Nanomaterials in final products

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Nanomaterials in final products – in the form of dispersions and suspensions, composites, membranes, polymers and semiconductors – need to be properly characterized to guarantee the highest quality.

When nanomaterials finally come to such use, our work is still not done. Much remains to be characterized after the production of a final product to guarantee quality or desired functionality. Anton Paar instruments are used by research departments in many companies to produce high-quality products, including electronics, packaging, paints, coatings and inks, fabrics, cosmetics etc.

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Anton Paar Products

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Anton Paar Bioindenter: UNHT³ Bio

Atomic Force Microscopes: Tosca

Automated flow chemisorption analyzer: ChemBET Pulsar

Automated Multipurpose Powder X-Ray Diffractometer: XRDynamic 500

Automated representative sampler: Micro Rotary Riffler

Automated tapped density analyzers: Autotap

High-temperature chamber HTK 1200N for combined reflection and transmission XRD studies at high temperatures up to 1200 °C

Capillary Extension: HTK 1200N

Coating thickness measurement: Calotest series

Compact Raman spectrometers: Cora 5001

Cryo & Humidity Chamber CHC plus+ is a unique combination of the multi-purpose CHC Cryo & Humidity Chamber and an advanced humidity (RH) generator for the analysis of humidity-dependent and/or temperature-dependent structural changes in materials using X-ray diffraction

Cryo & Humidity Chamber: CHC plus⁺

Density and sound velocity meter: DSA 5000 M

Abbemat Heavy Duty

Digital heavy duty refractometer: Abbemat

Abbemat Performance and Performance Plus

Digital performance refractometer: Abbemat

Domed Cooling Stage for Four-Circle Goniometers: DCS 500

Domed Hot Stage for Four-Circle Goniometers DHS 1100 with graphite dome for high-temperature X-ray studies of polycrystalline samples and thin films from 25 to 1100 °C

Domed Hot Stage for Four-Circle Goniometers: DHS 1100

Dynamic shear rheometer measuring head: DSR 502

Five-station gas pycnometers for true density: PentaPyc and PentaFoam

Fully customizable laboratory automation solution: HTX

Gas sorption analyzer: QUADRASORB evo

Handheld Raman spectrometer: Cora 100

Temperature Tribometer

High Temperature Tribometer: THT

High temperature viscometer and rheometer: FRS

High vacuum physisorption/chemisorption analyzers: autosorb iQ

High-pressure volumetric gas sorption analyzer: iSorb

High-Temperature Oven Chamber: HTK 1200N with a robust design for in-situ X-ray diffraction studies in different atmospheres up to 1200 °C

High-Temperature Oven Chamber: HTK 1200N

High-Temperature Strip Heater Chambers: HTK 16N | HTK 2000N

HTR Compact: Rheometer autosampler for high sample throughput

HTR: Rheometer automation for high sample throughput and complex sample handling

Low-Temperature Chamber: TTK 600

Mercury intrusion pore size analyzers: PoreMaster

Micro Combi Tester: MCT³

Microwave digestion system: Multiwave 5000

Microwave Digestion System: Multiwave 7000

Microwave digestion system: Multiwave GO Plus

Microwave reactor: Monowave

Modular Compact Rheometer: MCR 72/92

Modular Compact Rheometer: MCR 102e/302e/502e

Motorized alignment for XRD: z-alignment stage

Abbemat WR/MW, Multi wavelengt refractometer

Multiwavelengths Refractometer: Abbemat MW

Nano scratch tester: NST³

Nanoindentation tester: NHT³

Particle size analyzer: Litesizer

Pin-on-disk tribometer: TRB³

Reactor Chamber: XRK 900

Reactor Chamber: XRK 900

Revetest® Scratch Tester: RST³

Rolling-ball viscometer: Lovis 2000 M/ME

SAXS/WAXS/BioSAXS system: SAXSpace

SAXS/WAXS/GISAXS/RheoSAXS laboratory beamline: SAXSpoint 5.0

Single-station gas pycnometers for true density: Ultrapyc

Software for particle analysis: Kalliope™

Surface area analyzer: AutoFlow BET+

Surface area and pore size analyzers: NOVAtouch

Synthesis reactor: Monowave 50

Tensile Stage: TS 600 - sample stage for in-situ X-ray diffraction studies of stress/strain phenomena in fibers, foils and thin films

Tensile Stage: TS 600

Ultra nanoindentation tester: UNHT³

Vacuum and Flow Degasser: FloVac

Vacuum Degasser: XeriPrep

High Temperature Vacuum Tribometer

Vacuum Tribometer: TRB V / THT V

Vapor sorption volumetric gas sorption analyzer: VSTAR

XRD software: XRDanalysis

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Quantachrome Products


Suspensions and dispersions

Nanoparticles are raw materials for many kinds of new functional materials, from nanodevices to hybrid composite materials. For commercial application and processing, it is necessary to develop and characterize nanoparticle dispersions and suspensions without aggregation, and to control for instance the application behavior. Using various Anton Paar high-precision instruments, we study, e.g. shear-induced orientational effects in cellulose solutions, the viscosity of graphene coatings with nanomaterial content, the application behavior of paints and coatings based on inorganic nanoparticle powder, or the viscosity of CMP slurries.

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Composite materials combine different properties of two or more materials to form a new material with properties unlike those of the individual components. What distinguishes composites from solid solutions and mixtures is the fact that their individual components remain separate and distinct. Therefore, investigation and understanding of the composite materials’ properties are crucial for their application. Anton Paar is the best possible partner when it comes to rheological investigations or pore size characterization of metal organic frameworks (MOFs) with gas adsorption analyzers.

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Development of nanocomposite membranes is of major research interest for water and wastewater treatment. Hollow fiber membranes (HFM), e.g., contain a semi-permeable barrier in the form of a hollow fiber. The primary interest in HFMs relates to their pore diameter and pore distribution. Anton Paar instruments perform capillary flow porometry for biomedical applications – along with other technologies for measuring nanomaterials.

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Ubiquitous use of polymers in technology and in our daily lives is due to their excellent chemical and physical properties, processability and relatively low cost. The vast application of polymers is only possible through development and understanding of polymer properties and behavior. Whether polymer nanostructures or polymer nanocomposites (PNC), with Anton Paar’s portfolio of measuring technologies, a variety of research investigations can be performed.

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Understanding and characterizing nanostructures plays an essential role in the unprecedented technology developments in areas such as information processing, full color displays, and new sensor technologies, to name but a few. Solutions from Anton Paar contribute to the technical progress of our time. They include the characterization of particle size and the study of surface zeta potential to improve the chemical-mechanical polishing process, and the analysis of nanopatterned surfaces with grazing-incidence small-angle X-ray scattering (GISAXS).

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