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Peer-reviewed journals

2017

142. E. Zeglio, J. Eriksson, R. Gabrielsson, N. Solin, O. Inganäs, Highly Stable Conjugated Polyelectrolytes for Water-Based Hybrid Mode Electrochemical Transistors, Advanced Materials, accepted, 16 January 2017

141. C. Bouhafs, A.A. Zakharov, I.G. Ivanov, F. Giannazzo, J. Eriksson, V. Stanishev, P. Kühne, T. Iakimov, T. Hofmann, M. Schubert, F. Roccaforte, R. Yakimova, V. Darakcheiva, Multi-scale investigations of interface properties, stacking order and decoupling of few layer graphene on C-face 4H-SiC, Carbon 116 722-732 (2017)

2016

140. I. Shtepliuk, J. Eriksson, V. Khranovskyy, T. Iakimov, A. Lloyd Spetz, R. Yakimova, Monolayer graphene/SiC Schottky barrier diodes with improved barrier height uniformity as a sensing platform for the detection of heavy metals, Beilstein J. Nanotechnol. 7, 1800–1814 (2016)

139. M. Andersson, M. Bastuck, J. Huotari, A. Lloyd Spetz, J. Lappalainen, A. Schütze, D. Puglisi, SiC-FET sensors for selective and quantitative detection of VOCs down to ppb level, Procedia Engineering 168 (2016) 216-220. DOI:10.1016/j.proeng.2016.11.165

138. M. Bastuck, D. Puglisi, J. Huotari, T. Sauerwald, J. Lappalainen, A. Lloyd Spetz, M. Andersson, A. Schütze, Exploring the selectivity of WO3 with iridium catalyst in an ethanol/naphthalene mixture using multivariate statistics, Thin Solid Films 618 (2016) 263-270. DOI:10.1016/j.tsf.2016.08.002

137. P. Möller, M. Andersson, A.Lloyd Spetz, J. Puustinen, J. Lappalainen, J. Eriksson, NOx Sensing with SiC Field Effect Transistors, Materials Science Forum 858 (2016) 993-996. DOI:10.4028/www.scientific.net/MSF.858.993

136. J. Eriksson, D. Puglisi, C. Strandqvist, R. Gunnarsson, S. Ekeroth, I. G. Ivanov, U. Helmersson, K. Uvdal, R. Yakimova, and A. Lloyd Spetz, Modified Epitaxial Graphene on SiC for Extremely Sensitive and Selective Gas Sensors, Materials Science Forum 858 (2016) 1145-1148. DOI:10.4028/www.scientific.net/MSF.858.1145

135. D. Puglisi, J. Eriksson, M. Andersson, J. Huotari, M. Bastuck, C. Bur, J. Lappalainen, A. Schuetze, and A. Lloyd Spetz, Exploring the Gas Sensing Performance of Catalytic Metal/Metal Oxide 4H-SiC Field Effect Transistors, Materials Science Forum 858 (2016) 997-1000. DOI:10.4028/www.scientific.net/MSF.858.997

2015

134. H. Fashandi, V. Ivady, P. Eklund, A. Lloyd Spetz, M. I. Katsnelson, I. A. Abrikosov, Dirac points with giant spin-orbit splitting in the electronic structure of two-dimensional transition-metal carbides, Physical Review B 92, 155142 (2015).

133. C. Bur, M. Bastuck, D. Puglisi, A. Schuetze, A. Lloyd Spetz, and M. Andersson, Discrimination and Quantification of Volatile Organic Compounds in the ppb-Range with Gas Sensitive SiC-FETs Using Multivariate Statistics, Sensors and Actuators B: Chemical 214 (2015) 225-233. http://dx.doi.org/10.1016/j.snb.2015.03.016

132. H. Fashandi, M. Andersson, J. Eriksson, J. Lu, K. Smedfors, C.-M. Zetterling, A. Lloyd Spetz, and P. Eklund, Single-step synthesis process of Ti3SiC2 ohmic contacts on 4H-SiC by sputter-deposition of Ti, Scripta Materialia 99 (2015) 53-56.

131. D. Puglisi, J. Eriksson, C. Bur, A. Schuetze, A. Lloyd Spetz, and M. Andersson, Catalytic metal-gate field effect transistors based on SiC for indoor air quality control, J. Sens. Sens. Syst., 4, 1-8, doi: 10.5194/jsss-4-1-2015, 2015.

2014

130. C. Bur, M. Bastuck, D. Puglisi, A. Schuetze, A. Lloyd Spetz, and M. Andersson, Discrimination and Quantification of Volatile Organic Compounds in the ppb-Range with Gas Sensitive SiC-Field Effect Transistors, Procedia Engineering, Eurosensors 2014, 87 (2014) 604-607. DOI: 10.1016/j.proeng.2014.11.561

129. D. Puglisi, J. Eriksson, C. Bur, A. Schuetze, A. Lloyd Spetz, and M. Andersson, Silicon carbide field effect transistors for detection of ultra-low concentrations of hazardous volatile organic compounds, Mat. Sci. Forum Vols. 778-780 (2014) pp. 1067-1070. doi: 10.4028/www.scientific.net/MSF.778-780.1067

128. Z. Darmastuti, C. Bur, P. Möller, R. Rahlin, N. Lindqvist, M. Andersson, A. Schütze, and A. Lloyd Spetz, SiC-FET based SO2 sensor for power plant emission applications, Sensors and Actuators B: Chemical, 194 (2014) 511-520.

