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Polymorph stabilization in processed acetaminophen powders
Anna Łuczak
, Laila J. Jallo
,
Rajesh N. Dave
, Zafar Iqbal
Chemical and Materials Engineering
New Jersey Center for Engineered Particulates
Chemistry and Environmental Science
Research output
:
Contribution to journal
›
Article
›
peer-review
18
Scopus citations
Overview
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Keyphrases
Acetaminophen
100%
Micronized
100%
Polymorph
100%
Dry Coating
50%
Scanning Electron Microscopy
50%
Powder X-ray Diffraction
50%
Micronization
50%
Intrinsic Dissolution
50%
Aging
25%
Low Energy
25%
Raman Spectroscopy
25%
Metastable Form
25%
Small Fraction
25%
Raman Spectra
25%
Functionalized Silica
25%
Van Der Waals
25%
Nanosilica
25%
Raman Measurements
25%
Dissolution Profile
25%
Acetaminophen APAP
25%
Isotropic Phase
25%
I-It
25%
X-ray Scanning
25%
Electron Microscopy Techniques
25%
Time-dependent Scattering
25%
X-ray Powder Diffraction Data
25%
Liquid Crystal Composites
25%
Integrated Intensity
25%
Aged Samples
25%
Background Scattering
25%
Silica Liquid
25%
Permanent Memory Effect
25%
Silica Coating
25%
Nanosilica Particles
25%
Energy Defect
25%
Material Science
Powder
100%
Polymorphism
100%
Powder X-Ray Diffraction
100%
Scanning Electron Microscopy
66%
Microscopy
33%
Liquid Crystal
33%
Silica Nanoparticle
33%
Raman Spectroscopy
33%
Silicon Dioxide
33%
Nanosilica
33%
Memory Effect
33%
Pharmacology, Toxicology and Pharmaceutical Science
Scanning Electron Microscopy
100%
Paracetamol
100%
Microscopy
50%
Disease
50%
Liquid Crystal
50%
Silicon Dioxide
50%
Nanosilica
50%
Silica Nanoparticle
50%
Engineering
X-Ray Powder Diffraction
100%
Defects
66%
Liquid Crystal
33%
Crystallizes
33%
Raman Spectrum
33%
Silica Nanoparticle
33%
Memory Effect
33%
Saturates
33%
Nano Silica
33%
Integrated Intensity
33%
Energy Defect
33%