Detection and identification of impurities

Filab detects and identifies by scanning electron microscopy with EDX (SEM-EDX) :
  • Pollution identification (particle inclusion)
  • Characterisation of surface defects and adhesion problems
  • Detection of residual pollution (lubricants, soap residues,…)
  • Ageing studies
Filab detects and identifies impurities by ICP-AES, ICP-MS and OES :
  • Quantification of heavy metals
  • Identification of impurities (particles, unknown deposits, ...)
  • Nickel release testing
  • Artificial sweat tests
  • Precious metal analysis
  • Detection of heavy metals
Filab detects and identifies impurities by GC-FID, GC-MS and UPLC-MS/MS :
  • Detection and quantification of contaminants (residual solvents, pesticides, allergens, …)
  • Quantification of dimethyl fumarate
  • Quantification of melamine
  • Quantification of  bisphenol A
  • Quantification of phthalates
  • Quantification of formaldehyde
  • Quantification of residual solvents
  • Quantification of VOCs
  • Quantification of BTEX
  • Quantification of HAP
  • Validation of cleaning processes...
  • Quantification of morpholine
  • Quantification of peracetic acid
  • Quantification of THCs
  • Quantification of PCBs
 
Filab detects and identifies impurities by NMR :
  • Analysis of active principles
  • Determination of optical purity
  • Measurement of enantiomeric excess
Filab detects and identifies impurities according to the European Pharmacopoeia :
  • Detection of heavy metals
  • Analysis of active principles
Filab detects and identifies impurities according to current standards :
  • PMUC control analyses (EDF) (products for nuclear power stations)
  • PMUC approval analyses (EDF)
  • RoHS diagnosis
  • Migration testing
  • Determination of extractable content
  • Global/specific migration testing
  • Validation of cleaning processes
  • Identification and quantification of foreign phase content by XRD
  • Detection of oxyapatite
 

Detection and identification of impurities

Filab detects and identifies by scanning electron microscopy with EDX (SEM-EDX) :
  • Pollution identification (particle inclusion)
  • Characterisation of surface defects and adhesion problems
  • Detection of residual pollution (lubricants, soap residues,…)
  • Ageing studies
Filab detects and identifies impurities by ICP-AES, ICP-MS and OES :
  • Quantification of heavy metals
  • Identification of impurities (particles, unknown deposits, ...)
  • Nickel release testing
  • Artificial sweat tests
  • Precious metal analysis
  • Detection of heavy metals
Filab detects and identifies impurities by GC-FID, GC-MS and UPLC-MS/MS :
  • Detection and quantification of contaminants (residual solvents, pesticides, allergens, …)
  • Quantification of dimethyl fumarate
  • Quantification of melamine
  • Quantification of  bisphenol A
  • Quantification of phthalates
  • Quantification of formaldehyde
  • Quantification of residual solvents
  • Quantification of VOCs
  • Quantification of BTEX
  • Quantification of HAP
  • Validation of cleaning processes...
  • Quantification of morpholine
  • Quantification of peracetic acid
  • Quantification of THCs
  • Quantification of PCBs
 
Filab detects and identifies impurities by NMR :
  • Analysis of active principles
  • Determination of optical purity
  • Measurement of enantiomeric excess
Filab detects and identifies impurities according to the European Pharmacopoeia :
  • Detection of heavy metals
  • Analysis of active principles
Filab detects and identifies impurities according to current standards :
  • PMUC control analyses (EDF) (products for nuclear power stations)
  • PMUC approval analyses (EDF)
  • RoHS diagnosis
  • Migration testing
  • Determination of extractable content
  • Global/specific migration testing
  • Validation of cleaning processes
  • Identification and quantification of foreign phase content by XRD
  • Detection of oxyapatite
 
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