127.   J. Eriksson, D. Puglisi, K. Yu Hsuan, R. Yakimova, and A. Lloyd Spetz, Adjusting the electronic properties and gas reactivity of epitaxial graphene by thin surface metallizations, Physica B, 439 (2014) 105-108.

2013

126.   R. Pearce, J. Eriksson, T. Iakimov, L. Hultman, A. Lloyd Spetz, and R. Yakimova, On the Differing Sensitivity to Chemical Gating of Single and Double Layer Epitaxial Graphene Explored Using Scanning Kelvin Probe Microscopy, ACS Nano 7 (5) (2013) 4647-4656.

125.   A. Lloyd Spetz, J. Huotari, C. Bur, J. Lappalainen, A. Schütze, M. Andersson, Chemical sensor systems for emission control from combustions, Sensor and Actuators B: Chemical, 187 (2013) 184-190. DOI: 10.1016/j.snb.2012.10.078.

124.   J. Eriksson, D. Puglisi, R. Vasiliauskas, A. Lloyd Spetz, and R. Yakimova, Thickness uniformity and electron doping in epitaxial graphene on SiC, Mat. Sci. Forum, 740-742 (2013) 153-156.

123.   M. Andersson, R. Pearce, A. Lloyd Spetz, New generation SiC based field effect transistor gas sensors, Sensors and Actuators B: Chemical, 179 (2013) 95-106. DOI:10.1016/j.snb.2012.12.059

122.   Z. Darmastuti, P. Bhattacharyya, M. Andersson, J. Kanungo, B. Basu, L. Ojamae, A. Lloyd Spetz, SiC-FET Sensors for Methanol leakage detection, Sensors and Actuators B: Chemical, 187 (2013) 553-562. DOI:10.1016/j.snb.2012.12.086

121.   A. Lloyd Spetz, Z. Darmastuti, R. Bjorklund, M. Andersson, C. Bur, A. Schuetze, J. Huotari, J. Lappalainen, H. Jantunen, and N. Lindqvist, Improved chemical sensors track and control emissions, 1 May 2013, SPIE Newsroom. DOI: 10.1117/2.1201304.004839

120.   R. Yakimova, G.R. Yazdi, T. Iakimov, J. Eriksson, and V. Darakchieva, Challenges of Graphene Growth and Silicon Carbide, ECS Trans., 53 (1) (2013) 9-16. DOI: 10.1149/05301.0009ecst

119.   E. M. Seftel, P. Cool, A. Lloyd Spetz, D. Lutic, Synthesis and characterization of catalytic metal semiconductor-doped siliceous materials with ordered structure for chemical sensoring, J. Porous Mater., 20 (2013) 1119-1128. DOI: 10.1007/s10934-013-9694-2

118.   M. Andersson, R. Pearce, and A. Lloyd Spetz, New generation SiC based field effect transistor gas sensors, Sensors and Actuators B: Chemical, 179 (2013) 95-106. DOI:10.1016/j.snb.2012.12.059

117.   Z. Darmastuti, P. Bhattacharyya, M. Andersson, J. Kanungo, B. Basu, L. Ojamae, and A. Lloyd Spetz, SiC-FET Sensors for Methanol leakage detection, Sensors and Actuators B: Chemical, 187 (2013) 553-562. DOI:10.1016/j.snb.2012.12.086

116.   J. Huotari, J. Lappalainen, J. Puustinen, and A. Lloyd Spetz, Gas sensing properties of pulsed laser deposited vanadium oxide thin films with various crystal structures, Sensors and Actuators B: Chemical, 187 (2013) 386-394. DOI:10.1016/j.snb.2012.12.067

115.   A. Lloyd Spetz, J. Huotari, C. Bur, R. Bjorklund, J. Lappalainen, J. Jantunen, A. Schütze, and M. Andersson, Chemical sensor systems for emission control from combustions, Sensor and Actuators B: Chemical, 187 (2013) 194-190. DOI: 10.1016/j.snb.2012.10.078

2012

114.   Bur, P. Reimann, M. Andersson, A. Lloyd Spetz, and A. Schütze, New method for selectivity enhancement of SiC field effect gas sensors for quantification of NOx, Microsystem Technologies, Springer-Verlag, Berlin, 18, 7 (2012) 1015-1025. DOI: 10.1007/s00542-012-1434-z

113.   J. Eriksson, R. Pearce, T. Iakimov, C. Vironajadara, D. Gogova, M. Andersson, M. Syväjärvi. A. Lloyd Spetz, and R. Yakimova, The influence of substrate morphology on thickness uniformity and unintentional doping of epitaxial graphene on SiC, Appl. Phys. Lett., 100 (2012) 241607. DOI:10.1063/1.4729556

112.   R. Pearce, R. Yakimova, J. Eriksson, L. Hultman, M. Andersson, and A. Lloyd Spetz, Development of FETs and resistive devices based on epitaxially grown single layer graphene on SiC for highly sensitive gas detection, Mat. Sci. Forum, 717-720 (2012) 687-690. DOI:10.4028/www.scientific.net/MSF.717-720.687

111.   A. Larsson, O. Storstrom, T.T. Seip, M. Hjelstuen, R. Bjorklund, A. Lloyd Spetz, M.L. Johansson, A. Grant, P. Jozsa, P.-E. Fägerman, J. Paaso, and L. Hammarlund, Thermal management system for particle sensors design, performance and verification, IEEE Sensors J., 12, 6 (2012) 2299-2305. DOI:10.1109/JSEN.2012.2185044

