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    題名: Theoretical Study on Adsorption and Dissociation of NO(2) Molecule on Fe(111) Surface
    作者: Chen, HL (Chen, Hui-Lung)
    Wu, SY (Wu, Shiuan-Yau)
    Chen, HT (Chen, Hsin-Tsung)
    Chang, JG (Chang, Jee-Gong)
    Ju, SP (Ju, Shin-Pon)
    Tsai, C (Tsai, Chiitang)
    Hsu, LC (Hsu, Ling-Chieh)
    貢獻者: 化學系
    關鍵詞: GENERALIZED GRADIENT APPROXIMATION
    METHYL RADICAL RECOMBINATION
    DENSITY-FUNCTIONAL THEORY
    TOTAL-ENERGY CALCULATIONS
    TRANSITION-STATE-THEORY
    AUGMENTED-WAVE METHOD
    NITROGEN-DIOXIDE
    ULTRASOFT PSEUDOPOTENTIALS
    AMMONIA-SYNTHESIS
    AG(111) SURFACE
    日期: 2010-12
    上傳時間: 2011-12-12 11:10:50 (UTC+8)
    摘要: We applied periodic density-functional theory (DFT) to investigate the adsorption and dissociation of NO(2) on a Fe(111) surface. The most favorable adsorption configuration of NO(2)/Fe(111) is the FeNO(2)(S-mu(3)-N,O,O') configuration with NO(2) at the 3-fold-shallow site of the surface, which has an adsorption energy -64.59 kcal/mol. Of two geometries of NO(2)/Fe(111) for the stepwise NO(2) deoxygenation, one is the most stable structure, FeNO(2)(S-mu(3)-N,O,O'), with activation barriers 10.38 and 19.36 kcal/mol to break the first (ON-O bond activation) and second (N-O bond activation) nitrogen-oxygen bonds, respectively; another configuration FeNO(2)(B-mu(2)-N,O) has a smaller energy barrier (3.88 kcal/mol) to break the first ON-O bond. All these findings show that NO2 can readily decompose on the Fe(111) surface. The rate constants for the two aforementioned processes were also predicted by VTST and RRKM theory, and the predicted total rate constants, ktotal(in units of cm(3) molecule(-1) s(-1)), can be represented by the equations k(total) = 5.61 x 10(-5)T(-2.060)exp(-0.639 kcal mol(-1)/RT) at T = 100-1000 K. To acquire insight into the great catalytic activity of the Fe(111) surface for the decomposition of NO(2), the nature of the interaction between the adsorbate and the substrate is subjected to a detailed electronic analysis.
    顯示於類別:[化學系所] 期刊論文

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