All Stories

  1. The Ti wire functionalized with inherent TiO2 nanotubes by anodization as one-electrode gas sensor: A proof-of-concept study
  2. Polymers
  3. Polymer Technologies
  4. Porous Silicon
  5. Supramolecular Materials
  6. Handbook of Humidity Measurement
  7. Preface to the series
  8. Preface to the series
  9. Preface to the series
  10. How to Improve the Performance of Porous Silicon‐Based Gas and Vapor Sensors? Approaches and Achievements
  11. Morphological engineering of $$\hbox {SnO}_{2}$$ SnO 2 ...
  12. The role of Rh dispersion in gas sensing effects observed in SnO2 thin films
  13. Black Phosphorus-New Nanostructured Material for Humidity Sensors: Achievements and Limitations
  14. Handbook of Humidity Measurement
  15. Psychrometer
  16. Preface to the series
  17. Preface to the series
  18. Preface to the series
  19. Materials Acceptable for Gas Sensor Design: Advantages and Limitations
  20. XPS study of the SnO2 films modified with Rh
  21. Preface to the series
  22. Preface to the Series
  23. Series editor biography
  24. Preface to the series
  25. Metal Oxides for Application in Conductometric Gas Sensors: How to Choose?
  26. Structural Features of Silica Coating Obtained from Sol Cooled to the Temperature of Liquid Nitrogen
  27. Metal oxide composites in conductometric gas sensors: Achievements and challenges
  28. Interference effects between hydrogen and ozone in the response of SnO2-based gas sensors
  29. In2O3- and SnO2-based Ozone Sensors: Design and Characterization
  30. Ultra-low thermal conductivity of nanogranular indium tin oxide films deposited by spray pyrolysis
  31. Spray pyrolysis deposition of undoped SnO2 and In2O3 films and their structural properties
  32. Surface functionalization by gold nanoparticles and its prospects for application in conductometric metal oxide gas sensors
  33. Preface to the Series
  34. Carbon 1s photoemission line analysis of C-based adsorbate on (111)In 2 O 3 surface: The influence of reducing and oxidizing conditions
  35. Metal Oxide Nanocomposites: Advantages and Shortcomings for Application in Conductometric Gas Sensors
  36. Nanoscaled In2O3:Sn films as material for thermoelectric conversion: achievements and limitations
  37. Thermoelectric properties of nano-granular indium–tin-oxide within modified electron filtering model with chemisorption-type potential barriers
  38. Gas-sensing properties of In 2 O 3 films modified with gold nanoparticles
  39. Porous Silicon: From Formation to Application: Formation and Properties, Volume One
  40. In 2 O 3 -based multicomponent metal oxide films and their prospects for thermoelectric applications
  41. Conductometric gas sensors based on metal oxides modified with gold nanoparticles: a review
  42. Porous Silicon: From Formation to Applications: Optoelectronics, Microelectronics, and Energy Technology Applications, Volume Three
  43. Porous Silicon: From Formation to Application: Biomedical and Sensor Applications, Volume Two
  44. In2O3- and SnO2-Based Thin Film Ozone Sensors: Fundamentals
  45. SnO2 and In2O3 Ozone Sensor
  46. The influence of gold nanoparticles on the conductivity response of SnO2-based thin film gas sensors
  47. SYNTHESIS OF METAL OXIDE-BASED NANOCOMPOSITES AND MULTICOMPONENT COMPOUNDS USING LAYER-BY-LAYER METHOD AND PROSPECTS FOR THEIR APPLICATION
  48. SnO2 Films Decorated by Au
  49. In2O3:Ga and In2O3:P-based one-electrode gas sensors: Comparative study
  50. What restricts gold clusters reactivity in catalysis and gas sensing effects: A focused review
  51. ChemInform Abstract: What Restricts Gold Clusters Reactivity in Catalysis and Gas Sensing Effects: A Focused Review
  52. Photoemission surface characterization of (001) In2O3 thin film through the interactions with oxygen, water and carbon monoxide: Comparison with (111) orientation
  53. In2O3-Based Thin Films Deposited by Spray Pyrolysis as Promising Thermoelectric Material
  54. Engineering approaches to improvement of conductometric gas sensor parameters. Part 2: Decrease of dissipated (consumable) power and improvement stability and reliability
  55. Material and Structural Engineering of Metal Oxides Aimed for Gas Sensor Applications
  56. Bulk doping influence on the response of conductometric SnO2 gas sensors: Understanding through cathodoluminescence study
  57. Thermoelectrical properties of spray pyrolyzed indium oxide thin films doped by tin
  58. Synthesis by successive ionic layer deposition (SILD) methodology and characterization of gold nanoclusters on the surface of tin and indium oxide films