110.   R. Pearce, R. Yakimova, J. Eriksson, L. Hultman, M. Andersson, and A. Lloyd Spetz, Development of FETs and resistive devices based on epitaxially grown single layer graphene on SiC for highly sensitive gas detection, Mat. Sci. Forum, 717-720 (2012) 687-690. DOI:10.4028/www.scientific.net/MSF.717-720.687

109.   J. Eriksson, R. Pearce, T. Iakimov, C. Vironajadara, D. Gogova, M. Andersson, M. Syväjärvi. A. Lloyd Spetz, and R. Yakimova, The influence of substrate morphology on thickness uniformity and unintentional doping of epitaxial graphene on SiC, Appl. Phys. Lett., 100 (2012) 241607. DOI:10.1063/1.4729556

108.   K. Buchholt, P. Eklund, J. Jensen, J. Lu, R. Ghandi, M. Domeij, C.M. Zetterling, G. Behan, H. Zhang, A. Lloyd Spetz, and L. Hultman, Growth and characterization of epitaxial Ti3GeC2 thin films on 4H-SiC(0001), J. Crystal Growth, 343,1 (2012) 133-137. URL: http://dx.doi.org/10.1016/j.jcrysgro.2012.01.020

107.   C. Bur, P. Reimann, M. Andersson, A. Lloyd Spetz, and A. Schütze, Increasing the selectivity of Pt-gate SiC field effect gas sensors by dynamic temperature modulation, IEEE Sensors J., 12, 6 (2012) 1906-1913. DOI: 10.1109/JSEN.2011.2179645

106.   C. Bur, P. Reimann, M. Andersson, A. Lloyd Spetz, and A. Schütze, New method for selectivity enhancement of SiC field effect gas sensors for quantification of NOx, Microsystem Technologies, Springer-Verlag, Berlin, 18, 7 (2012) 1015-1025. DOI: 10.1007/s00542-012-1434-z

105.   A. Lloyd Spetz, Vacuum technology applied to solid state chemical sensors, processing, characterization and applications, Vacuum, 86 (2012) 488-494. Review paper. URL: http://dx.doi.org/10.1016/j.vacuum.2011.08.013

104.   R. Yakimova, L. Selegård, V. Khranovskyy, R. Pearce, A. Lloyd Spetz, and K. Uvdal, ZnO materials and surface tailoring for biosensing, Frontiers in Biosensing, E4 (2012) 254-278. Review paper. DOI: 10.2741/374

2011

103.   K. Buchholt, P. Eklund, J. Jensen, J. Lu, A. Lloyd Spetz, and L. Hultman, Step-flow growth of nanolaminate Ti3SiC2 epitaxial layers on 4H-SiC(0001), Scripta Materalia, 64, 12 (2011) 1141-1144. URL: http://dx.doi.org/10.1016/j.scriptamat.2011.03.013

102.   A. Virshup, F. Liu, D. Lukco, K. Buchholt, A. Lloyd Spetz, and L.M. Porter, Improved Thermal Stability Observed in Ni-Based Ohmic Contacts to n-Type SiC for High-Temperature Applications, J. Electr. Mat. 40, 4 (2011) 400-405. DOI: 10.1007/s11664-010-1449-0

101.   J. Kanungo, P. K. Basu, A. Lloyd Spetz, and S. Basu, Detection of Hydrogen by Noble Metal Treated Nanoporous Si and ZnO thin films, Sensors & Transducers Journal, 10 (Special Issue) (2011) 131-140.

100.   J. Kanungo, M. Andersson, Z. Darmastuti, S. Basu, P.-O. Käll, and L. Ojamäe, Development of SiC-FET methanol sensor, Sensors and Actuators B, 160 (2011) 72-78. URL: http://dx.doi.org/10.1016/j.snb.2011.07.015

99.   N. Cioffi, L. Colaianni, E. Ieva, R. Pilolli, N. Ditaranto, M. D. Angione, S. Cotrone, K. Buchholt, A. Lloyd Spetz, L. Sabbatini, and L. Torsi, Electrosynthesis and characterization of gold nanoparticles for electronic capacitance sensing of pollutants, Electro Chimica Acta, 56,10 (2011) 3713-3720. URL: http://dx.doi.org/10.1016/j.electacta.2010.12.105

98.   E. Becker, M. Andersson, M. Eriksson, A. Lloyd Spetz, and M. Skoglundh, Study of the sensing mechanism towards carbon monoxide of platinum-based field effect sensors, IEEE Sensors Journal, 11,7 (2011) 1527-1534.

97.   A. Malik , H. Abdulhamid, J. Pagels, J. Rissler, M. Lindskog, R. Bjorklund, P. Josza, J. Visser, A. Lloyd Spetz, and M. Sanati, A potential soot mass determination method from resistivity measurement of thermophoretically deposited soot, Aerosol Science and Technology, 45 (2011) 284–294.

96.       K. Buchholt, R. Ghandi, M. Domeij, C-M. Zetterling, J. Lu, P. Eklund, L. Hultman, and A. Lloyd Spetz, Ohmic contact properties of magnetron sputtered Ti3SiC2 on n - and p -type 4H-silicon carbide, Appl. Phys. Lett., vol. 98, 4 (2011) 042108 (3 pages). URL: http://link.aip.org/link/?APL/98/042108, DOI: 10.1063/1.3549198

95.   R. Pearce, T. Iakimov, M. Andersson, L. Hultman, A. Lloyd Spetz, and R. Yakimova, Epitaxially grown graphene based gas sensors for ultra sensitive NO2 detection, Sensors and Actuators B: Chemical 155, 2 (2011) 451-455.

