Application notes

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pdficon_small Application Note 01: Validation of Relative Humidity using Saturated Salt Solutions

pdficon_small Application Note 02: Moisture Sorption of EC Standard Reference Material RM 302 on a DVS-1 Instrument

pdficon_small Application Note 10: Direct Visualization of Moisture Induced Morphological Transformations using a combination of DVS and in-situ Colour Video Microscopy

pdficon_small Application Note 15: Faster Sorption Isotherms using Helium Carrier Gas

pdficon_small Application Note 17: Measurement of the Surface Energies of Pharmaceutical Powders using a Novel Vapour Adsorption Method

pdficon_small Application Note 18: Measuring BET Surface Areas using Organic Probe Molecules

pdficon_small Application Note 19: Determining the Heat of Sorption on Note 19 Organic and Inorganic Powders using DVS

pdficon_small Application Note 26: Isotherm Types and Adsorption Mechanisms of Solvents on Pharmaceutical Excipients

pdficon_small Application Note 32: Accelerated Moisture Sorption Measurements by DVS Microsample Analysis

pdficon_small Application Note 37: Hysteresis Effects in Vapour Sorption

pdficon_small Application Note 38: Determination of Mesopore Size Distribution by Organic Vapour Sorption

pdficon_small Application Note 40: Using the DVS to Study the Water Sorption Properties of Multi-Component Systems

pdficon_small Application Note 46: Combining Raman Spectroscopy with Gravimetric Vapour Sorption Analysis for Pharmaceutical Materials

pdficon_small Application Note 47: Determination of True Density by Dynamic Vapour Sorption

pdficon_small Application Note 58: Use of DVS-NEAR IR Technique for Material Characterization

pdficon_small Application Note 60: Iso-activity Analysis of Phenol Crystals

pdficon_small Application Note 62: Water Activity (Aw) with a DVS Instrument

pdficon_small Application Note 103: Organic Solvent Sorption using a Dynamic Vapour Sorption Instrument-an Overview

pdficon_small Application Note 02: Moisture Sorption of EC Standard Reference Material RM 302 on a DVS-1 Instrument

pdficon_small Application Note 03: Polymorphism in Spray Dried Lactose

pdficon_small Application Note 10: Direct Visualization of Moisture Induced Morphological Transformations using a combination of DVS and in-situ Colour Video Microscopy

pdficon_small Application Note 11: Moisture Stability of Powdered Milk Formulations

pdficon_small Application Note 12: Absolute Measurement of Moisture Diffusion into Blister Packaging Systems

pdficon_small Application Note 13: Moisture Sorption of Hydrophobic Pharmaceutical Substances

pdficon_small Application Note 18: Measuring BET Surface Areas using Organic Probe Molecules

pdficon_small Application Note 19: Determining the Heat of Sorption on Note 19 Organic and Inorganic Powders using DVS

pdficon_small Application Note 26: Isotherm Types and Adsorption Mechanisms of Solvents on Pharmaceutical Excipients

pdficon_small Application Note 29: Moisture Desorption of Creams and Calculation of Diffusion Constants

pdficon_small Application Note 30: Calculation of Diffusion Constants in a Pharmaceutical Powder using DVS

pdficon_small Application Note 32: Accelerated Moisture Sorption Measurements by DVS Microsample Analysis

pdficon_small Application Note 33: Impact of Protein Concentration on the Moisture-Induced Phase Transitions of Protein-Sugar Formulations

pdficon_small Application Note 34: A New Gravimetric Method to Calculate Low Levels of Amorphous Content

pdficon_small Application Note 35: Determining the Moisture-Induced Glass Transition in an Amorphous
Pharmaceutical Material

pdficon_small Application Note 36: Investigation of Hydrate Formation and Loss Using the DVS

pdficon_small Application Note 40: Using the DVS to Study the Water Sorption Properties of Multi-Component Systems

pdficon_small Application Note 41: Investigation of Solvate Formation and Loss Using the DVS

pdficon_small Application Note 42: Using the DVS to Investigate Moisture-Induced Crystallization Kinetics

pdficon_small Application Note 43: Determination of Surface Energetics of Mineral Aggregates
by Dynamic Vapour Sorption

pdficon_small Application Note 44: Determining Amorphous Contents without a Standard: Hydrate/Solvate Stoichiometry

pdficon_small Application Note 45: Investigation of Desolvation Kinetics Using the DVS

pdficon_small Application Note 46: Combining Raman Spectroscopy with Gravimetric Vapour Sorption Analysis for Pharmaceutical Materials

pdficon_small Application Note 58: Use of DVS-NEAR IR Technique for Material Characterization

pdficon_small Application Note 59: Investigation of Channel Hydrate Formation and Loss Using the DVS

pdficon_small Application Note 60: Iso-activity Analysis of Phenol Crystals

pdficon_small Application Note 02: Moisture Sorption of EC Standard Reference Material RM 302 on a DVS-1 Instrument