  59. Catalytically Active Filters Deposited by SILD Method for Inhibiting Sensitivity to Ozone of SnO2-Based Conductometric Gas Sensors
  60. Handbook of Gas Sensor Materials
  61. In2O3:Ga-based Ceramics: Advantages and shortcomings for application in one-electrode gas sensors
  62. Engineering approaches for the improvement of conductometric gas sensor parameters
  63. SnO2:Cu films doped during spray pyrolysis deposition: The reasons of the gas sensing properties change
  64. Spay Pyrolyzed Nanostructured Tin Dioxide Thin Films Doped by Cobalt: Correlation between Structural and Gas Sensing Characteristics
  65. Spray Pyrolysis of Metal Oxides SnO2 and In2O3 as an Example of Thin Film Technology: Advantages and Limitations for Application in Conductometric Gas Sensors
  66. Chemical Sensors Simulation and Modeling Volume 5: Electrochemical Sensors
  67. The role of doping effect on the response of SnO2-based thin film gas sensors: Analysis based on the results obtained for Co-doped SnO2 films deposited by spray pyrolysis
  68. Chemical Sensors Simulation and Modeling Volume 4: Optical Sensors
  69. Handbook of Gas Sensor Materials
  70. Chemical Sensors Simulation and Modeling Volume 3: Solid-State Devices
  71. The role of grain size on the thermal instability of nanostructured metal oxides used in gas sensor applications and approaches for grain-size stabilization
  72. Indium oxide ceramics doped by selenium for one-electrode gas sensors
  73. Bulk Doping Influence on Grain Size and Response of Conductometric SnO2 -Based Gas Sensors: A Short Survey
  74. Chemical Sensors: Simulation and Modeling Vol 2: Conductometric-Type Sensors
  75. Chemical Sensors: Simulation and Modeling Vol 1: Microstructural Characterization and Modeling of Metal Oxides
  76. Gas sensor application of Ag nanoclusters synthesized by SILD method
  77. The Role of Grain Size in Response of SnO2- and In2O3-Based Conductometric Gas Sensors
  78. Ozone measuring: What can limit application of SnO2-based conductometric gas sensors?
  79. Instability of metal oxide-based conductometric gas sensors and approaches to stability improvement (short survey)
  80. SnO2–Au nanocomposite synthesized by successive ionic layer deposition method: Characterization and application in gas sensors
  81. Ag nanoclusters synthesized by successive ionic layer deposition method and their characterization
  82. Luminescence properties of doped SnO2powders and films designed for gas sensor application
  83. The Role of the Film Thickness in Sensor Response of the SnO2-Based Devices
  84. Silicon Porosification: State of the Art
  85. Ag nanoclusters synthesized by SILD method: Characterization and applications
  86. Photoconductivity in In2O3 nanoscale thin films: Interrelation with chemisorbed-type conductometric response towards oxygen
  87. Cathodoluminescence studies of un-doped and (Cu, Fe, and Co)-doped tin dioxide films deposited by spray pyrolysis
  88. Porous Semiconductors: Advanced Material for Gas Sensor Applications
  89. SnO2-Based Thin Film Gas Sensors with Functionalized Surface
  90. Grain Size Effects in Structural Stability of SnO2 and In2O3 Films Aimed for Gas Sensor Applications
  91. Thin film SnO2-based gas sensors: Film thickness influence
  92. SnO2 thin films modified by the SnO2–Au nanocomposites: Response to reducing gases
  93. Ozone sensors based on SnO2 films modified by SnO2–Au nanocomposites synthesized by the SILD method
  94. Grain Size Effects in Sensor Response of Nanostructured SnO2- and In2O3-Based Conductometric Thin Film Gas Sensor
  95. Review of Electrochemical Hydrogen Sensors
  96. (Cu, Fe, Co, or Ni)-doped tin dioxide films deposited by spray pyrolysis: Doping influence on thermal stability of the film structure
  97. Structural characterization and phase transformations in metal oxide films synthesized by successive ionic layer deposition (SILD) method
  98. The role of morphology and crystallographic structure of metal oxides in response of conductometric-type gas sensors
  99. (Cu, Fe, Co, or Ni)-doped tin dioxide films deposited by spray pyrolysis: doping influence on film morphology
  100. Comparative Study of SnO2- and In2O3-based Ozone Sensors
  101. The nature of processes controlling the kinetics of indium oxide-based thin film gas sensor response
  102. Valence band and band gap photoemission study of (111) In2O3 epitaxial films under interactions with oxygen, water and carbon monoxide