94.   H. Inoue, M. Andersson, M. Yuasa, T. Kida, A. Lloyd Spetz, and Kengo Shimanoe, CO2 sensor combining an MISiC capacitor and a binary carbonate, Electrochemical and Solid-State Letters, 14 (1) (2011) J4-J7. DOI: 10.1149/1.3512998

2010

93.   D. Lutic, J. Pagels, R. Bjorklund, P. Josza, J. Visser, A. Grant, M. L. Johansson, P. Jasko, P.-E. Fägerman, M. Sanati, and A. Lloyd Spetz, Detection of soot applying sensor device with thermophoretic deposition, Journal of Sensors, vol. 2010, Article ID 421072, 6 pages, 2010. DOI:10.1155/2010/421072

92.   E. Lewin, S. Buchholt, J. Lu,  L. Hultman, A. Lloyd Spetz, and U. Jansson, Carbide and nanocomposite thin films in the Ti-Pt-C system, Thin solid films, 518 (2010) 5104-5109. DOI:10.1016/j.tsf.2010.03.017

2009

91.   G. Wingqvist, H. Andersson, C. Lennartsson, T. Weissbach, V. Yantchev, and A. Lloyd Spetz, On the applicability of high frequency acoustic shear mode biosensing in view of thickness limitations set by the film resonance, Biosensors and Bioelectronics, 24, 11 (2009) 3387-3390.

90.   C. Di Natale, R. Paolesse, A. D’Amico, I. Lundström, and A. Lloyd-Spetz, Multi-transduction of molecular recognition events in metalloporphyrin layers, J. Porphyrins Phthalocyanines, 13 (2009) 1123–1128. URL: http://www.worldscinet.com/jpp/

89.   P.K. Basu, N. Saha, S.K. Jana. H. Saha, A. Lloyd Spetz, and S. Basu, Schottky junction methane sensors using electrochemically Brown nanocrystalline-nanoporous ZnO thin Films, Journal of Sensors, vol. 2009, Article ID 790476, 9 pages. URL: http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-51609, DOI:10.1155/2009/790476

88.   A. Virshup, L.M. Porter, D. Lukco, K. Buchholt, L. Hultman, and A. Lloyd Spetz, Investigation of Thermal Stability and Degradation Mechanisms in Ni-Based Ohmic Contacts to n-Type SiC for High-Temperature Gas Sensors, Journal of Electronic Materials, 38, 4 (2009), p. 569.

87.   C. Di Natale, K. Buchholt, E. Martinelli, R. Paolesse, G. Pomarico, A. D'Amico, I. Lundström, and A. Lloyd-Spetz, Investigation of quartz microbalance and chemfet transduction of molecular recognition events in a metalloporphyrin film, Sensors and Actuators B, 135 (2009) 560-567.

86.   J. Eriksson, V. Khranovskyy, F. Söderlind, P.O. Käll, R. Yakimova, and A. Lloyd Spetz, ZnO nanoparticles or ZnO films, a comparison of the gas sensing capabilities, Sensors and Actuators B, 137, 1 (2009) 94-102. DOI:10.1016/j.snb.2008.10.072

85.   V. Khranovskyy, J. Eriksson, A. Lloyd-Spetz, R. Yakimova, and L. Hultman, Effect of oxygen exposure on the electrical conductivity and gas sensitivity of nanostructured ZnO films, Thin Solid Films, 517 (2009) 2073-2078.

2008

84.   R.E. Pearce, M. Andersson J. Belmonte, I. Gracia, M. M. Stevens, K. Buchholt, J. Shaw, M.S.P. Shaffer, and A. Lloyd Spetz, A comparison of the gas sensing properties of purified and platinum decorated chemical vapour deposition grown multi-walled carbon nanotubes in Smart Sensors and Sensing Technology, S.C. Mukhopadhyay and G.S. Gupta (Eds.), Springer-Verlag, Berlin, Germany, p. 85 Lecture Notes in Electrical Engineering, 2008. ISBN: 978-3-540-79589-6

83.   K. Buchholt, E. Ieva, L.Torsi, N. Cioffi, L. Colaianni, F.Söderlind, P-O. Käll, and A. Lloyd Spetz, Electrochemically synthesized Pd- and Au-nanoparticles as sensing layers in NOx-sensitive Field Effect Devices, in Series: Lecture Notes in Electrical Engineering, vol. 20, Smart Sensors and Sensing Technology, S.C. Mukhopadhyay, G.S. Gupta (Eds.), Springer, Berlin Heidelberg, Germany, pp.63-75, 2008. ISBN: 978-3-540-79589-6

82.   E. Ieva, K. Buchholt, L. Colaianni, N. Cioffi, L. Sabbatini, G.C. Capitani, A. Lloyd Spetz, P.O. Kall, and L. Torsi, Au nanoparticles as Gate Material for NOx Field Effect Capacitive Sensors, Sensor Letters,   Sensor Letters, 6(4), 2008, 577-584.

2007

81.   R. M. Petoral Jr., G. R. Yazdi, A. Lloyd-Spetz, R. Yakimova A. Lloyd Spetz, and K. Uvdal , Organosilane-functionalized wide bandgap semiconductor surfaces, Appl. Phys. Lett. 90 (2007) 223904-1-223904-3.

80.   R. Yakimova, R.M.Petoral Jr., G.R. Yazdi, C. Vahlberg, A.Lloyd Spetz, and K. Uvdal Surface functionalization and biomedical applications based on SiC, J. Physics D: Appl. Phys. 40 (2007) 6435-6442 (review).

