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首页> 外文期刊>The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical >Effects of Sb Adatoms on Kinetics of Electrocatalytic Oxidation of HCOOH at Sb-Modified Pt(100), Pt(111), Pt(110), Pt(320), and Pt(331) Surfaces-An Energetic Modeling and Quantitative Analysis
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Effects of Sb Adatoms on Kinetics of Electrocatalytic Oxidation of HCOOH at Sb-Modified Pt(100), Pt(111), Pt(110), Pt(320), and Pt(331) Surfaces-An Energetic Modeling and Quantitative Analysis

机译:Sb吸附原子对Sb修饰Pt(100),Pt(111),Pt(110),Pt(320)和Pt(331)表面上HCOOH电催化氧化动力学的影响-能量建模和定量分析

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Electrocatalytic oxidation of formic acid on Pt(100), Pt(111), Pt(110), Pt(320), and Pt(331) surfaces modified with Bs adatoms (Pt(hkl)/Sb) was investigated using cyclic voltammetry, potential step technique, and in-situ FTIR spectroscopy. Emphasis has been placed on investigations of the effects of Sb adatoms at Pt singlecrystal surfaces on the kinetics of HCOOH oxidation. Quantitative data of kinetics of HCOOH oxidation via reactive intermediates were obtained by applying a potential step technique in combination with a data processing method of integration transform of j-t transients, which has been described in our previous paper (Sun, S. G.; Yang. Y. Y. J. Electroanal. Chem. 1999, 467, 121). The current results illustrated that the kinetics of HCOOH oxidation is faster on bare surfaces of Pt(100), Pt(111), and Pt(320) than that on Sb-modified surfaces of these Pt single-crystal electrodes, but it is slower on bare surfaces of Pt(111) and Pt(331) than that on Sb-modified surfaces of the two Pt single-crystal electrodes. The peak potentials of HCOOH oxidation on Pt(hkl)/Sb were all converged in a narrow potential region between 0.20 and 0.30 V (SCE), implying that the adsorption of sb on Pt(hkl) planes has altered the apparent activation energy of HCOOH oxidation. On the basis of quantitative results, we have proposed, for the first time, a rectifying factor of apparent activation energy (γ/kJ mol~(-1)) that describes the alteration by Sb adatoms of the apparent activation energy of HCOOH oxidation on Pt(hkl)/Sb surfaces. The values of γ have been determined quantitatively for γ_(Pt(100)) = 12.80 ± 0.317, γ_(Pt(110)) = 18.74 ± 0.393, γ_(Pt(320)) = 16.683 ± 0.349, γ_(Pt(111)) = -7.886 ± 0.288, and γ_(Pt(331)) = -11.69 ± 0.245. The transfer coefficient β of HCOOH oxidation on the five Sb-modified Pt(hkl) electrodes was determined to be within the range of 0.12 ± 0.03, which is less dependent on the orientation of a Pt single crystal when it is modified with Sb adatoms and signifies a stepwise transfer of two electrons involved in HCOOH direct oxidation.
机译:使用循环伏安法研究了在Bs原子(Pt(hkl)/ Sb)修饰的Pt(100),Pt(111),Pt(110),Pt(320)和Pt(331)表面上甲酸的电催化氧化,电位步进技术和原位FTIR光谱。重点放在研究Pt单晶表面的Sb原子对HCOOH氧化动力学的影响。 HCOOH经由反应性中间体氧化的动力学定量数据是通过应用电位阶梯技术结合jt瞬态积分变换的数据处理方法获得的,该方法已在我们以前的论文中进行了描述(Sun,SG; Yang。YYJ Electroanal。 Chem.1999,467,121)。目前的结果表明,在Pt(100),Pt(111)和Pt(320)的裸露表面上,HCOOH氧化的动力学比这些Pt单晶电极的Sb改性表面上的HCOOH氧化动力学更快,但速度较慢。 Pt(111)和Pt(331)的裸露表面比两个Pt单晶电极的Sb改性表面上的裸露。 Pt(hkl)/ Sb上HCOOH氧化的峰值电势都收敛在0.20和0.30 V(SCE)之间的狭窄电势区域中,这表明sb在Pt(hkl)平面上的吸附改变了HCOOH的表观活化能氧化。在定量结果的基础上,我们首次提出了表观活化能的校正因子(γ/ kJ mol〜(-1)),该因子描述了Sb原子对HCOOH氧化的表观活化能的改变。 Pt(hkl)/ Sb表面。对于γ_(Pt(100))= 12.80±0.317,γ_(Pt(110))= 18.74±0.393,γ_(Pt(320))= 16.683±0.349,γ_(Pt(111) ))= -7.886±0.288,并且γ_(Pt(331))= -11.69±0.245。确定HCOOH在五个Sb修饰的Pt(hkl)电极上的氧化转移系数β在0.12±0.03的范围内,这与Pt单晶用Sb原子和Pb修饰时的取向较少相关。表示参与HCOOH直接氧化的两个电子的逐步转移。

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