陳豔霞

1989.9 – 1993.7，廈門大學化學系，學士學位 物理化學專業；

1993.9 – 1995.7，廈門大學化學系，碩士學位，物理化學專業；

1995.9 – 1998.10，廈門大學化學系，博士學位，物理化學專業；

1998.11 – 1999.2，廈大化學系，科研助手，物理化學專業；

1999.3 – 2000.12，德國杜塞爾多夫大學表面和凝固態材料研究所（A. Otto教授），洪堡獎學金，博士後，利用衰減全內反射拉曼光譜研究單晶銅表面物種的吸附，瞭解表面增強拉曼效應和金屬表面粗糙度的關係；

2001.1 – 2001.12，慕尼黑工業大學物理系界面和能量轉換研究所（U. Stimming教授），博士後，開發、表徵優化氫氧燃料電池、直接甲醇燃料電池的膜電極列陣(Membrane Electrode Assemblies)，以降低催化劑用量同時提高電池的效率，延長電池的壽命；

2002.1 – 2002.3，日本北海道大學催化研究中心界面和光譜電化學實驗室（M. Osawa教授），日本北海道大學文部省中核機構COE研究員，主要任務：利用表面增強紅外光譜研究甲醇在鉑電極上的陽極氧化；

2002.4 – 2006.12，德國烏爾姆大學表面化學和催化研究所 (R. J. Behm教授) 博士後，電化學原位紅外光譜和電化學在線質譜研究燃料電池相關的電催化反應；

2007.1 – 至今，中國科技大學化學物理系，合肥微尺度物質科學國家實室，教授，博士生導師，譜學電化學在電催化中的應用。 ^[1] 

1、表面電化學/光譜電化學

2、電催化/單分子反應動力學

3、低温質子交換膜燃料電池 ^[1] 

1.面向車用燃料電池的納米-介觀-宏觀多級結構的電催化體系的研究, 973 重大科學研究計劃子課題: 結構明確的高活性電催化劑納米結構基元的合成(編號2015CB932300，2014-2019)

2.Pt系單晶電極上氧還原反應超電勢的起源研究, 國家自然基金面上項目 (編號：21473175, 2015-2018)

3. 等離子基元增強拉曼光譜儀器的研發與應用子課題，PERS在電化學基礎研究中的應用，國家重大科學儀器設備開發專項(編號：2011YQ03012416 2012-2016)

4. 電化學微分質譜與紅外光譜聯用技術及其在燃料電池電催化中的應用, 國家自然基金面上項目 (編號：21273215， 2013-2016)

1. 基於分子和分子體系的量子調控子課題,電極過程的量子調控, 973 重大科學研究計劃 (編號2010CB923302，2009-2014)

2.中國科技大學海外優秀留學人才啓動基金(2007-2009)

3. 在可控的温度及傳質下甲醇氧化的電化學原位紅外光譜研究, 國家自然科學基金委面上項目(項目批准號：20773116, 2008-2010)

4. 低鉑擔載甲醇氧化電催化劑結構-性能關係研究, 德國洪堡基金會回國後續支持項目(2007-2009)

5. 用於甲醇陽極氧化的低維納米複合電催化劑的製備及性能表徵, 廈門大學固體表面物理國家重點實驗室開放課題 (2008-2009)

6. 中國科院百人計劃(2009-2011)

7. 石墨烯上金屬鈉米粒子的構築及其電催化活性研究, 廈門大學固體表面物理國家重點實驗室開放課題（2010-2011）

8. 譜學電化學在電催化中的應用, 教育部留學回國人員啓動基金(2010-2012)

9. 鉑基氧還原催化劑性能改善機理研究, 國家自然科學基金委面上項目(項目批准號：21073176，2011-2013).

1. 電化學青年獎， 中國電化學會，2011.10

2. 青年研究獎學金，德國洪堡基金會, 1999. 7- 2000.12, 2002.7-2002.9

3. 日本文部省COE獎學金

4. 中科院”百人計劃”擇優支持

5. 日本北海道大學訪問教授

Papers published in 2014

1. The Effect of Alcohol Concentration on the Mass Signal of CO2 Detected by Differential Mass SpectrometryWei Chen; Qian Tao; Jun Cai; Yan Xia ChenElectrochemistry Communications,　2014,48,10.