79.   R. Yakimova,  G. Steinhoff, R. M. Petoral Jr., C. Vahlberg,  V. Khranovskyy, G. R. Yazdi, K. Uvdal, and A. Lloyd Spetz, Novel material concepts of transducers for chemical and biosensors, Biosensors and Bioelectronics, 22 (2007) 2780–2785.

78.   D. Lutic, M. Strand, A. Lloyd Spetz, and M. Sanati, Catalytic properties of oxide nanoparticles applied in gas sensors, Topics in Catalysis, 45, 1-4 (2007) 105-109. DOI: 10.1007/s11244-007-0248-1.

77.   I. Lundström, H. Sundgren, F. Winquist, M. Eriksson, C. Krantz-Rülcker, and A. Lloyd Spetz, Twenty-five years of field effect gas sensor research in Linköping, Sensors and Actuators B, 121 (2007) 247-262.

2006

76.   T. J. Fawcett and J. T. Wolan, A. Lloyd Spetz, M. Reyes, and S. E. Saddow, Thermal detection mechanism of SiC based hydrogen resistive gas sensors, Appl. Phys. Lett., 89 (2006) 182102-1-182102-3.

75.   A. Salomonsson, R. M. Petoral Jr., K. Uvdal, C. Aulin, P.-O. Käll, L. Ojamäe, M. Strand, M. Sanati, and A. Lloyd Spetz, Nanocrystalline Ruthenium oxide and Ruthenium in sensing applications -an experimental and theoretical study, J. Nanoparticle Research, 8 (2006) 899-910 DOI 10.1007/s11051-005-9058-1.

74.   H. Wingbrant and A. Lloyd Spetz, The influence of catalytic activity on the phase transition governed binary switch point of MISiC-FET lambda sensors, Appl. Surf. Sci., 252 (2006) 7473-7486.

73.   H. Wingbrant, M. Persson, A. E. Åbom, M. Eriksson, M. Andersson, B. Simko, D. J. Kubinski, J. H. Visser, and A. Lloyd Spetz, Cosputtered metal and SiO2 layers for use in thick-film MISiC NH3 sensors, IEEE Sensors J., 6, 4 (2006) 887-897. DOI 10.1109/JSEN.2006.877973

72.   I. Belov, H. Wingbrant, A. Lloyd Spetz, H. Sundgren, B. Thunér, H. Svenningstorp, and P. Leisner, CFD analysis of packaging and mounting solutions for SiC-based gas sensors in automotive applications, Sensor Letters, 4 (2006) 29-37.

71.   S. Roy, A. Salomonsson, A. Lloyd Spetz, C. Aulin, P-O. Käll, L. Ojamae, M. Strand, and M. Sanati, Metal oxide nanoparticles as novel materials for field-effect gas sensors, Materials and Manufacturing Processes, 21 (3) (2006) 275-278.

70.   A. Lloyd Spetz, S. Nakagomi, H. Wingbrant, M. Andersson, A. Salomonsson, S. Roy, G. Wingqvist, I. Katardjiev, M. Eickhoff, K. Uvdal, and R. Yakimova, New Materials for Chemical and Biosensors, Materials and Manufacturing Processes, 21 (2006) 253-256.

2005

69.   H. Wingbrant, M. Lundén, and A. Lloyd Spetz, Modifications of the Gate Material to Increase the Long-Term Stability of Field Effect Transistor Lambda Sensors, Sensor Letters, 3 (2005) 225-230.

68.   S.-K. Lee, Eun-K. Suh, N.-K. Cho, H.-D. Park, L. Unéus, and A. Lloyd Spetz, Comparison study of ohmic contacts to 4H-silicon carbide in oxidizing ambient for harsh environment gas sensor applications, Solid-State Electronics 49 (2005) 1297-1301.

67.   H. Wingbrant, H. Svenningstorp, P. Salomonsson, D. Kubinski, J. H. Visser, M. Löfdahl, and A. Lloyd Spetz, Using a MISiC-FET sensor for detecting NH3 in SCR systems, IEEE Sensors Journal, 5, 5 (2005) 1099-1105.

66.   M. Wallin, H. Grönbeck, A. Lloyd Spetz, M. Eriksson, and M. Skoglundh, Vibrational analysis of H2 and D2 adsorption on Pt/SiO2, J. Phys. Chem. B, 109 (2005) 9581-9588.

65.   S. Nakagomi, G. Wingqvist, A. E. Åbom, U. Helmersson, and A. Lloyd Spetz, Hydrogen sensing by NKN thin film with high dielectric constant and ferroelectric property, Sensors and Actuators B, 108 (2005) 490-495.

64.   S. Nakagomi, A. Fukumura, Y. Kokubun, S. Savage, H. Wingbrant, M. Andersson, I. Lundström, M. Löfdahl, and A. Lloyd Spetz, Influence of gate bias of MISiC-FET gas sensor device on the sensing properties, Sensors and Actuators B, 108 (2005) 501 -507.

63.   A. Salomonsson, S. Roy, C. Aulin , J. Cerdà , P.-O. Käll , L. Ojamäe , M. Strand, M. Sanati, and A. Lloyd Spetz, Nanoparticles for long term stable, more selective MISiCFET gas sensors, Sensors and Actuators B, 107 (2005) 831-838.

