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基于金属氧化物的乙醇检测气敏材料的研究进展(12)
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摘要:[4]LIU X,CHENG S,LIU H,et al.A survey on gas sensing technology[J].Sensors,2012,12(7):9635-9665. [5]HüBERT T,BOON-BRETT L,BLACK G,et sensors-a review[J].Sensors and Actuators B:Chemical,2011,157(2):3
[4]LIU X,CHENG S,LIU H,et al.A survey on gas sensing technology[J].Sensors,2012,12(7):9635-9665.
[5]HüBERT T,BOON-BRETT L,BLACK G,et sensors-a review[J].Sensors and Actuators B:Chemical,2011,157(2):329-352.
[6]YAMAZOE N,SHIMANOE K.New perspectives of gas sensor technology[J].Sensors and Actuators B:Chemical,2009,138(1):100-107.
[7]ZHU Z,KAO C T,WU R J.A highly sensitive ethanol sensor based on Ag@TiO2nanoparticles at room temperature[J].Applied Surface Science,2014,320:348-355.
[8]RAUT B T,GODSE P R,PAWAR S G,et al.Novel method for fabrication of polyaniline-CdS sensor for H2S gas detection[J].Measurement,2012,45(1):94-100.
[9]KARMAOUI M,LEONARDI S G,LATINO M,et In2O3nanoparticles and their ability as a highly sensitive(<10ppb)acetone sensor for biomedical applications[J].Sensors and Actuators B:Chemical,2016,230:697-705.
[10]JIN C,PARK S,KIM H,et multiple networked Ga2O3-core/ZnO-shell nanorod gas sensors[J].Sensors and Actuators B:Chemical,2012,161(1):223-228.
[11]WANG C,YIN L,ZHANG L,et al.Metal oxide gas sensors:sensitivity and influencing factors[J].Sensors,2010,10(3):2088-2106.
[12]MIRZAEI A,JANGHORBAN K,HASHEMI B,et stable and selective ethanol sensor based on α-Fe2O3nanoparticles prepared by pechini sol-gel method[J].Ceramics International,2016,42(5):6136-6144.
[13]SUN Y F,LIU S B,MENG F L,et al.Metal oxide nanostructures and their gas sensing properties:a review[J].Sensors,2012,12(3):2610-2631.
[14]YAMAZOE N,SHIMANOE K.Basic approach to the transducer function of oxide semiconductor gas sensors[J].Sensors&Actuators B:Chemical,2011,160(1):1352-1362.
[15]ZHANG J,LIU X,NERI G,et materials for roomtemperature gas sensors[J].Advanced Materials,2016,28(5):795-831.
[16]JIN C,GE C,XU G,et of nanoparticle size on ethanol gas sensing performance of mesoporous α-Fe2O3hollow spheres[J].Materials Science and Engineering B,2017,224:158-162.
[17]AMBARDEKAR V,BANDYOPADHYAY P P,MAJUMDER S plasma sprayed SnO2coating for ethanol detection[J].Journal of Alloys and Compounds,2018,752:440-447.
[18]TANG W,WANG J,QIAO Q,et for acetone sensing property of Pd-loaded SnO2nanofibers prepared by electrospinning:Fermi-level effects[J].Journal of Materials Science,2015,50(6):2605-2615.
[19]ZHANG J,LIANG Y,MAO J,et al.3D microporous Co3O4-carbon hybrids biotemplated from butterfly wings as high performance VOCs gas sensor[J].Sensors and Actuators B:Chemical,2016,235:420-431.
[20]CHUNG J S,HUR S H.A highly sensitive enzyme-free glucose sensor based on Co3O4nanoflowers and 3D graphene oxide hydrogel fabricatedviahydrothermal synthesis[J].Sensors and Actuators B:Chemical,2016,223:76-82.
[21]ZHANG M L,SONG J P,YUAN Z H,et improvement for In2O3-TiO2thick film gas sensors[J].Current Applied Physics,2012,12(3):678-683.
[22]MONTAZERI A,JAMALI-SHEINI ethanol gas-sensing performance of Pb-doped In2O3nanostructures prepared by sonochemical method[J].Sensors and Actuators B:Chemical,2017,242:778-791.
[23]XU J J,LI S J,LI L,et fabrication and superior gas sensing properties of spongelike Co-doped ZnO microspheres for ethanol sensors[J].Ceramics International,2018,44(14):-.
[24]XING L L,YUAN S,CHEN Z H,et gas sensing performance of SnO2/α-MoO3heterostructure nanobelts[J].Nanotechnology,2011,22(22):.
[25]唐伟,王兢.金属氧化物异质结气体传感器气敏增强机理[J].物理化学学报,2016,32(5): W,WANG gas sensing mechanisms of metal oxide heterojunction gas sensors[J].Acta Physico-Chimica Sinica,2016,32(5):1087-1104.
[26]PARK S,KIM S,SUN G J,et sensing properties of networked In2O3,nanorods decorated with Cr2O3-nanoparticles[J].Ceramics International,2015,41(8):9823-9827.
[27]KATOCH A,CHOI S W,KIM J H,et of the nanograin size on the H2S-sensing properties of ZnO-CuO composite nanofibers[J].Sensors and Actuators B:Chemical,2015,214:111-116.
[28]NAYAK A K,GHOSH R,SANTRA S, nanostructured WO3-SnO2for selective sensing of volatile organic compounds[J].Nanoscale,2015,7(29):-.
[29]KUMAR M,BHATI V S,RANWA S,et al.Pd/ZnO nanorods based sensor for highly selective detection of extremely low concentration hydrogen[J].Scientific Reports,2017,7(1):236.
[30]PRADES J D,JIMENEZ-DIAZ R,HERNANDEZ-RAMIREZ F,et power consumption gas sensors based on self-heated individualnanowires[J].Applied PhysicsLetters,2008,93(12):.
[31]LUPAN O,POSTICA V,LABAT F,et and selective hydrogen nanosensor with fast response at room temperature based on a single Pd/ZnO nanowire[J].Sensors and Actuators B:Chemical,2018,254:1259-1270.
[32]GANESH R S,DURGADEVI E,NAVANEETHAN M,et al.Low temperature ammonia gas sensorbased on Mn-doped ZnO nanoparticle decorated microspheres[J].JournalofAlloys and Compounds,2017,721:182-190.
[33]KIM H J,LEE J H.Highly sensitive and selective gas sensors using ptype oxide semiconductors:overview[J].Sensors and Actuators B:Chemical,2014,192:607-627.
[34]SAN X,WANG G,LIANG B,et NiO hierarchical microspheres self-assembled with nanosheets: surfactant-free solvothermal synthesis and their gas sensing properties[J].Journal of Alloys and Compounds,2015,636:357-362.
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