2. On the Origin of the Errors of ik as Estimated from K-L Equation in Rotating Disk Electrode System

Wei Chen; Lingwen Liao; Zhengda He; Yanxia ChenJournal of Electrochemistry

3. The Preparation of Surfactant-free Pt and PtRu Nanoparticles with high Activity for Methanol OxidationYao Yao, Jun Cai, Yong Li Zheng, Yan-Xia ChenChinese Journal Of Chemical Physics, 2014

4. Methanol Oxidation at Pt and PtRu Electrodes, a Study by Combined in-situ Infrared Spectroscopy and Differential Electrochemical Mass Spectrometry (Acceped)Qian Tao, Wei Chen, Yao Yao, Ammar Bin Yousaf ,Yan-Xia ChenChinese Journal Of Chemical Physics, 2014　

5. A Kinetics Study on O2 Adsorption and OHad Desorption at Pt(111), Its Implication to Oxygen Reduction Reaction Kinetics (Acceped)Fan Yang,Ling Wen Liao,Ming Fang Li,Dong Mei,Yan-Xia ChenChinese Journal Of Chemical Physics, 2014　

6. Mechanistic and Kinetic Implications on ORR at Au(100) Electrode, pH, Temperature and H-D kinetic Isotope effectsD. Mei, Z. D. He, Y. L. Zheng, D. C. Jiang, Y.-X. ChenPhys. Chem. Chem. Phys, DOI:10.1039/C4CP00257A

7. Redox Reaction of Hydrogen Peroxide at Au(100) Electrode, Its Implication to Oxygen Reduction KineticsZheng, Y; Mei, D; Chen, Y; Ye, S.Electrochem. Commun,2014, 39,19.　

8. Interaction of C1 Molecules with a Pt Electrode at Open Circuit Potential: A Combined Infrared and Mass Spectroscopic StudyQ. Tao, Y.-L. Zheng, D.-C. Jiang, Y.-X. Chen,Z. Jusys and R. J. BehmJ. Phys. Chem. C, 2014, 118, 6799　

9. Electrodeposition of silver on stepped platinum electrode surfaces with (100)-oriented terraces: Generation of confined reaction sitesJ. Xu, A.-E.-Aziz, A. A.-E.l-Latif, Y.-X. Chen, H. BaltruschatJ. Electroanal. Chem.,2014, 716, 93

10. Modeling of the Potential Oscillation during Galvanostatic Electrooxidation of Formic Acid at Platinum ElectrodeDong Mei, Zheng-Da He, Dao Chuan Jiang, Jun Cai and Yan-Xia ChenJ. Phys. Chem. C, 2014,118,6335.　

11. 甲醇及甲酸在模型單晶鉑電極上電催化氧化機理及動力學的研究徐傑, 江道傳，梅東, 何政達，陳豔霞

Papers published in 2013

1. Kinetic Implication from Temperature effect on Hydrogen Evolution Reaction at Ag Electrode

Jing Kang, Chu-Hong Lin, Yao Yao and Yan-Xia ChenChinese Journal Of Chemical Physics, 2013.27.63

2. 鉑基催化劑上的氧還原李明芳, 廖鈴文, 楊帆, 姚瑤, 陳豔霞電催化, 化工出版社, 第7章, 2013　

3. Potential Dependence of Cyanide Adsorption at Pt Electrode in Acidic Solution: An Electrochemical in-situ Infrared Spectroscopic StudyShao Xiong Liu, Yong Li Zheng, Jie Xu, Jun Cai, Wen Hua Zhang, Jin Long Yang, Yan Xia Chen*J. Physical Chemistry C, 2013, 117, 15562.

4. pH Effect on Oxygen Reduction Reaction at Pt(111) ElectrodeMing Fang Li, Ling Wen Liao,Dao Fu Yuan, Dong Mei, Yan-Xia Chen*Electrochim. Acta, 2013,110,780.

5. On the Mechanism of the Direct Pathway for Formic Acid Oxidation at Pt(111) ElectrodeJ. Xu, D.F. Yuan, F.Yang, D. Mei, Z. B. Zhang and Y. X. ChenPhys. Chem. Chem. Phys., 2013, 15 (12), 4367.

6. Density functional theory study on the adsorption and decomposition of the formic acid catalyzed by highly active mushroom-like Au@Pd@Pt tri-metallic nanoparticlesS. Duan,Y.-F. Ji,P.-P. Fang,Y. X. Chen,X. Xu,Y. Luoand Z.-Q. TianPhys. Chem. Chem. Phys., 2013, 15 (13), 4625.

7. Electrode Reaction Induced pH change at the Pt Electrode/Electrolyte Interface and its Impact on Electrode ProcessesL. W. Liao, M. F. Li, J. Kang, D. Chen, Y. X. Chen and S. YeJ. Electroanal. Chem. 2013, 688, 207.

8. The Effect of Catalyst Loading on the Evaluation of Kinetic Parameters of Gas Electrode Reactions using Thin Film Rotating Disk Electrode MethodL. W. Liao, D. Chen, M. F. Li,　Y. L. Zheng,　J. Kang, Y. X. Chen,SCIENTIA SINICA Chimica, 2013,43,178.

