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陳艷霞

姓 名: 陳艷霞

地 址(zhi): 中國安徽省合肥市188bet足球化學物理系  
         合肥微尺度物質科(ke)學國家實驗(yan)室(shi)  230026

電 話: 0551-3600035

傳 真: 0551-3600035

email: [email protected]

個人主頁://ecel.ustc.edu.cn

Researcher ID: F-5929-2010

//orcid.org/0000-0002-1370-7422



 

個人簡介

1989.09 –     1993.07

廈(sha)門大(da)學(xue)化學(xue)系,學(xue)士學(xue)位,物理化學(xue)專業;

1993.09 –     1995.07

廈門大(da)學化(hua)學系,碩士學位,物理(li)化(hua)學專業(ye);

1995.09 –     1998.10

廈門大學(xue)化學(xue)系,博士學(xue)位,物理化學(xue)專業;

1998.11 –     1999.02

廈大化學系,科研助手,物(wu)理(li)化學專業;

1999.03 –     2000.12

德國(guo)杜塞(sai)爾多夫大學(xue)表(biao)面和凝固態(tai)材料研究所,洪(hong)堡學(xue)者(zhe).

2001.01 –     2001.12

慕尼黑工(gong)業(ye)大學物理系(xi)界面和能量轉換(huan)研究所博(bo)士后.

2002.01 –     2002.03

日(ri)本北(bei)海道(dao)大(da)學催化研究中心界面和光譜電化學實驗室日(ri)本北(bei)海道(dao)大(da)學文部(bu)省中核機構COE研(yan)究(jiu)員.

2002.04 –     2006.12

德國烏(wu)爾姆(mu)大學表面化(hua)學和催化(hua)研究所洪(hong)堡(bao)學者;

2007.01 –     至(zhi)今

中國科(ke)技大學(xue)化學(xue)物理系,合肥微尺度物質科(ke)學(xue)國家實(shi)驗(yan)室教(jiao)授(shou),博士(shi)生(sheng)導(dao)師。

  

研究方(fang)向(xiang)

表面電(dian)(dian)化學(xue)(xue)、光(guang)譜電(dian)(dian)化學(xue)(xue)和(he)(he)電(dian)(dian)催(cui)化,著重(zhong)于電(dian)(dian)化學(xue)(xue)界面結構、燃料電(dian)(dian)池以(yi)(yi)及(ji)生(sheng)物電(dian)(dian)化學(xue)(xue)相關的(de)(de)電(dian)(dian)催(cui)化反應機理(li)和(he)(he)動力學(xue)(xue)的(de)(de)基礎(chu)研究(jiu)以(yi)(yi)及(ji)相關研究(jiu)技(ji)術(shu)的(de)(de)開發(fa)。



代(dai)表(biao)性的(de)學(xue)術論(lun)文(wen)

1.     Boosting Oxygen Reduction at Pt(111)|Proton Exchange Ionomer Interfaces through Tuning the Microenvironment Water Activity, ACS Applied Materials & Interfaces, 2024, 16, 4540

2.      The pH Induced Increase of the Rate Constant for HER at Au(111) in Acid Revealed by Combined Experiments and Kinetic Simulation, Anal Chem., 2024,96,67.

3.      “Buckets effect” in the kinetics of electrocatalytic reactions,Journal of Energy Chemistry,2024, 89, 388.

4.       Electrocatalysis of Oxygen Reduction on Te-modified Platinum Stepped Crystal Surfaces, ACS Catalysis, 2023,13,16045.

5.      On the Accurate Calibration of Differential Electrochemical Mass Spectrometry,Current Opinion in Electrochemistry 2023, 42,101393.

6.      Formic Acid Oxidation on Different Coverages of Bismuth-Modified Pt(100): A Detailed Voltammetric and FTIR Study, Journal of Catalysis, 2023,426,61

7.      Challenges and Recent Progress in Unravelling the Intrinsic pH Effect in Electrocatalysis,Current Opinion in Electrochemistry, 2022, 34,101003.

8.      Mechanistic Implication of the pH Effect and H/D Kinetic Isotope Effect on HCOOH/HCOO Oxidation at Pt Electrode, A Study by Computer Simulation,ACS Catal.,2021, 11, 6920.

9.     Electrochemical Reaction Induced pH Change at the Electrode/Electrolyte Interface and How to Choose the Right Buffer to Resist Such Change? Anal Chem., 2021,93,1976.

10.   The dynamic nature of CO adlayers on Pt(111) electrodes, Angewa Chem. Int. Ed. 2020,132, 1.


  

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