62.   L. Unéus, T. Artursson, M Mattsson, P. Ljung, R. Wigren, P. Mårtensson, M. Holmberg, I. Lundström, and A. Lloyd Spetz, Evaluation of On-Line Flue Gas Measurements by MISiCFET and Metal-Oxide Sensors in Boilers, IEEE Sensors Journal, 5, 1 (2005) 75-81.

2004

61.   M. Jansson, M. K. Linnarsson, A. Hallen, B. G. Svensson, N. Achtziger, L. Unéus, A. Lloyd Spetz, and U. Forsberg, Hydrogen in the Wide Bandgap semiconductor silicon Carbide, Physica Scripta, T108 (2004) 99-112.

60.   M. Andersson, P. Ljung, M. Mattsson, M. Löfdahl, and A. Lloyd Spetz, Investigations on the possibilities of a MISiCFET sensor system for OBD and combustion control utilizing different catalytic gate materials, Topics in Catalysis, 30 / 31 (2004) 365-368.

59.   M. Wallin, H. Grönbeck, A. Lloyd Spetz and M. Skoglundh, Vibrational study of ammonia adsorption on Pt/SiO2, Applied Surface Science, 235/4 (2004) 487-500.

2003

58.   H. Wingbrant and A. Lloyd Spetz, Dependence of Pt Gate Restructuring on the Linearity of SiC Field Effect Transistor Lambda Sensors, Sensor Letters, 1 (December 2003) 37-41. Inauguration issue.

57.   O. Weidemann, M. Hermann, G. Steinhoff, H. Wingbrant, A. Lloyd Spetz, M. Stutzmann, and M. Eickhoff, Influence of surface oxides on hydrogen-sensitive Pd:GaN Schottky diodes, Appl. Phys. Lett., 83, 4 (2003) 773-775.

56.   H. Wingbrant, H. Svenningstorp, P. Salomonsson, P. Tengström, D. Moldin, L-G. Ekedahl, I. Lundström, and A. Lloyd Spetz, Using a MISiCFET device as a cold start sensor Sens. Actuators B, 93, 1-3 (2003) 295-303.

55.   H. Wingbrant, H. Svenningstorp, P. Salomonsson, P. Tengström, J. Visser, L.-G. Ekedahl, I. Lundström, and A. Lloyd Spetz, The speed of response of MISiCFET devices, Sens. Actuators B, 93, 1-3 (2003) 286-294.

2002

54.   S. Nakagomi, A. Lloyd Spetz, I. Lundström, and P. Tobias, Electrical characterization of carbon monoxide sensitive high temperature sensor diode based on catalytic metal gate- insulator-silicon carbide structure, IEEE Sensors Journal, 2 (5) (2002) 379-386.

2001

53.   D. Schmeisser, D.R. Batchelor, R.P. Mikalo, P. Hoffmann, and A. Lloyd-Spetz, Oxide growth on SiC(0001) surfaces, Appl. Surf. Sci. 184 (2001) 340-345.

52.   O. Böhme, A. Lloyd Spetz, I. Lundström, and D. Schmeisser, Nanoparticles as the active element of high temperature Metal-Insulator-Silicon Carbide gas sensors, Advanced Materials, 13, 8 (2001) 597-601.

51.   A. Lloyd Spetz, L. Unéus, H. Svenningstorp, P. Tobias, L.-G. Ekedahl, O. Larsson, A. Göras, S.Savage, C. Harris, P. Mårtensson, R. Wigren, P. Salomonsson, B. Häggendahl, P. Ljung, M. Mattsson, and I. Lundström, SiC based Field Effect Gas Sensors for Industrial Applications, physica status solidi (a), 185 (1) (2001) 15-25.

50.   H. Svenningstorp, B. Widén, P. Salomonsson, L.-G. Ekedahl, I. Lundström, P. Tobias, and A. Lloyd Spetz, Detection of HC in exhaust gases by an array of MISiC sensors, Sensors and Actuators B, 77 (2001) 177-185.

49.   M. Andersson, M. Holmberg, I. Lundström, A. Lloyd-Spetz, P. Mårtensson, R. Paolesse, C. Falconi, E. Proietti, C. Di Natale, and A. D´Amico, Development of a ChemFET sensor with molecular films of porphyrins as sensitive layer, Sens. Actuators B, 77 (2001) 567-571.

2000

48.   A. Lloyd Spetz, P. Tobias, L. Unéus, H. Svenningstorp, L.-G. Ekedahl, I. Lundström, High temperature catalytic metal field effect transistors for industrial applications, Sensors and Actuators B, 70 (2000) 67-76.

47.   S. Savage and A. Lloyd Spetz, Silicon Carbide High Temperature Gas Sensors, Compound Semiconductor, 6, 3 (2000) 76-79.

1999

46.   P. Tobias, A. Lloyd Spetz, P. Mårtensson, A. Baranzahi, A. Göras, and I. Lundström, Moving gas outlets for the evaluation of fast gas sensors, Sensors and Actuators B, 58, 1-3 (1999) 389-393.

45.   H. Svenningstorp, P. Tobias, P. Salomonsson, I. Lundström, P. Mårtensson, and A. Lloyd Spetz, Influence of catalytic reactivity on the response of metal-oxide-silicon carbide sensors to exhaust gases, Sensors and Actuators B, 57 (1999) 159-165.

44.   L. Unéus, P. Tobias, P. Salomonsson, I. Lundström, and A. Lloyd Spetz, Schottky Diodes with Thin Catalytic Gate Metals for Potential Use as Ammonia Sensors for Exhaust Gases, Sensors and Materials, 11 (5) (1999) 305-318.