9. A Revisit to the Role of Bridge-adsorbed Formate in the Electrocatalytic Oxidation of Formic Acid at Pt ElectrodesJ. Xu; D. Mei; D. F. Yuan; Z. B. Zhang; S. X. Liu; Y. X. ChenChinese Journal Of Chemical Physics, 2013, 26(3), 321.

10. The Role of Bridge-bonded Formate in Formic acid Dehydration to CO at Pt Electrode: An Electrochemial in situ Infrared Spectroscopic StudyZ. B. Zhang, J.Xu, J. Kang and Y. X. Chen,Chinese Journal Of Chemical Physics, 2013, 26(4)，471.

11. Oxygen Reduction Reaction on Glycin Modified Pt(111) ElectrodeM. F. Li, J. Kang, L. W. Liao, Y. X. Chen and S. YeJournal of Electrochemistry, 2013, 19, 1.

12. Determination of the Isotherm for Acetate and Formate Adsorption at Pt(111) Electrode by Fast Scan VoltammetryJ. Xu, C.H. Lin, D. Mei, Z. B. Zhang, D. F. Yuan and Y. X. ChenChinese Journal Of Chemical Physics, 2013,26(2),191.

Papers published in 2012

1.Temperature Effect on Hydrogen Evolution Reaction at Au ElectrodeZ. Q. Tang; L. W. Liao; Y. L. Zheng; J. Kang; Y. X. ChenChinese Journal Of Chemical Physics, 2012, 25,469.

2.Control over the branched structures of platinum nanocrystals for electrocatalytic applications

L. Ma,C. M. Wang,M. Gong, L. W. Liao, R. Long, J. G. Wang, D. Wu, W. Zhong, M. J. Kim, Y. X. Chen,Y. Xie, and Y. J. Xiong,ACS Nano, 2012, 69797.

3.Polyoxometalates Immobilized in Ordered Mesoporous Carbon Nitride as Highly Efficient Water Oxidation CatalystsJ. Wu, L. W. Liao, W. S. Yan, Y. Xue, Y. F. Sun, X. Yan, Y. X. Chen, and Y. Xie,ChemSusChem,2012, 5,1207.

Papers published in 2011

1.The Kinetics of CO Pathway in Methanol Oxidation at Pt Electrodes, a Quantitative Study by ATR-FTIR SpectroscopyL.W. Liao, S. X. Liu, Q. Tiao, B. Geng,P. Zhang, C. M. Wang, Y.-X. Chen and S. Ye,Phys.Chem. Chem. Phys., 2011, 13, 9725.

2.A method for kinetic study of methanol oxidation at Pt electrodes by electrochemical in situ infrared spectroscopyL.W. Liao, S. X. Liu, Q. Tiao, B. Geng,P. Zhang, C. M. Wang, Y.-X. Chen and S. Ye,J. Electroanal. Chem., 2011, 650, 233.

3.Determining the Active Surface Area of Various Pt Electrodes with Different Roughness and DispersionDong Chen, Qian Tao, Ling Wen Liao, Shao Xiong Liu, Yan-Xia Chen and Shen Ye,Electrocatalysis, 2011.2.207

4.室温下Pt電極上CO的脱附機理研究劉少雄, 康婧, 耿斌, 陶騫, 陳豔霞中國科學，化學，2011, 41, 1582.

5.不同pH值下多晶Au電極上的氧還原反應中國科學，化學, 2011,41, 1777.

6.Pd/Pt二元合金電極的製備及其氧還原性能研究方蘭蘭,廖玲文, 劉少雄, 蔡俊, 李明芳, 陳豔霞

7.　Electrochemistry of ABTS at Glassy Carbon ElectrodesHan Zeng, Zhi-qiang Tang, Ling-wen Liao, Jing Kang, Yan-xia ChenChinese J. Chemical Physics, 2011, 24, 653.

Papers published before 2011

1.　Temperature effects on CO Adsorption/Desorption at Pt Film Electrodes: An Electrochemical in-situ Infrared Spectroscopic StudyB. Geng, J. Cai, S. Liang, S. X. Liu, M.F. Li and Y.-X. Chen,Phys. Chem. Chem. Phys., 2010, 12, 10888 - 10895

2.　Potential-Dependent Chemisorption of Carbon Monoxide at a Gold Core―Platinum Shell Nanoparticle Electrode: A Combined Study by Electrochemical in situ　 Surface-Enhanced Raman Spectroscopy and Density Functional Theory

Pu Zhang, Jun Cai, Yan-Xia Chen, Zhi-Qiang Tang, Dong Chen, JinLong Yang,De-Yin Wu, Bin Ren and Zhong-Qun Tian,J. Phys. Chem. C, 2010, 114, 403–411

3.　Oxidation of Carbon Supports at Fuel Cell Cathodes: Differential Electrochemical Mass Spectrometric Study

M.F. Li, Q. Tao, L. W. Liao, J. Xu, J. Cai and Y. X. Chen,Chinese J. Chemical Physics, 2010, 4, 442-446

4.　Determination of the Real Surface Area of Palladium Electrode

L.-L. Fang, Q. Tao, M.-F. Li, L.-W. Liao, D. Chen and Y.-X. Chen,Chinese J. Chemical Physics, 2010, 5, 543.

