Tübingen (Germany), 7th to 9th of June, 2015

 

Monday, June 8

07:30

Registration

08:30

Nicolae Barsan, University of Tuebingen, Germany
Welcome Address

 

Session 1 – Fundamental Understanding (1/3)

09:00

Yoshihiko Sadaoka, Ehime University, Japan
VOC gas sensor based on metal oxides - Behaviour of adsorbed VOC on
the surface

09:40

Nan Ma, Kyushu University, Japan
Impact of Pd on the gas sensing properties of SnO2 based sensors in the
presence of water vapor

10:00

David Degler, University of Tuebingen, Germany
Identification of the reactive oxygen species on SnO2 by using
operando spectroscopy

10:20

Coffee Break

 

Session 2 – Fundamental Understanding (2/3)

10:40

Ken Watanabe, National Institute for Material Science (NIMS), Japan
Nonstoichiometry in metal oxide semiconductors in dry/wet atmosphere

11:20

Patrick Moseley, Atmospheric Sensors Ltd., United Kingdom
Gas Responses of the Imaginary Part

11:40

Šarunas Vaškelis, Center for Physical Sciences and Technology, Lithuania
Gas dependent occupation of surface electronic states in TiO2 films

12:00

Lunch Break



Session 3 – Fundamental Understanding (3/3)

13:00

Anne Hémeryck, Centre national de la recherche scientifique (CNRS), France
A Modeling tentative of operation of gas sensor through atomic scale
insights

13:40

Mauro Epifani, Istituto per la Microelettronica e i Microsistemi, Italy
The importance of surface chemistry in metal oxide nanocrystals based gas-sensors by DFT-aided approach: critical issues and perspectives

14:00

Guozhu Zhang, Huazhong University of Science and Technology, China
Temperature-programmed technique - A novel method to basically
understand the gas sensing of the MOS gas sensor

14:20

Coffee Break

 

Session 4 – Advanced Materials (1/4)

14:40

Tong Zhang, Jilin University, China
Strategy for enhanced sensing of metal oxide semiconductor gas
sensors

15:20

Vincenzo Guidi, University of Ferrara, Italy
Thermo- and photo-activation of metal sulfides for gas sensing

15:40

Carrado Di Natale, University of Rome Tor Vergata, Italy
Photo-assisted chemical sensors based on porphyrins coated ZnO

16:00

Coffee Break

 

Session 5 – Advanced Materials (2/4)

16:20

Yeon Hoo Kim, Seoul National University, Republic of Korea
Self-activated transparent flexible all graphene gas sensor

16:40

Christine Leroux, Université de Toulon, France
Nanostructured cobalt ferrite for gas sensing

17:00

Geyu Lu, Jilin University, China
Highly Sensitive acetone sensor based on ZnFe2O4 hollow microspheres

17:30

Poster Session (see list below)

19:00

Conference Dinner

 

 

Tuesday, June 9

 

Session 6 – Advanced Materials (3/4)

08:30

Sang Sub Kim, Inha University, Republic of Korea
Overview and prospect of oxide nanowire sensors

09:10

Tetsuya Kida, Kumamoto University, Japan
Porosity control of gas sensing films using SnO2 nanorods for highly
sensitive ethanol detection

9:30

Young-Seok Shim, Seoul National University, Republic of Korea
Bamboo-like metal oxide nanorods for ultrasensitive VOC gas sensors

9:50

Carlo Cantalini, University of L’Aquila, Italy
Surface area effect on NO2 gas sensing properties of nanofiber-nanowire brush-like ZnO nanostructures compared to thin films

10.10

Coffee Break

 

Session 7 – Advanced Materials (4/4)

10:30

Jong-Heun Lee, Korea University, Republic of Korea
Highly selective detection of methyl benzenes using oxide
semiconductors

10:50

Anu Naik, Alphasense Limited, United Kingdom
Commercial opportunities for P-Type MOX sensors

11:10

Takafumi Akamatsu, National Institute of Advanced Industrial Science and Technology, Japan
Improved NO gas detection of cobalt oxide sensor by noble metal addition

11:30

Artem Marikutsa, Moscow State University, Russia
Sensing behaviour of nanocrystalline BaSnO3 to SO2

11:50

Sergio Roso, Universitat Rovira i Virgili, Spain
Synthesis of single crystalline In2O3 octahedra for detecting oxidizing and reducing gases at trace levels

12:10

Lunch Break

 

Session 8 – New Devices (1/2)

13:10

Anton Köck, Materials Center Leoben Forschung GmbH, Austria
Multi-sensor platform for smart building management -
Progress and aspects of CMOS-nanowire integration

13:50

Kuniyuki Izawa, Figaro Engineering Inc., Japan
Long-term stability of MEMS methane sensor

14:10

Elisabeth Preiss, Robert Bosch GmbH, Germany
Large area pulsed laser deposition of tin oxide for gas sensor
applications

14:30

Coffee Break

 

Session 9 – New Devices (2/2)

14:50

Danick Briand, Ecole Polytechnique Fédérale de Lausanne, Switzerland
Recent advances on printed metal-oxide gas sensors on polymeric foil

15:10

Tomas Plecenik, Comenius University, Slovak Republic
Highly-sensitive room-temperature semiconductor gas sensors based on
nanoscale metal-metal oxide-metal sandwich structures

15:30

Klaus Schierbaum, Heinrich-Heine University, Germany
Gas sensors based on PEO technology

15:50

Nicolae Barsan, University of Tuebingen, Germany
Closing Address

 

 

 

Presented Posters

Seonyong Lee, Seoul National University, Korea

Facile synthesis of 1-dimensional ?-Fe2O3 nanostructures for ultrasensitive gas sensors

 

Eduard Llobet, Universitat Rovira i Virgili, Avda. Països Catalans, Spain   

Synthesis, characterization and hydrogen sensing properties of palladium nanoparticle decorated tungsten oxide nanowires

 

Hyung-Gi Byun, Kangwon National University, South Korea  

Optimal Sensors Selection Technique for DADSS 

 

Manjeet Kumar, Defense Institute of Advanced Technology, India   

Selectivity improvement of Tin oxide based electronic nose for the detection of air pollutants  

 

Artem S. Chizhov, Moscow State University, Russia    

Room temperature NO2 sensors based on “Metal oxide/Quantum Dots” nanocomposites

 

Kengo Shimanoe, Kyushu University, Japan    

Determination of oxygen adsorption species on oxide semiconductor for highly sensitive gas sensor under humid condition

 

Nikolay Samotaev, National Research Nuclear University MEPhI, Russia             

Ammonia detection using MOX sensors in temperature pulse mode 

 

Zafer Ziya Öztürk, Gebze Technical University, Turkey

Electrical and gas sensing properties of TiO2 nanorods fabricated with hydrothermal method 

 

Julia Rebholz, University of Tuebingen, Germany        

Implications of conduction mechanism changes for sensing with SnO2 based gas sensors

 

Susanne Wicker, University of Tuebingen, Germany   

Impact of the doping method of commercial SnO2 on gas sensor response, humidity dependence and sensing mechanism

 

Albert Romano-Rodriguez, Universitat de Barcelona, Spain

Ultra-low power gas nanosensors fabricated from single metal-oxide nanowires

 

 

 

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