pdficon_small Application Note 03: Polymorphism in Spray Dried Lactose

pdficon_small Application Note 08: Moisture Sorption of Coffee Granules Studied using the DVS-μScope

pdficon_small Application Note 10: Direct Visualization of Moisture Induced Morphological Transformations using a combination of DVS and in-situ Colour Video Microscopy

pdficon_small Application Note 11: Moisture Stability of Powdered Milk Formulations

pdficon_small Application Note 17: Measurement of the Surface Energies of Pharmaceutical Powders using a Novel Vapour Adsorption Method

pdficon_small Application Note 18: Measuring BET Surface Areas using Organic Probe Molecules

pdficon_small Application Note 19: Determining the Heat of Sorption on Note 19 Organic and Inorganic Powders using DVS

pdficon_small Application Note 20: Caking of Lemon Flavour Powdered Drink Using DVS Humidity Cycling

pdficon_small Application Note 22: A Simple Shelf Life Prediction of Crackers

pdficon_small Application Note 23: The Water Sorption Properties of Ramyun Noodles

pdficon_small Application Note 26: Isotherm Types and Adsorption Mechanisms of Solvents on Pharmaceutical Excipients

pdficon_small Application Note 27: Hygroscopicity of Japanese Green Tea Powder

pdficon_small Application Note 28: Water Pickup in Monosodium Glutamate

pdficon_small Application Note 32: Accelerated Moisture Sorption Measurements by DVS Microsample Analysis

pdficon_small Application Note 33: Impact of Protein Concentration on the Moisture-Induced Phase Transitions of Protein-Sugar Formulations

pdficon_small Application Note 34: A New Gravimetric Method to Calculate Low Levels of Amorphous Content

pdficon_small Application Note 35: Determining the Moisture-Induced Glass Transition in an Amorphous
Pharmaceutical Material

pdficon_small Application Note 36: Investigation of Hydrate Formation and Loss Using the DVS

pdficon_small Application Note 40: Using the DVS to Study the Water Sorption Properties of Multi-Component Systems

pdficon_small Application Note 42: Using the DVS to Investigate Moisture-Induced Crystallization Kinetics

pdficon_small Application Note 44: Determining Amorphous Contents without a Standard: Hydrate/Solvate Stoichiometry

pdficon_small Application Note 45: Investigation of Desolvation Kinetics Using the DVS

pdficon_small Application Note 47: Determination of True Density by Dynamic Vapour Sorption

pdficon_small Application Note 58: Use of DVS-NEAR IR Technique for Material Characterization

pdficon_small Application Note 62: Water Activity (Aw) with a DVS Instrument

pdficon_small Application Note 102: Moisture Sorption Properties of Food Products and Packaging Materials Studied by DVS

pdficon_small Application Note 31: Measurement of Moisture Ingress in Microelectronics Device Packaging

pdficon_small Application Note 52: Vapour Permeability of Porous Materials using Payne Diffusion Cell

pdficon_small Application Note 21: Moisture Sorption on Tobacco of Various Origins

pdficon_small Application Note 103: Organic Solvent Sorption using a Dynamic Vapour Sorption Instrument-an Overview

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pdficon_small Application Note 201: Gas phase diffusion studies of cyclohexane by infinite dilution inverse gas chromatography

pdficon_small Application Note 202: Determination of the dispersive surface energy of paracetamol by pulse inverse gas chromatography at infinite dilution

pdficon_small Application Note 203: Heat of sorption studies on microcrystalline cellulose by pulse inverse gas chromatography at infinite dilution

pdficon_small Application Note 204: Determination of the glass transition temperatures Tg of maltose and its dependence on relative humidity by infinite dilution inverse gas chromatography (iGC-SEA)

pdficon_small Application Note 205: The determination of the Hilderbrandt solubility parameter of different starch types by infinite dilution inverse gas chromatography

pdficon_small Application Note 206: Determination of diffusion coefficients of alkanes in polyethylene powder by infinite dilution inverse gas chromatography

pdficon_small Application Note 207: Characterization of drug polymorphs by inverse gas chromatography

pdficon_small Application Note 208: The measurement of isotherms by pulse inverse gas chromatography

pdficon_small Application Note 209: An investigation of chromosorb silicas s support materials for inverse gas chromatography

pdficon_small Application Note 213: Determination of thermodynamics parameters by frontal inverse gas chromatography at infinite dilution

pdficon_small Application Note 218: The determination of the Hildebrandt solubility parameter of polymethyl methacrylate by infinite dilution inverse gas chromatography

pdficon_small Application Note 221: The determination of acid-base parameters by inverse gas chromatography

pdficon_small Application Note 224: Surface energetic heterogeneity profiles by iGC-Surface Energy Analyzer (iGC-SEA)

pdficon_small Application Note 225: Isotherm Measurements for BET surface area calculations using inverse gas chromatography

pdficon_small Application Note 211: An investigation of minerals used in asphalt by inverse gas chromatography at infinite dilution

pdficon_small Application Note 226: Surface energetic heterogeneity of carbon-based nanomaterials

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