Researcher identifiers

Number of documents

19

CV


Corinne DEJOUS

Diploma

1986            Scientific Baccalaureate (Libourne-F)

1991            Engineering Degree, ENSEIRB (High School in Electronics, Informatics, Radiocommunications, Bordeaux)

1991            Masters Degree, Electronics, University Bordeaux 1

1994            Ph.D., University Bordeaux 1, Electronics

2005            Habilitation to supervise PhD (HDR Degree) in Electronics, University Bordeaux 1

Positions

1991-96     Assistant Professor, ENSEIRB, Talence France

1996-08     Associate Professor, University Bordeaux 1

2008-…       Full Professor, Institut Polytechnique de Bordeaux (Bordeaux INP/ENSEIRB-MATMECA)

Teaching experience

Main topics : Basic Electronics, Instrumentation and Measurement, Sensors - Microsystems

Major teaching-related recent and current responsibilities

- Responsible for teaching units in Instrumentation (PH105-PH106, 2009-2013), Circuits and systems (EA118), Microsystems (ME2011), Microfabrication (UE SEE6-C) of which Micro- nano-technologies (ME101) since 2009

- Responsible for International Relations of Electronics Department, Bordeaux INP/ENSEIRB-MATMECA (2009-2013)

- Head of Embedded Electronic Systems Department (work-linked training), Bordeaux INP/ENSEIRB-MATMECA since 2013

Research topics

Development of surface acoustic wave-based (bio)chemical microsensors integrated with electronic control and signal processing. Study of elastic wave propagation and their interaction with liquid or gaseous medium. Integration of innovative structured materials as sensitive recognition films (polymers, hybrid, meso- nano-structured, biomaterials, etc.). Integration with microfluidic chips. Applications to the detection of chemical or biological species and to dynamic characterization of thin-film materials and complex fluids at high frequencies. Recent contributions are in RF microsensors on flexible substrates with nanostructured carbonated materials, polymeric optical microring resonator and digital microfluidic for application in detection of environmental analytes. Emerging field of research is on wireless solutions for micro-energy of which a new project on wireless communication platform for biomedical implants.

Major fields of application : health, environment, energy.

These research works are conducted within the team MDA [1]: Acoustic wave based and innovative Detection Microsystems, as part of the group WAVES (« ONDES [2]») which targets smart, multi-technology, communicating and sustainable wave-based devices and systems.

Main research-related recent and current responsibilities

- Scientific leader of Research topic on acoustic waves microsensors for application in liquid media, IMS (since 2005)

- Elected Member of the IMS Lab’s Council (2007-2016), Invited Member of Scientific Council of IMS Lab. (since 2016)

- Head of ONDES (WAVES) Group, IMS, merging former groups Materials and Microsystems in 2015 (since 2011)

- Responsible for GPU « Environnements » (one of four main projects of IMS lab., since 2016)


[1] https://www.ims-bordeaux.fr/en/recherche/research/101-waves/mda/91-mda

[2] https://www.ims-bordeaux.fr/en/recherche/research/99-waves/118-waves


Véronique Conédéra   

Journal articles8 documents

  • Ioannis Nikolaou, Hamida Hallil, Véronique Conédéra, Bernard Plano, Ollivier Tamarin, et al.. Electro-Mechanical properties of Inkjet-Printed graphene oxide nanosheets. physica status solidi (a), Wiley, 2017, 214 (3), pp.1600492. ⟨10.1002/pssa.201600492⟩. ⟨hal-01487662⟩
  • Ioannis Nikolaou, Hamida Hallil, Georges Deligeorgis, Véronique Conédéra, Hermenegildo Garcia, et al.. Drop-casted Graphene Oxide Love Wave sensor for detection of humidity and VOCs. Journal of Integrated Circuits and Systems, Brazilian Microelectronics Society, 2016, 11 (1), pp.49-56. ⟨http://www.sbmicro.org.br/jics/⟩. ⟨hal-01487665⟩
  • Ioannis Nikolaou, Hamida Hallil, Véronique Conédéra, Georges Deligeorgis, Corinne Dejous, et al.. Inkjet – printed graphene oxide thin layers on Love wave devices for humidity and vapor Detection. IEEE Sensors Journal, Institute of Electrical and Electronics Engineers, 2016, 16 (21), pp.7620 - 7627. ⟨http://ieeexplore.ieee.org/document/7543460/⟩. ⟨10.1109/JSEN.2016.2600269⟩. ⟨hal-01393038⟩
  • Farida Meziane, Vincent Raimbault, Hamida Hallil, Simon Joly, Véronique Conédéra, et al.. Study of a polymer optical microring resonator for hexavalent chromium sensing. Sensors and Actuators B: Chemical, Elsevier, 2015, 209, pp.1049-1056. ⟨10.1016/j.snb.2014.11.101⟩. ⟨hal-01112028⟩
  • Gregory Tortissier, Laurianne Blanc, Angelique Tetelin, Jean-Luc Lachaud, Monique Benoit, et al.. Langasite based Surface Acoustic Wave Sensors for High Temperature Chemical Detection in Harsh Environment: Design of the Transducers and Packaging. Sensors and Actuators B: Chemical, Elsevier, 2011, 156 (2), pp.510-516. ⟨hal-00582824⟩
  • Vincent Raimbault, Dominique Rebiere, Corinne Dejous, Matthieu Guirardel, Véronique Conédéra. Acoustic Love wave platform with PDMS microfluidic chip. Sensors and Actuators A: Physical , Elsevier, 2008, 142 (1), pp.160-165. ⟨10.1016/j.sna.2007.05.026⟩. ⟨hal-00183746⟩
  • Vincent Raimbault, Dominique Rebiere, Corinne Dejous, Matthieu Guirardel, Véronique Conédéra, et al.. High viscosity sensing using a love wave acoustic platform combined with a PDMS microfluidic chip. ECS Transactions, Electrochemical Society, Inc., 2006, 4, pp.73-81. ⟨hal-00183750⟩
  • Florence Razan, Dominique Rebiere, Corinne Dejous, D. Monin, M. Joanicot, et al.. Determination of menthol kinetic constants with Love-wave device. Sensors and Actuators B: Chemical, Elsevier, 2006, 118, pp.368-373. ⟨hal-00183749⟩

