Mageleka MagnoMeter™ XRS

Slides:

Advertisements

Similar presentations

Heterogeneous Aqueous Solutions

Advertisements

Analytical Services Laboratory R.T. Vanderbilt Company, Inc.

Jace James & Lauren Erland.  Separation based on charge & frictional force Capillary Electrophoresis (CE)

Solutions and pH.

Advanced Chemistry Notes Colloids. Colloids and Solutions Recall: solutions were homogenous mixtures  Suspensions are a heterogeneous mixture in which.

1 A TOMIC SPECTROMETRIC METHODS PART 9. 2 Interferences : Four classes of interferences: 1-Spectral interferences 2-Chemical interferences 3- Refractory.

A PRESENTATION ON ELECTRONIC NOSE PRESENTED BY vivek gangwar ELECTRONICS & COMMUNICATION.

Chapter 3 Section 3:“Mixtures” Notes 12/4/07. I. Properties of Mixtures: A. A combination of two or more substances that are not chemically combined (they.

E lements Chapter 4 Section 1. What are elements? An element is a pure substance that can not be separated into simpler substances by physical or chemical.

Zeta potential measurement

Process Analytical Technologies Subcommittee Product and Process Development: An Industry Perspective David Rudd PhD Process Technology GlaxoSmithKline.

VINOD P. SHAH, PH.D. SENIOR RESEARCH SCIENTIST OFFICE OF PHARMACEUTICAL SCIENCE CENTER FOR DRUG EVALUATION AND RESEARCH FOOD AND DRUG ADMINISTRATION Pharmacy.

7. Paint Industrial Products (Testing). basic function of a paint protecting a surface from the action of light, water, and air achieved by the application.

A SEMINAR ON PROCESS VALIDATION OF OINTMENT, CREAM AND LIQUID ORALS

IMPURE SUBSTANCES: MIXTURES

1. What are two properties used to describe matter?

Year 12 Chemistry Unit 3 – AOS 1 Chemical Analysis.

Surface and Interface Chemistry  Rheology Valentim M. B. Nunes Engineering Unit of IPT 2014.

Chapter 2 Properties of Matter

Pure substances, properties

Solutions Types of Mixtures.

A Raman spectrum gives a unique chemical signature of a specimen The Raman microscopy is used extensively in the following applications: Pharmaceuticals.

Elements CompoundsSolutionsSuspensionsColloids.

Solutions Chapter 12 Modern Chemistry

By- Bhavya, Harsh, Harshvardhan, Namrata, Ronit and Vidhatri

Can you name an example of a colloid? Colloids are mixtures with particles intermediate in size between solutions and suspensions (particle size 1 nm.

 When colloidal solutions have been observed through ultra microscope, the colloidal particles are seen in constant and rapid zigzag motion called.

CALCULATIONS IN NANOTECHNOLOGY

What are the three parts that make up atoms? Which of the three are most important in determining what element an atom is? Which of the three are most.

Mixtures and Solutions JEOPARDY!. Jeopardy Board SolutionsMixturesConcentrateVocabPerformance $100 $200 $300 $400 $500.

Solutions & Solubility Vocabulary. agitation ___ is the act of stirring, shaking, or mixing.

DO NOW Define chemical change. Define physical change. Give me two examples of each. List the 6 physical phase changes. After you are done, take out one.

What’s the Matter Game Definitions Unit 2: Classification of Matter Physical Science Steinbrink.

Solutions and Other Mixtures

U g e l s t a d L a b o r a t o r y UGELSTAD LABORATORY - group for surface, colloid and polymer chemistry ~30 persons Experimental and modelling group.

Chapter 1: The Nature of Analytical Chemistry

Manufacturing of Materials That Are Useful (Fortunately) As Pharmaceutical Excipients Tim Cabelka – Senior Product Research Chemist, Dow Chemical (Retired)

INTRODUCTION ON HPTLC PRINCIPLE

What are the three parts that make up atoms? Which of the three are most important in determining what element an atom is? Which of the three are most.

Solutions Formed when substances dissolve in other substances

WATER AND SOLUTIONS CHAPTERS WHAT ARE SEVERAL EXAMPLES THAT DEMONSTRATE THE SURFACE TENSION OF WATER?

Fundamentals of Analytical Chemistry Eighth Edition.

Page 1 NMR Services —by Creative Biostructure. Page 2 NMR spectroscopy is a key analytical technique for structure elucidation of a wide range of materials.

8th Grade Physical Science Presented by Betsy Sanford

Chapter 15 Water and Aqueous Systems 15.3 Heterogeneous Aqueous

Chapters 15 & 16 Review.

