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A new model and gas sensitivity of non-equilibrium xSnO2-(1-x)alpha-Fe2O3 nanopowders prepared by mechanical alloying

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Keywords
  • Nano-Sized Xsno2-(1-X)Alpha-Fe2O3 Materials Have Been Prepared Using The High Energy Ball Milling Te
  • Based On Experimental Results
  • We Propose A New Structure Model
  • Xxx
  • Forthese Non-Equilibrium
  • Nano-Sized Xsno2-(1-X)Alpha-Fe2O3 Materials
  • This Model Can Explain Non Only The Lattice Expansion Of The Milled Samples
  • But Also Takes Into Account The Charge Balance By Adding Oxygen Dangling Bonds At The Particle Surfa
  • Which Can Be Visualized In The Nano-Sized Powders
  • The Thich Film Gas Sensors Made By Such Mechanically Alloyed Materials Have High Ethanol Gas Sensiti
  • P
  • M
  • And Very Good Gas Selectivity To Ethanol Over Co And H2 Gases
  • It Is Believed That The High Ethanol Gas Sensitivity Of These Materials Is Related To The Enormous D

Abstract

A new model and gas sensitivity of non-equilibriumnull xSnO2-(1-x)alpha-Fe2O3 nanopowders prepared by mechanicalnull alloying - DTU Orbit (25/04/14) A new model and gas sensitivity of non-equilibrium xSnO2-(1-x)alpha-Fe2O3 nanopowders prepared by mechanical alloying - DTU Orbit (25/04/14) A new model and gas sensitivity of non-equilibrium xSnO2-(1-x)alpha-Fe2O3 nanopowders prepared by mechanical alloying Zhu, W., Tan, O. K. & Jiang, J. 1998 In : J.Mater.Sci.Mater. in Electronics. 9, p. 275-278 Publication: Research - peer-review › Journal article – Annual report year: 1998

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