’Όόγ‚Ι”z’u

2012”N
@@
@E”­•\@8Œi‘Ϋ‰ο‹c@2Œj
ƒ”­•\˜_•Ά„
@@@Eu NO2 and CO2 Sensing Properties of LISICON-Based Sensor Operative at Room Temperaturev
@@@@@iSensors and Materials, Vol.24, pp.43-56 (2012).)


2011”N
@@
@E”­•\@13Œi‘Ϋ‰ο‹c@4Œj
ƒ”­•\˜_•Ά„
@@@Eu First-principles Study on the Electronic Structure of Sr2Bi2O5 Crystalv
@@@@@iJournal of Physics and Chemistry of Solids, Vol.72, pp.1477-1481 (2011).)

@@@EuPreparation and Characterization of Ca4Bi6O13 Complex Oxidev
@@@@@iChemistry Letters, Vol. 40, No. 3, P.288-289 (2011).)


2010”N
@@
@E”­•\@7Œi‘Ϋ‰ο‹c@1Œj
ƒ”­•\˜_•Ά„
@@@EuCO2 sensing performances of potentiometric sensor based on Na1+xZr2Si2PO12 (0<x<3)v
@@@@@iJournal of the Ceramic Society of Japan, 118[3], 213-216 (2010).)

@@@EuCO2 and NO2 sensing properties of NASICON-based potentiometric sensor attached with
@@@@ metal oxide at low temperaturev
@@@@@iTechnical Digest of the 13 th Internatinal Meeting on Chemical Sensors, P.227
@@@@@@(in Perth, Western Australia) (2010).
)


2009”N
@@
@E”­•\@5Œi‘Ϋ‰ο‹c@2Œj
ƒ”­•\˜_•Ά„
@@@EuRelationship between Aging Time and EMF Change of Potentiometric CO2
@@@@Device Using Na
1+xZr2SixP3-xO12 (0ƒxƒ3)v
@@@@@iSensors and Actuatros B139, 435-439 (2009))

@@@EuCO2 Sensing Performances of Potentiometric Sensor Based on Na1+xZr2Si2PO12 (0<x<3)v
@@@@@iProceedings of the 13 th Internatinal Symposium on Olfaction and Electronic Nose,
@@@@@@American Institute of Physics, pp.392-393 (2009).
)


2008”N
@@
@E”­•\@13Œi‘Ϋ‰ο‹c@1Œj
ƒ”­•\˜_•Ά„
@@@EuNASICON-based NO2 device attached with metal oxide and nitrite compound
@@@@@for the low temperature operationv
@@@@@iSensors and Actuatros B130, 269-276 (2008))


2007”N
@@
@E”­•\@5Œi‘Ϋ‰ο‹c@1Œj

2006”N
@@
@E”­•\@4Œi‘Ϋ‰ο‹c@1Œj

2005”N
@@@E”­•\@5Œ
ƒ”­•\˜_•Ά„
@@@EuSesing Properties of NASICON-Based NO
2 Sensor Attached with Metal Oxide
@@@@@Operative at Room Temperaturev
@@@@@iElectrochemistry, 73, 956-958 (2005).)


2004”N
@@@E”­•\@5Œi‘Ϋ‰ο‹c@1Œj
ƒ”­•\˜_•Ά„

@@@EuNASICON-Based Potentiometric CO
2 sensor Combined with New Materials
@@@@@Operative at Room Temperaturev
@@@@@iTechnical Digest of the 10 th Internatinal Meeting on Chemical Sensors,
@@@@@@ 2D06, 234-235 (2004).j
@@@E
uDevelopment of FET-Type CO2 Sensor Operative at Room Temperaturev
@@@@iSensors and Actuatros B102, 14-19 (2004) [K. Shimanoe et al.])


2003”N
@@@E”­•\@2Œi‘Ϋ‰ο‹c@1Œj
ƒ”­•\˜_•Ά„
@@@EuInfluences of Water Vapor on NASICON-based CO
2 Sensor Operative
@@@@ at Room Temperaturev
@@@@@iSensors and Actuators B93, 243-249 (2003).j
@@@EuNASICON-based CO
2 Sensor Operative at Room Temperature Using
@@@@ Li
2CO3-BaCO3 Auxiliary Phasev
@@@@@iElectrochemistry, 71,496-502 (2003).j
@@@EuNASICON Devices Attached with Li
2CO3-BaCO3 Auxiliary Phase for CO2
@@@@ Sensing under Ambient Conditionsv
@@@@@iJournal of Materials Science, 38, 4283-4288 (2003).j

2002”N
@@@E”­•\@2Œi‘Ϋ‰ο‹c@1Œj

2001”N
@@@E”­•\@2Œi‘Ϋ‰ο‹c@2Œj
ƒ”­•\˜_•Ά„
@@@EuPotentiometoric Sensor Based on NASICON and In
2O3
@@@@ for Detection of CO
2 at Room Temperature -Modification
@@@@ with Foreign Substancesv
@@@@@iSensors and Actuators B 76, 639-643 (2001).)
ƒu‰‰—vŽ|„
@@@EuCO
2 Sensing Mechanism for In2O3-attached NASICON Sensor
@@@@ Operative at Room Temperaturev
@@@@@iProceedings of the 5th of East Asian Conference on Chemical Sensors,
@@@@@@2B10, 129-131 (2001).j

2000”N
@@@E”­•\@3Œi‘Ϋ‰ο‹c@1Œj


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