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This time next week, we will be at @formnext_expo at the booth ??-?????? Do you want to optimize your powder-based man… https://t.co/H7rIOBMCCl
Nov 8 2022 5:12pm
Our upcoming #webinar is about the new approaches in supercapacitor technology. You don't want to miss it! Regist… https://t.co/rDFNHcITO8
Nov 7 2022 3:08pm
Our team of experts will be at @ChEnected. Stop by ?????????? ?????? to have a conversation about the latest #technology in… https://t.co/nYW16BU8YE
Nov 4 2022 10:31am
Micromeritics Instrument Corporation is the world’s leading supplier of high-performance systems to characterize particles, powders, and porous materials with a focus on physical properties, chemical activity, and flow properties. Our technology portfolio includes pycnometry, adsorption, dynamic chemisorption, particle size and shape, intrusion porosimetry, powder rheology, and activity testing of catalysts. The company has R&D and manufacturing sites in the USA, UK, and Spain, and direct sales and service operations throughout the Americas, Europe, and Asia. Micromeritics systems are the instruments-of-choice in more than 10,000 laboratories of the world’s most innovative companies, prestigious government, and academic institutions. Our world-class scientists and responsive support teams enable customer success by applying Micromeritics technology to the most demanding applications. For more information, please visit www.micromeritics.com.
Mineral Building Materials: Properties and Solutions for Analysis
Carbon, Zeolites and Molecular Sieves: Solutions for Characterization
Heterogeneous Catalyst Characterization: Techniques and Applications
Additive Manufacturing: Physical Characterization of Powders
Metal Organic Frameworks (MOFs): Techniques for Characterization
Surface Characterization Analyzer for Carbons
Determining Particle Size for Quality Control of Metal Powders
Analyzing High-Pressure CO2 Capture on Porous Carbons
Using HPVA Data to Calculate Isosteric Heats of Adsorption
Improving Sequestration of CO2 Greenhouse Gas Research
An Introduction to MOFs and Characterizing their Porosity
Characterization of Catalysts via Thermo-Programmed Techniques
Fischer-Tropsch Synthesis Using a Microchannel Reactor
Performing Pulse Chemisorption Experiments
Quantifying the Active Species in Catalysts
Effect of the High Pressure of H2 on the Reduction Temperature of Oxides
Comparing High Flow of the Reductive Gas with the High Pressure of H2 on the Reduction of Copper Oxide
Key Parameters When Using Dynamic Light Scattering
How Differences in Powder Density Impact 3D Printing Quality
Analysis of Separator and Binder Materials in Lithium Ion Batteries
Characterizing Copper Catalysts Using Pulsed Chemisorption
Making Porous Carbon Materials by Recycling Waste Sludge
Porosity and its Influence on Pharmaceutical Tablet Dissolution
Solid Fraction Data and Its Importance in Pharmaceuticals
Characterization of Metal Powders for Additive Manufacturing
Characterizing Acid Sites of H+ ß (SiO2/Al2O3:75/1)
Characterizing Acid Sites of H+ Y (SiO2/Al2O3: 80/1)
Accurate and Reproducible Envelope Density Measurements
Optimizing Free-Space Correction for Low Surface Area Samples
Utilizing Catalysis for Sustainability Challenges
An Introduction to the Micromeritics Flow Reactor Series
Analyzing Hydrogen Storage Potential of MOFs at High Pressures
Characterizing Catalysts Via Temperature-Programmed Techniques
Analysis of Three Samples Each Using a Different Adsorptive
AutoPore V Series Mercury Intrusion Porosimeters
The Effect of Particle Shape on Particle Size Measurement
Characterization of Medicinal Tablet Surface Area
Specific Surface Area Measurement for Pharmaceutical Materials
Characterization of Physically Modified Glass Beads
Fitting and Optimizing BET Surface Area
Characterization Using Krypton Adsorption and BET Modeling
Mesopore and Micropore Surface Characterization Analysis
Porosity and Surface Area Testing of Porous Aluminas
Aiding Research into Carbon Dioxide Sequestration
Micropore Analysis of Zeolites Surface Area and Porosimetry
