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DTSTART:20260329T030000
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DTSTAMP:20260406T163100Z
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DTSTART;TZID=Europe/Rome:20260331T090000
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DESCRIPTION:Magnetic Detection Modules for Biochips\n\nMagnetoresistive (MR
 ) biochips are evolving quickly into compact\, high-performance platforms 
 for sensitive\nbiomolecular detection. Current efforts emphasize refining 
 both the device architecture and the dynamic response\,\nwhile preserving 
 a minimal overall system footprint that includes the electronics\, microfl
 uidics\, excitation\nelements\, and the MR sensor chip. This presentation 
 will examine different chip-layout strategies aimed at reducing\nthe influ
 ence of external excitation fields. One approach embeds the magnetic field
  source directly within\nthe chip structure\, achieving strong field confi
 nement\, improved homogeneity\, and lower power consumption\,\nall while r
 emaining compatible with 200mm wafer-scale fabrication. Examples will be s
 hown for both dynamic\nand static detection modes.\n\nCatania\, Sicilia\, 
 Italy\, 95124
LOCATION:Catania\, Sicilia\, Italy\, 95124
ORGANIZER:maide.bucolo@unict.it
SEQUENCE:12
SUMMARY:Lecture of Prof. Susana Cardoso
URL;VALUE=URI:https://events.vtools.ieee.org/m/545826
X-ALT-DESC:Description: <br /><p>Magnetic Detection Modules for Biochips</p
 >\n<p>Magnetoresistive (MR) biochips are evolving quickly into compact\, h
 igh-performance platforms for sensitive<br>biomolecular detection. Current
  efforts emphasize refining both the device architecture and the dynamic r
 esponse\,<br>while preserving a minimal overall system footprint that incl
 udes the electronics\, microfluidics\, excitation<br>elements\, and the MR
  sensor chip. This presentation will examine different chip-layout strateg
 ies aimed at reducing<br>the influence of external excitation fields. One 
 approach embeds the magnetic field source directly within<br>the chip stru
 cture\, achieving strong field confinement\, improved homogeneity\, and lo
 wer power consumption\,<br>all while remaining compatible with 200mm wafer
 -scale fabrication. Examples will be shown for both dynamic<br>and static 
 detection modes.</p>
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