Conference papers11 documents

  • Ioannis Nikolaou, Hamida Hallil, Véronique Conédéra, Jean-Luc Lachaud, Corinne Dejous, et al.. Properties of Love wave sensors based on graphene oxides. The 16th International Meeting on Chemical Sensors (IMCS 2016), Jul 2016, Jeju Island, South Korea. ⟨hal-01393050⟩
  • Ioannis Nikolaou, Hamida Hallil, Véronique Conédéra, Jean-Luc Lachaud, Corinne Dejous, et al.. Enhanced properties of Love wave microsensors with Inkjet-Printed graphene oxide layers. E-MRS 2016 Spring Meeting, May 2016, Lille, France. 1p. ⟨hal-01312726⟩
  • Ioannis Nikolaou, Hamida Hallil, Georges Deligeorgis, Véronique Conédéra, Hermenegildo Garcia, et al.. Novel SAW gas sensor based on graphene. Microelectronics Technology and Devices (SBMicro), Aug 2015, Salvador, Brazil. ⟨10.1109/SBMicro.2015.7298140⟩. ⟨hal-01308540⟩
  • Ioannis Nikolaou, Hamida Hallil, Corinne Dejous, Dominique Rebière, Georges Deligeorgis, et al.. Inkjet – Printed graphene layer by layer on SAW devices for gas detection applications. SENSORS, 2015 IEEE, Nov 2015, Busan, South Korea. ⟨hal-01308541⟩
  • Ioannis Nikolaou, Hamida Hallil, Georges Deligeorgis, Véronique Conédéra, Hermenegildo Garcia, et al.. Real time VOCs and humidity monitoring based on ultrasensitive Graphene - SAW devices. Journée CMC2 « Intégration du Matériau au Système de détection chimique résonant », May 2015, Bordeaux, France. ⟨hal-01312734⟩
  • Farida Meziane, Vincent Raimbault, Simon Joly, Hamida Hallil, Véronique Conédéra, et al.. Digital microfluidic system incorporating optical ring resonator for trace-level hexavalent chromium ions Cr(VI) detection. 18 èmes Journées Nationales du Réseau Doctoral en Micro - nanoélectronique, May 2015, Bordeaux, France. ⟨hal-01308538⟩
  • Farida Meziane, Vincent Raimbault, Hamida Hallil, Simon Joly, Véronique Conédéra, et al.. Digital microfluidic system incorporating optical ring resonator for trace-level hexavalent chromium ions detection. Journée CMC2 « Intégration du Matériau au Système de détection chimique résonant », May 2015, Bordeaux, France. ⟨hal-01312736⟩
  • Ioannis Nikolaou, Hamida Hallil, Georges Deligeorgis, Véronique Conédéra, Hermenegildo Garcia, et al.. Novel SH-SAW gas sensor based on graphene. SPIE 9517, Smart Sensors, Actuators, and MEMS VII; and Cyber Physical Systems, May 2015, Barcelona, Spain. ⟨10.1117/12.2178260⟩. ⟨hal-01308534⟩
  • Vincent Raimbault, Dominique Rebiere, Corinne Dejous, Matthieu Guirardel, Véronique Conédéra. Microfluidic Love Wave Sensor for Highly Viscous Environments. 2007 MRS Spring Meeting, 2007, United States. pp.1. ⟨hal-00183765⟩
  • Vincent Raimbault, Dominique Rebiere, Corinne Dejous, Matthieu Guirardel, Véronique Conédéra. Acoustic Love wave platform with PDMS microfluidic chip. 20th Eurosensors Conference, 2006, Sweden. pp.1. ⟨hal-00183767⟩
  • Florence Razan, Dominique Rebiere, Corinne Dejous, D. Monin, M. Joanicot, et al.. Determination of menthol kinetic constants with Love-wave device. Eurosensors XIX,, 2005, Spain. pp.1. ⟨hal-00184201⟩