Understanding Solutions

Non-electrolytes ‘Concentration expression

Industrial Agitator Stirrer Manufacturer In India

Properties of Liquids, Suspensions and Colloidal Dispersions

Properties, Changes, & Classification of Matter TEST REVIEW

Chemistry: Structure of Matter

Particle Size Analysis

HPLC detectors Pharmawiki 11/18/2018.

Module 1 Hierarchy of Matter and Separation Methods

Chapter 4 Section 3 Mixtures Bellringer

Pharmaceutical Technology

Physical pharmacy Lab (6) Viscosity

Ch 12 Solutions 12.1 Types of Mixtures

Pharmaceutical Analytical Techniques

Understanding Solutions

Mixtures Lecture Chapter 2: Section 1.

Spin Finish Mukesh kumar singh

Module 1 Hierarchy of Matter and Separation Methods

Chapter 14 Solutions.

Types of Mixtures 4.2 Notes

Presentation transcript:

Mageleka MagnoMeter™ XRS Introducing the Mageleka MagnoMeter™ XRS A New Instrument for Particle Characterization and Surface Analysis of Suspensions and Slurries

What is a MagnoMeter? A device that uses NMR relaxation for non-invasive routine analysis of complex solid-liquid and liquid-liquid formulations Samples in water, solvents and melts No dilution required, minimal sample preparation Ideal for applications where speed of measurement and reliability are drivers of performance Research & development Quality control/quality assurance Process control labs

What is NMR relaxation? NMR relaxation time is a fundamental, intrinsic property of all solids and liquids Analogous to intensity of scattered light (particle sizing) and electrophoretic mobility (zeta potential) NMR relaxation measures how protons react, through their molecular motion, in a magnetic field Relaxation time of suspensions/slurries is intermediate between that for solid and liquid Value depends on specific particle-liquid combination Determined directly using an NMR spectrometer

“ ” Why use NMR relaxation? In every industrial application, a knowledge and understanding of the molecular structure and dynamics at the particle-liquid interface is critical to improving, or optimizing, suspension and emulsion product performance.

new technique for suspension and emulsion analysis NMR Instruments High resolution NMR well-known technique for studying molecular structure and identification of compounds Low field NMR new technique for suspension and emulsion analysis high frequency needed expensive, complex, sophisticated operation intensive training university and analytical laboratories low frequency optimal inexpensive, simple benchtop device easy operation industrial R&D, QC/QA and process laboratories

What can you measure? Dispersed (wetted) Surface Area of suspensions Dispersed particle volume fraction Molecular weight (polymers in solution)* Polymer and solvent viscosity Particle Size (<30nm) Relaxation Number (liquids/suspensions/emulsions) Kinetic processes Adsorption/desorption Competitive adsorption Colloidal stability Presence of para- and ferro-magnetic impurities Hydroxyl (OH) number of metal oxides Oxygen and water content of solvents * By calibration

Applications “ ” The MagnoMeter can be used in an almost unlimited range of applications, and can measure samples at virtually any industrially relevant solids concentration. Graphene/Graphene Oxide Cellulose nanocrystals Ceramics, refractories Minerals, metal oxides Paints and inks Dyes Pharmaceutics Nanomedicine Cosmetics Food emulsions Agrochemicals Catalysts Paper pulp MOFs

What does the MagnoMeter provide? Summary What does the MagnoMeter provide? Direct information about the extent and nature of any particle-liquid interface → suspensions and emulsions any type of particle, and any liquid – including mixtures exceptionally wide concentration (0.01% to 90+%) no dilution required, minimal sample preparation small samples (typically 0.1mL; as little as 200μL) Complementary information to traditional particle characterization techniques Intelligence that is not possible with traditional techniques

Advantages of the MagnoMeter Summary Advantages of the MagnoMeter General Any colloidal-size suspension – virtually all liquids Measure locally with data manipulation at remote terminal Ideal for controlled or hazardous environments Multiple pod sensors facilitate sampling at different locations Frequency lock Measure mixture homogeneity Options and Extensions Large diameter NMR tube viscous liquids, concentrated slurries/emulsions MRI methods (imaging) in specific samples Can be adapted for use with an auto-sampler multiple sample analysis Can be adapted for flow-through operation

The MagnoMeter finds use from Fundamentals to End-Use Performance In Conclusion The MagnoMeter finds use from Fundamentals to End-Use Performance Research & Development Basic formulation of products: reproducibility, stability (coagulation/flocculation), settling and sedimentation, shelf life Quality Control Release of raw materials, batch-to-batch reproducibility of final product Quality Assurance Enable release of complex systems which can currently only be characterized by the raw materials used rather than the manufactured product Process Management Follow and monitor milling and manufacture processes in almost real-time

applications specialist, please contact: Thank you! For more information, to send samples, to arrange a demonstration at your facility, or to speak to a technical applications specialist, please contact: info@mageleka.com +1 617 331 1130 www.mageleka.com