  103. Cathodoluminescence emission study of nanocrystalline indium oxide films deposited by spray pyrolysis
  104. Metal oxides for solid-state gas sensors: What determines our choice?
  105. Effect of air humidity on gas response of SnO2 thin film ozone sensors
  106. Practical aspects in design of one-electrode semiconductor gas sensors: Status report
  107. Kinetics of indium oxide-based thin film gas sensor response: The role of “redox” and adsorption/desorption processes in gas sensing effects
  108. Ozone sensors on the base of SnO2 films deposited by spray pyrolysis
  109. The influence of additives on gas sensing and structural properties of In2O3-based ceramics
  110. XPS and TPD study of Rh/SnO2 system – Reversible process of substrate oxidation and reduction
  111. Successive ionic layer deposition (SILD) as a new sensor technology: synthesis and modification of metal oxides
  112. Cathodoluminescence study of SnO2 powders aimed for gas sensor applications
  113. Radiation effects in SnO2–Si sensor structures
  114. Foreword
  115. Experimental and theoretical studies of indium oxide gas sensors fabricated by spray pyrolysis
  116. Gas response control through structural and chemical modification of metal oxide films: state of the art and approaches
  117. Structural stability of indium oxide films deposited by spray pyrolysis during thermal annealing
  118. Synchrotron radiation photoemission study of indium oxide surface prepared by spray pyrolysis method
  119. Distinguishing feature of metal oxide films' structural engineering for gas sensor applications
  120. Faceting characterization of tin dioxide nanocrystals deposited by spray pyrolysis from stannic chloride water solution
  121. Successive ionic layer deposition: possibilities for gas sensor applications
  122. Influence of Cu-, Fe-, Co-, and Mn-oxide nanoclusters on sensing behavior of SnO2 films
  123. Gas-sensing characteristics of one-electrode gas sensors based on doped In2O3 ceramics
  124. The influence of film structure on In2O3 gas response
  125. In2O3 films deposited by spray pyrolysis as a material for ozone gas sensors
  126. Evolución de la morfología y facetaje de nanoestructuras de SnO2 crecidas por pirólisis en fase aerosol sobre sustratos de vidrio
  127. Acceptor-like behavior of reducing gases on the surface of n-type In2O3
  128. In2O3 films deposited by spray pyrolysis: gas response to reducing (CO, H2) gases
  129. Kinetics of gas response to reducing gases of SnO2 films, deposited by spray pyrolysis
  130. Mechanism of the Oxygen Interaction with a Surface of Thin Nanosized Metal Oxide Film
  131. Rational Synthesis and Optimization of Multifunctional Solid-State Gas Sensors
  132. Surface Plasma Treatment and Sensibilization of Tin Dioxide Films for Enhancement of Gas Sensitivity and Selectivity
  133. Synthesis of nanolayers hydroxo-(SnxOyHz) and heteropoly-(HxPWyOz) compounds of hybrid-type on silica surfaces by successive ionic layer deposition method
  134. Structural and gas response characterization of nano-size SnO2 films deposited by SILD method
  135. Influence of surface Pd doping on gas sensing characteristics of SnO2 thin films deposited by spray pirolysis
  136. Investigation of behaviour of Rh deposited onto polycrystalline SnO2 by means of TPD, AES and EELS
  137. NANO-SIZE SnO2 FILMS DEPOSITED BY SILD METHOD: STRUCTURAL AND GAS RESPONSE CHARACTERIZATION
  138. Study of Pd–In interaction during Pd deposition on pyrolytically prepared In2O3
  139. Crystallographic characterization of In2O3 films deposited by spray pyrolysis
  140. Morphological rank of nano-scale tin dioxide films deposited by spray pyrolysis from SnCl4·5H2O water solution
  141. Using of SILD technology for surface modification of SnO2 films for gas sensor applications
  142. Possibilities of aerosol technology for deposition of SnO2-based films with improved gas sensing characteristics
  143. Factors influencing the gas sensing characteristics of tin dioxide films deposited by spray pyrolysis: understanding and possibilities of control
  144. Peculiarities of SnO2 thin film deposition by spray pyrolysis for gas sensor application
  145. CO adsorption on Pd clusters deposited on pyrolytically prepared SnO2 studied by XPS
  146. Structural characterization of SnO2 gas sensing films deposited by spray pyrolysis
  147. Simulation of thin film gas sensors kinetics
  148. Electrical behavior of SnO2 thin films in humid atmosphere
  149. Processes development for low cost and low power consuming SnO2 thin film gas sensors (TFGS)
  150. SnO2 thin film gas sensors for fire-alarm systems
  151. Kinetic characteristics of SnO2 thin-film gas sensors for environmental monitoring
  152. Diffusion processes at the W - InP interface
  153. Structural-Chemical Properties of InP Own Oxides
  154. Condition of Interface: Anodic Oxide - A3B3 Semiconductor
  155. Effect of donor-acceptor complex dissociation of the properties of the surface boundary region in P-InP:Zn during its thermal oxidation
  156. Device for automatically measuring the temperature dependences of electrical conductivity, Hall coefficient, and magneto-resistance of semiconductors
  157. SnO/sub 2/ based sensors of smoke
  158. Processes controlling the rate of In/sub 2/O/sub 3/ thin film gas sensor's response
  159. Electronic model a thin film gas sensor (TFGS) based on SnO/sub 2/
  160. Manufacturing peculiarities of the SnO/sub 2/ thin film gas sensors (TFGS)
  161. Photodetector with controlled photosensitivity in 1.1-1.6 μm spectral range
  162. The nature of M-InP contacts aging
  163. Spectral selective (λ= 1.06 μm) infrared detectors and quadrants
  164. Theory of the thin film gas sensor design
  165. Degradation mechanism of InP MOS structures on the basis of Al/sub 2/O/sub 3/