43.   D. Schmeisser, O. Böhme, A. Yfantis, T. Heller, D. R. Batchelor, I. Lundström, and A. Lloyd Spetz, Dipole moment of nanoparticles at interfaces, Phys. Rev. Lett., 83 (2) (1999) 380-383.

42.   A. Lloyd Spetz, P. Tobias, A. Baranzahi, P. Mårtensson, and I. Lundström, Current status of silicon carbide based high temperature gas sensors, IEEE Trans. Electr. Dev., 46 (3) (1999) 561-566.

1998

41.   A. Lloyd Spetz, P. Tobias, L-G. Ekedahl, P. Mårtensson, and I. Lundström, Fast chemical sensors for emission control, The Electrochemical Society Interface, 7, 4 (1998) 34-38.

40.   A. Baranzahi, P. Tobias, A. Lloyd Spetz, P. Mårtensson, L. G. Ekedahl, and I. Lundström, Chemical sensors with catalytic metal gates: switching behavior and kinetic phase transitions, J. Electrochem. Soc., 145, 10 (1998) 3401-3406.

39.   K. Kalli, A. Othonos, C. Christofides, A. Lloyd Spetz, and I. Lundström, Temperature-induced reflectivity changes and activation of hydrogen sensitive optically thin palladium films on silicon oxide, Rev. Sci. Instr., 69, 9 (1998) 3331-3338.

38.   K. Kalli, A. Othonos, C. Christofides, A. Spetz, and I. Lundström, Photomodulated thermoreflectance detection of hydrogen gas using optically thin palladium film on silicon oxide, Rev. Sci. Instr., 69, 3 (1998) 1505-1511.

37.   P. Tobias, P. Mårtensson, A. Baranzahi, P. Salomonsson, I. Lundström, L. Åbom, and A. Lloyd Spetz, Response of metal-insulator-silicon carbide sensors to different components in exhaust gases, Sensors and Actuators B, 47 (1998) 125-130.

1997

36.   S. Nakagomi, P. Tobias, A. Baranzahi, I. Lundström, P. Mårtensson, and A. Lloyd Spetz, Influence of carbon monoxide, water, and oxygen on high temperature catalytic metal-oxide-silicon carbide structures, Sensors and Actuators B, 45/3 (1997) 183-191.

35.   A. Lloyd Spetz, A. Baranzahi, P.Tobias, and I. Lundström, High temperature sensors based on metal insulator silicon carbide devices, Physica Status Solidi (a), 162 (1997) 493-511.

34.   P. Tobias, A. Baranzahi, A. Lloyd Spetz, O. Kordina, E. Janzén, and I. Lundström, Fast chemical sensing with metal-insulator silicon carbide structures, IEEE Electron Device Letters, 18, 6 (1997) 287-289.

33.   A. Baranzahi, A. Lloyd Spetz, M. Glavmo, C. Carlsson, J. Nytomt, P. Salomonsson, B. Häggendal, P. Mårtensson, and I. Lundström, Response of metal-oxide-silicon carbide sensors to simulated and real exhaust gases, Sensors and Actuators B, 43 (1997) 52-59.

32.   A. Lloyd Spetz, A. Baranzahi, B. Wälivaara, I. Lundström, D. Schmeißer, and W. Göpel, X-Ray Photoemission and Auger Electron Spectroscopy Analysis of Fast Responding Activated Metal Oxide Silicon Carbide Gas Sensors, Thin Solid Films, 299, 122 (1997) 183-189.

1995

31.   A. Baranzahi, A. Lloyd Spetz, and I. Lundström, Reversible hydrogen annealing of metal-oxide-silicon carbide devices at high temperatures, Appl. Phys. Lett., 67, 21 (1995) 3203-3205.

30.   J. Zubkans, A. Lloyd Spetz, H. Sundgren, F. Winquist, J. Kleperis, A. Lusis, and I. Lundström, In situ Modification of the NO x   Sensitivity of Thin Discontinuous Platinum Films as Gates of Chemical Sensors, Thin Solid Films, 268 (1995) 140-143.

29.   M. Karlsteen, A. Baranzahi, A. Spetz, M. Willander, and I. Lundström, Electrical Properties of inhomogeneous SiC MIS structures, Journal of Electronic Materials, 24 (7), 853-861, (1995).

28.   A. Baranzahi, A. Lloyd Spetz, B. Andersson, and I. Lundström, Gas sensitive field effect devices for high temperatures, Sensors and Actuators B, 26-27, 165-169 (1995).

27.   I. Lundström, T. Ederth, H. Kariis, H. Sundgren, A. Spetz, and F. Winquist, Recent developments in field effect gas sensors, Sensors and Actuators B, 23 (1995) 127-133.

26.   H.Y. Hsieh, A. Spetz, and J.N. Zemel, Pyroelectric anemometry: vector and swirl measurements, Sensors and Actuators A, 49 (1995) 141-147.

1994

25.   A. Assadi, A. Spetz, M. Willander, C. Svensson, I. Lundström, and O. Inganäs, Interaction of Planar Polymer Schottky Barrier Diodes with Gaseous Substances, Sensors and Actuators B, 20, 1 (1994) 71-77.

24.   A. Arbab, A. Spetz, and I Lundström, Evaluation of Gas Mixtures with High Temperature Gas Sensors based on Silicon Carbide, Sensors and Actuators B, 18-19 (1994) 562-565.

1993

23.   A. Arbab, A. Spetz, and I. Lundström, Gas Sensors for high temperature operation based on metal oxide silicon carbide (MOSiC) devices, Sensors and Actuators B, 15-16 (1993) 19-23.

