A Study on Senior High School Students' Oxidation-reduction Mental Models and Concept Change This research mainly aims to explore senior high school students about their oxidation-reduction mental models and concept change. It is operated with qualitative interview to find out students' mental models of oxidation-reduction with enclosed two-tier test diagnosis tools developed. Also, the students from the best 3 senior high schools in Pingtung County are tested. Research results are analyzed in both quantitative and qualitative methods. As for qualitative analysis, from the dimensions of epistemology, ontology and conception development in the RAINBOW theory (Chiu，2008), the situations for concept change among students of various grades are explored. First，in view of epistemology dimension, students' mental models about the conceptions of oxidation-reduction are described as below. (1) As for the conception of oxidation-reduction, students hold 8 types of mental models, namely the “oxygen” model, the combustion model, the electronic model, oxidation number model, the time sequence model, the route model and the combination/decomposition model. (2)As for the definition and application for oxidation numbers, students hold 7 types of mental models, namely the oxygen-atom number model, the non-oxygen-atom number model, the electronic charge model, mole coefficient model, the “degree” model, the reaction rate model and the scientific model. Second，about the ontology dimension, in view of students' ideas about the definition conceptions of oxidation-reduction, most 10th grade students hold “oxygen” model and combination/decomposition models misplaced in material category. If 11th grade students hold electronic models and oxidation number models, they are separately misplaced in the direct process and material categories in process category. If 12th grade students hold oxidation number models, they are misplaced in the direct process of process category. Finally，in view of development to explain students' ideas, it is found the spontaneous explanation for students' ideas about oxidation-reduction are oftentimes the same as old examples forsaken by science history. As for 10th grade students holding the ideas of combustion models, the ideas are consistent with the combustion found by Scheele (1779). There are also students holding the “oxygen” models. It is consistent with the idea of a type of material existing in the air found by Lavoisier and the material is known as “oxygen”. After 11th and 12th grade students have learned the chapters about atoms, electrons and acid-base reaction and involved with the ideas of oxidation-reduction subsequently, most of them hold electron models and they suppose oxidation-reduction reaction and ion valence numbers are correlated. This situation is consistent with the ion theory proposed by Arrenhius (1884) and the valence electron theory proposed by Lewis (1916). As for students holding combination/ decomposition models, it is supposed that the decomposition process of compounds from common reaction is also a type of oxidation-reduction reaction. This idea is similar to the definition of oxidation-reduction proposed by Liebig (1837), namely the release of hydrogen atoms or oxygen atoms from compounds. About quantitative analysis, the analysis on conception performance is operated with SPSS software. Researchers also develop a set of probability statistical software to analyze students' possible answer routes among various question sets. From this research, it is found that when students answer two-tier questions, most local senior high school students holding the conception of oxidation-reduction meaning the gain and release oxygen atoms show their excellent out performance in learning with academic grades increasing. The ideas of both gain and release in electrons also belong to the conception of oxidation-reduction. The performance of 11th grade students are slightly superior to 12th grade students, but shows no significant difference statistically. 12th grade students reach higher scores about the definition of oxidation-reduction and application conception. With academic grades increased, the scores are increased significantly. In this research, the mental model types and concept change about oxidation-reduction of senior high school students are explored in multidimensional ways. Research results are proposed with reference available for academic course designers, science teachers and scholars of science education.