@article{Lin2003,
   abstract = {Precipitated iron oxide samples were characterized using temperature-programmed reduction. H2 was used as the reduction agents. The two-stage reduction was observed: Fe2O3 was reduced to Fe3O4 and then reduced to metallic Fe. The activation energy for the two reduction steps of iron oxide are 89.13 and 70.412 (kJ mol-1), respectively. The simulation by reduction models of the TPR patterns presents well fitting of unimolecular model for Fe2O3 → Fe3O4 reduction and two-dimensional nucleation according to Avarmi-Erofeev model for Fe3O4 → Fe. © 2002 Elsevier Science B.V. All rights reserved.},
   author = {Hsin Yu Lin and Yu Wen Chen and Chiuping Li},
   doi = {10.1016/S0040-6031(02)00478-1},
   issn = {00406031},
   journal = {Thermochimica Acta},
   keywords = {Iron oxide,Kinetic mechanism,Temperature-programmed reduction},
   title = {The mechanism of reduction of iron oxide by hydrogen},
   year = {2003},
}

{"_id":"Y5AJXrsdg7D9bxvQ7","bibbaseid":"lin-chen-li-themechanismofreductionofironoxidebyhydrogen-2003","author_short":["Lin, H. Y.","Chen, Y. W.","Li, C."],"bibdata":{"bibtype":"article","type":"article","abstract":"Precipitated iron oxide samples were characterized using temperature-programmed reduction. H2 was used as the reduction agents. The two-stage reduction was observed: Fe2O3 was reduced to Fe3O4 and then reduced to metallic Fe. The activation energy for the two reduction steps of iron oxide are 89.13 and 70.412 (kJ mol-1), respectively. The simulation by reduction models of the TPR patterns presents well fitting of unimolecular model for Fe2O3 → Fe3O4 reduction and two-dimensional nucleation according to Avarmi-Erofeev model for Fe3O4 → Fe. © 2002 Elsevier Science B.V. All rights reserved.","author":[{"firstnames":["Hsin","Yu"],"propositions":[],"lastnames":["Lin"],"suffixes":[]},{"firstnames":["Yu","Wen"],"propositions":[],"lastnames":["Chen"],"suffixes":[]},{"firstnames":["Chiuping"],"propositions":[],"lastnames":["Li"],"suffixes":[]}],"doi":"10.1016/S0040-6031(02)00478-1","issn":"00406031","journal":"Thermochimica Acta","keywords":"Iron oxide,Kinetic mechanism,Temperature-programmed reduction","title":"The mechanism of reduction of iron oxide by hydrogen","year":"2003","bibtex":"@article{Lin2003,\n abstract = {Precipitated iron oxide samples were characterized using temperature-programmed reduction. H2 was used as the reduction agents. The two-stage reduction was observed: Fe2O3 was reduced to Fe3O4 and then reduced to metallic Fe. The activation energy for the two reduction steps of iron oxide are 89.13 and 70.412 (kJ mol-1), respectively. The simulation by reduction models of the TPR patterns presents well fitting of unimolecular model for Fe2O3 → Fe3O4 reduction and two-dimensional nucleation according to Avarmi-Erofeev model for Fe3O4 → Fe. © 2002 Elsevier Science B.V. All rights reserved.},\n author = {Hsin Yu Lin and Yu Wen Chen and Chiuping Li},\n doi = {10.1016/S0040-6031(02)00478-1},\n issn = {00406031},\n journal = {Thermochimica Acta},\n keywords = {Iron oxide,Kinetic mechanism,Temperature-programmed reduction},\n title = {The mechanism of reduction of iron oxide by hydrogen},\n year = {2003},\n}\n","author_short":["Lin, H. Y.","Chen, Y. W.","Li, C."],"key":"Lin2003","id":"Lin2003","bibbaseid":"lin-chen-li-themechanismofreductionofironoxidebyhydrogen-2003","role":"author","urls":{},"keyword":["Iron oxide","Kinetic mechanism","Temperature-programmed reduction"],"metadata":{"authorlinks":{}}},"bibtype":"article","biburl":"https://bibbase.org/network/files/QJd5jTh3GMYoFC2sK","dataSources":["DP64ZrtM83gwGq5AX","wCoBgCttwnttTBsce"],"keywords":["iron oxide","kinetic mechanism","temperature-programmed reduction"],"search_terms":["mechanism","reduction","iron","oxide","hydrogen","lin","chen","li"],"title":"The mechanism of reduction of iron oxide by hydrogen","year":2003}