22.   A. Arbab, A. Spetz, Q-u Wahab, M. Willander, and I. Lundström, Chemical Sensors for High Temperatures based on Silicon Carbide, Sensors and Materials 4,4 (1993) 173.

21.   I. Lundström, C. Svensson, A. Spetz, H. Sundgren, and F. Winquist, From hydrogen sensors to olfactory images - twenty years with catalytic field-effect devices, Sensors and Actuators B, 13-14 (1993) 16-23.

1992

20.   F. Winquist, H. Sundgren, E. Hedborg, A. Spetz, and I. Lundström, Visual images of gas-mixtures produced by field-effect structures, Sensors and Actuators B, 6, 1-3 (1992) 157-161. DOI: 10.1016/0925-4005(92)80048-3

19.    E. Hedborg, A. Spetz, F. Winquist, and I. Lundström, Polymer membranes for modification of the selectivity of field effect gas sensors, Sensors and Actuators B, 7 (1992) 661-664.

18.    I. Lundström, F. Winquist, E. Hedborg, A. Spetz, and H. Sundgren, Visual images of gas mixtures produced with field effect structures, Sensors and Actuators B/6 (1992) 157-161.

1991

17.   H.-Y.Hsieh, A. Spetz, T. Lloyd, and J. N. Zemel, A very wide range vector pyroelectric anemometer, Micromechanical Sensors, Actuators, and Systems, DSC-Vol.32 (1991) 165-170.

16.   I. Lundström, R. Erlandsson, U. Frykman, E. Hedborg, A. Spetz, H. Sundgren, S. Welin, and F. Winquist, Artificial Olfactory Images obtained with a Scanning Light Pulse Technique, Nature 352 (1991) 47-50.

1990

15.   I. Lundström, A. Spetz, F. Winquist, U. Ackelid, and H. Sundgren, Catalytic Metals and Field- effect Devices- a Useful Combination, Sensors and Actuators, B1 (1990) 15-20.

1989

14.   A. Spetz, U. Helmersson, F. Enquist, M. Armgarth, and I. Lundström, Structure and Ammonia Sensitivity of Thin Platinum or Iridium Gates in Metal- Oxide -Silicon Capacitors, Thin Solid Films 177 (1989) 77- 93.

1988

13.   A. Spetz, M. Armgarth, and I. Lundström, Comparison between Platinum and Iridium as Gate Metals in Ammonia Sensitive Metal- Silicon Structures, Sensors and Materials 4 (1988) 187- 207.

12.   A. Spetz, M. Armgarth, and I. Lunström, Hydrogen and ammonia response of metal- silicon dioxide-silicon structures with thin platinum gates, J. Appl. Phys., 64 (3) (1988) 1274- 1283.

11.   T. Fare, A. Spetz, M. Armgarth, and I. Lundström, Quasistatic and High Frequency C(V)- Response of Thin Platinum Metal Oxide Silicon Structures to Ammonia, Sensors and Actuators, 14 (1988) 369-386.

10.    T. Fare, A. spetz, M. Armgarth, and I. Lundström, Reversible interaction of hydrogen with thin layers of thermally grown silicon dioxide, J.Appl.Phys. 63 (11) (1988) 5507- 5513.

1987

9.    A. Spetz, M. Armgarth, and I. Lundström, Optimization of Ammonia- Sensitive Metal- Oxide- Semiconductor Structures with Platinum Gates, Sensors and Actuators, 11 (1987) 349- 365.

1986

8.    I. Lundström, M. Armgarth, A. Spetz, and F. Winquist, Gas Sensors Based on Catalytic Metal- Gate Field-Effect Devices, Sensors and Actuators, 10 (1986) 399-421.

7.    F. Enquist and A. Spetz, The Fabrication of Amorphous SiO 2 Substrates Suitable for Transmission Electron Microscopy Studies of Ultra Thin Polycrystalline Films, Thin Solid Films, 145 (1986) 99- 104.

6.     U. Ackelid, M. Armgarth, A. Spetz, and I. Lundström, Ethanol Sensitivity of Palladium- Gate Metal- Oxide- Semiconductor Structures, IEEE, Electronic Device Letters, EDL-7 (6), June (1986).

1985

5.    F. Winquist, A. Spetz, M. Armgarth, I. Lundström, and B. Danielsson, Biosensors Based on Ammonia Sensitive Metal- Oxide- Semiconductor Structures, Sensors and Actuators, 8 (1985) 91- 100.

1984

4.    F. Winquist, A. Spetz, I. Lundström, and B. Danielsson, Determination of Ammonia in Air and Aqueous Samples with a Gas- Sensitive Semiconductor Capacitor, Anal. Chim. Acta 164 (1984) 127- 138.

3.     F. Winquist, A. Spetz, I. Lundström, and B. Danielsson, Determination of Urea with an Ammonia Gas Sensitive Semiconductor Device in Combination with Urease, Anal. Chim. Acta 163 (1984) 143- 149.

1983

2.    F. Winquist, A. Spetz, M. Armgarth, C. Nylander, and I. Lundström, Modified Palladium Metal- Oxide- Semiconductor Structures with Increased Ammonia Gas Sensitivity, Appl. Phys. Lett., 43 (1983) 839- 841.

1.     I. Lundström, C. Nylander, and A. Spetz, Palladium- Silicon dioxide- Silicon Structures as Hydrogen Sensors in Electrolytes, Electronic Letters, 19, 7 (1983) 249- 251.


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Last updated: 10/24/17