies — Performance characteristics of nanosensors for chemical and biomolecule detection — Part 1: Detection performance
60.60
Nanotechnologies — Assessment of protein secondary structure during an interaction with nanomaterials using ultraviolet circular dichroism
90.20
Nanotechnologies — Characterization of carbon nanotube and carbon nanofibre aerosols to be used in inhalation toxicity tests
60.60
Nanotechnologies — Evaluation of the antimicrobial performance of textiles containing manufactured nanomaterials
60.60
Nanotechnologies — Considerations for radioisotope labelling methods of nanomaterials for performance evaluation
50.20
Nanotechnologies — Multiwall carbon nanotubes — Determination of carbon impurity content by thermogravimetric analysis
60.60
Nanotechnologies — Positron annihilation lifetime measurement for nanopore evaluation in materials
50.00
Nanotechnologies — Structural characterization of graphene oxide flakes: thickness and lateral size measurement using AFM and SEM
20.00
Nanotechnologies — Guidance on the measurement of nanoparticle number concentration
60.60
Nanotechnologies — Terminology and definitions for nano-objects — Nanoparticle, nanofibre and nanoplate
95.99
Nanotechnologies — Endotoxin test on nanomaterial samples for in vitro systems — Limulus amebocyte lysate (LAL) test
90.93
Nanomanufacturing — Material specifications — Part 3-1: Graphene — Blank detail specification
30.98
Nanomanufacturing - key control characteristics for CNT film applications - Resistivity — Part 2-1:
90.93
Artificial gratings used in nanotechnology — Description and measurement of dimensional quality parameters
90.93
Nanotechnologies — A guideline for ellipsometry application to evaluate the thickness of nanoscale films
60.60
Nanotechnologies – Vocabulary — Part 1: Core vocabulary
60.60
Nanotechnologies — Vocabulary — Part 1: Core terms
95.99
Nanotechnologies — Vocabulary — Part 1: Core terms
95.99
Nanotechnologies — Vocabulary — Part 2: Nano-objects
95.99
Nanotechnologies — Vocabulary — Part 3: Carbon nano-objects
95.99
Nanotechnologies — Vocabulary — Part 3: Carbon nano-objects
90.93
Nanotechnologies — Vocabulary — Part 4: Nanostructured materials
95.99
Nanotechnologies — Vocabulary — Part 5: Nano/bio interface
90.93
Nanotechnologies — Vocabulary — Part 6: Nano-object characterization
95.99
Nanotechnologies — Vocabulary — Part 6: Nano-object characterization
90.20
Nanotechnologies — Vocabulary — Part 7: Diagnostics and therapeutics for healthcare
90.93
Nanotechnologies — Vocabulary — Part 8: Nanomanufacturing processes
95.99
Nanotechnologies — Vocabulary — Part 8: Nanomanufacturing processes
90.93
Nanotechnologies — Vocabulary — Part 9: Nano-enabled electrotechnical products and systems
90.93
Nanotechnologies — Vocabulary — Part 11: Nanolayer, nanocoating, nanofilm, and related terms
95.99
Nanotechnologies — Vocabulary — Part 12: Quantum phenomena in nanotechnology
90.92
Nanotechnologies — Vocabulary — Part 12: Quantum phenomena in nanotechnology
20.00
Nanotechnologies — Vocabulary — Part 13: Graphene and related two-dimensional (2D) materials
90.92
Nanotechnologies — Vocabulary — Part 13: Graphene and other two-dimensional (2D) materials
50.00

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