Incorporating Biorenewable CO2 into Polymerization Processes
Room Temperature Adsorption Measurements of Gases
The Effects Recapitalization Will Have on Micromeritics
An Introduction to Industrial Powder Characterization
Using MOFs to Store, Separate and Transport Gases
Measuring the Activity and Selectivity of Catalysts
The Importance of Chemical Adsorption Analysis
High Performance Polymeric Powders and Nanocomposite Powders for Powder Bed Fusion
Micromeritics Invests to Support Growing Customer Base in Asia
Micromeritics Enhances Speed and Sensitivity of Catalyst Characterization with Release of New AutoChem III
Webinar: Explore and Compare Density for Some Common Materials
Join Micromeritics at the Battery Cells & Systems Expo on stand 17-226
Join Micromeritics at AMPM 2022 on booth 221
Micromeritics Introduces the Breakthrough Analyzer
Breakthrough Adsorption: Theory and Analysis of Adsorption in Zeolites and Metal-organic Frameworks
Using Temperature Programed Analysis for Acid Site Characterization of Solid Acids
Characterizing Li-Ion Battery Separators - Pore Structure Determination
AM Feedstock Powder Rheology and Particle Characterization
Direct Air Capture (DAC) of CO2 & the Important Role of Porous Materials in DAC Technology
Measure Surface Area, Pore Size, and Pore Volume of Powders and Particulate Materials
Best Practice for BET (Brunauer–Emmett–Teller) Surface Area
Lithium-ion Batteries; The Future of Batteries is Here
Autochem II: Automated Catalyst Characterization System
Discover Micromeritics Top Five Traits
Micromeritics 3Flex: Surface Characterization Analyzer
Micromeritics AccuPyc: Automated Gas Displacement Pycnometer
SediGraph III Plus: Particle Size Analyzer
TriStar II Plus: Automated Gas Adsorption Analyzer
3 Flex: High Precision Gas Adsorption for Surface Area and Porosity Measurements
Basic and Advanced Catalysts Characterization for Catalytic Surface Activity
Characterizing Catalysts with a Fully Automated, High-Throughput Chemisorption Analyzer
Chemical and Physical Adsorption Tests with the ChemiSorb 2720 and 2750
Dynamic Sorption Surface Area Analyzer: Measuring Surface Area Using the Flowing Gas Method
In-Situ Catalyst Characterization System (ICCS): Advanced Catalyst Characterization Tool
Selective Adsorption Analyzer (SAA): Gas Delivery System and Precision-Controlled Breakthrough Analyzer
TriStar II Plus: Fully Automated Surface Area and Porosity Analyzer
Sample Preparation Systems
The Micromeritics Multi Reactor (MR) Series Features 4 or 8 Independent, Parallel Lab Reactors in One Unit to Speed up Catalyst Research
Fully Automated and Controlled Micromeritics Flow Reactor (FR) Series for Catalyst Screening in the Laboratory
Micromeritics Sub-Sieve AutoSizer II 5800 - Generating FSSS Fisher Number
High Pressure Gas Sorption - HPVA II
GeoPyc 1365 Envelope Density Analyzer
ASAP 2020 Plus Physisorption from Micromeritics
ASAP 2460 - Accelerated Surface and Porosimetry System
Micromeritics SediGraph® III Plus Particle Size Analyzer
Micromeritics AutoPore V Series Porosimeters
Gemini VII Series Surface Area Analyzer from Micromeritics
Micromeritics ASAP 2425 Surface Area and Porosimetry System
Micromeritics AccuPyc II 1345 Pycnometer Highlights the Value of Efficient Density Measurement
Working with Powders: How Comprehensive Characterization can Optimize Your Process
Texture of Heterogeneous Catalysts: Surface Area and Porosity
Understanding Surface Area Measurements
Active Area of Heterogeneous Catalysts: Chemisorption and Temperature Programmed Methods
Powder Characterization Tools for Effective Screening and Evaluation of Polymer Powders for Selective Laser Sintering
The Particle Size Paradox
Powder Flow – An Industrial Perspective on the Need to Turn “Art” into “Science”
Gas Sorption Characterization of MOFs
Smart and Programmable Sponges from Design and Synthesis to Implementation
Frontiers in Catalysis Design for Sustainable Technologies
Carbons, Zeolites and Molecular Sieves
Structured Catalysts and Reactors for the Transformation of CO2 to Useful Chemicals
Building Robust Pharma Physical Properties Analysis