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UID:d58aeddddb84585090b8844994e581ee
CATEGORIES:Training
CREATED:20250211T161412
SUMMARY:FT-MS 2025 Thematic School
DESCRIPTION:Fourier Transform Mass Spectrometry (FT-ICR and Orbitrap) for the study of 
 small molecules.\nThe last two decades have led to the widespread availabil
 ity of Fourier Transform Mass Spectrometry (FTMS) for many researchers in F
 rance, through the acquisition of this type of equipment or through project
 s carried out thanks to the INC's Infranalytics research infrastructure (FR
 2054). Ion cyclotron resonance (FT-ICR) and Orbitrap instruments achieve ve
 ry high mass resolution (105 to 106) and unparalleled mass measurement accu
 racy (error < 1 ppm). The combinations with various separation technique
 s and the various ionization sources associated with it make FT-MS an incom
 parable tool for the qualitative and quantitative study of complex media in
 volving several hundred to several thousand small molecules (50 to 1,500 Da
 ) in the fields of energy, the environment, biology, archaeology, and cosmo
 logy. However, FTMS techniques still require significant expertise in both 
 the data acquisition and processing phases.\nPart of the CNRS training prog
 rams, the FTMS 2025 school is free for CNRS staff and is also widely open t
 o doctoral students, postdoctoral fellows, engineers, researchers, and lect
 urers (the number of participants is limited to 40). Organized from May 19 
 to 23 in Moselle on the VVF site "Les Vosges Bitche" by the Infranalytics r
 esearch infrastructure and the MassLor platform of the LCP-A2MC, the school
  aims to provide theoretical and practical training. It will allow particip
 ants to understand new technological advances, better target the contributi
 ons of FTMS in the context of their research projects and provide the tools
  necessary for the interpretation of the large quantities of data generated
 . It will also promote exchanges with experts in the field on issues relate
 d to their research theme.\n
X-ALT-DESC;FMTTYPE=text/html:<p><strong>Fourier Transform Mass Spectrometry (FT-ICR and Orbitrap) for th
 e study of small molecules.</strong></p><p>The last two decades have led to
  the widespread availability of Fourier Transform Mass Spectrometry (FTMS) 
 for many researchers in France, through the acquisition of this type of equ
 ipment or through projects carried out thanks to the INC's Infranalytics re
 search infrastructure (FR2054). Ion cyclotron resonance (FT-ICR) and Orbitr
 ap instruments achieve very high mass resolution (105 to 106) and unparalle
 led mass measurement accuracy (error &lt; 1 ppm). The combinations with var
 ious separation techniques and the various ionization sources associated wi
 th it make FT-MS an incomparable tool for the qualitative and quantitative 
 study of complex media involving several hundred to several thousand small 
 molecules (50 to 1,500 Da) in the fields of energy, the environment, biolog
 y, archaeology, and cosmology. However, FTMS techniques still require signi
 ficant expertise in both the data acquisition and processing phases.</p><p>
 Part of the CNRS training programs, the FTMS 2025 school is free for CNRS s
 taff and is also widely open to doctoral students, postdoctoral fellows, en
 gineers, researchers, and lecturers (the number of participants is limited 
 to 40). Organized from <strong>May 19 to 23 in Moselle</strong> on the VVF 
 site "Les Vosges Bitche" by the Infranalytics research infrastructure and t
 he MassLor platform of the LCP-A2MC, the school aims to provide theoretical
  and practical training. It will allow participants to understand new techn
 ological advances, better target the contributions of FTMS in the context o
 f their research projects and provide the tools necessary for the interpret
 ation of the large quantities of data generated. It will also promote excha
 nges with experts in the field on issues related to their research theme.</
 p>
DTSTAMP:20260504T115132
DTSTART;TZID=Europe/Paris;VALUE=DATE:20250519
DTEND;TZID=Europe/Paris;VALUE=DATE:20250524
SEQUENCE:0
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