5.　聚芳酰胺-多壁碳納米管混合物固定漆酶電極的電化學行為曾涵,廖鈴文,李明芳,陶騫,康婧,陳豔霞,

物理化學學報，2010, 26, 3217。

6.　Pt電極上CO的同位素取代吸附機理研究梁桑梓,劉少雄,廖玲文,陶騫,康婧，陳豔霞,電化學，2010,16,324

7.　Temperature Programmed Desorption – An Application to Kinetic Studies of CO Desorption at Electrochemical InterfacesBin Geng, Jun Cai, Shao-Xiong Liu, Pu Zhang, Zhi-Qiang Tang, Dong Chen, Qian Tao,Yan-Xia Chen and Shou-Zhong Zou,

J. Phys. Chem. C, 2009, 113, 20152–20155.

8.　An Electrochemical in Situ Surface-Enhanced Raman Spectroscopic Study of Carbon Monoxide Chemisorption at a Gold Core-Platinum Shell Nanoparticle Electrode with a Flow Cell

Pu Zhang, Yan-Xia Chen, Jun Cai, Sang-Zi Liang, Jian-Feng Li, An Wang, Bin Ren and Zhong-Qun Tian

J. Phys. Chem. C, 2009,113(40): 17518-17526.

9.　The Mechanism and Kinetics of Cyanide-Assisted CO Desorption from Pt Electrodes: an Infrared Spectroscopic Study

Bin Geng, Shaoxiong Liu, Jun Cai, Sangzi Liang, and Yan-Xia Chen,

J. Phys. Chem. C, 2009, 113, 10326.

10.　 A Thermostatic Cell with Gas Diffusion Electrode for Oxygen Reduction Reaction under Fuel Cell Relevant Conditions

Yan-Xia Chen, Ming-Fang Li, Ling-Wen Liao, Jie Xu, Shen Ye,

Electrochem. Commun., 2009,11,1434

11.　 Potential-Induced COad Island Formation on a Platinum Thin-Film Electrode in the H-upd Potential Region

Yan-Xia Chen, Martin Heinen, Zenonas Jusys, and Rolf Juergen Behm,

J. Phys. Chem. C, 2007, 111, 435.

12. Kinetic Isotope Effects in Complex Reaction Networks: Formic Acid Electro-Oxidation

Yan-Xia Chen, Martin Heinen, Zenonas Jusys, and Rolf Juergen Behm,

ChemPhysChem, 2007, 8, 380 – 385.

13.　Room Temperature COad Desorption/Exchange Kinetics on Pt Electrodes—A Combined In Situ IR and Mass Spectrometry Study

Martin Heinen, Yan-Xia Chen, Zenonas Jusys, and Rolf Juergen Behm,

ChemPhysChem, 2007, 8, 2484 – 2489.

14.　 CO adsorption kinetics and adlayer build-up studied by combined ATR-FTIR spectroscopy and on-line DEMS under continuous flow conditions

Martin Heinen, Yan-Xia Chen, Zenonas Jusys, and Rolf Juergen Behm,

Electrochmica Acta, 2007, 53,1279.

15.　In situ ATR-FTIRS coupled with on-line DEMS under controlled mass transport conditions—A novel tool for electrocatalytic reaction studies

Martin Heinen, Yan-Xia Chen, Zenonas Jusys, and Rolf Juergen Behm,

Electrochmica Acta, 2007, 52,5634

16.　Kinetics and Mechanism of Formic Acid Electrooxidation – Spectro-Electrochemical Studies in a Novel Flow Cell Configuration,

Yan-Xia Chen, Martin Heinen, Zenonas Jusys, and Rolf Juergen Behm,

Angewandte Chemie, Int. Edition, 2006, 45, 981.

17.　Bridge-Bonded Formate: Activeintermediate or Spectator Species in Formic Acid Oxidation on a Pt Film Electrode

Yan-Xia Chen, Martin Heinen, Zenonas Jusys, and Rolf Juergen Behm,

Langmuir, 2006, 22, 10399.

18.　 Application of in-situ Attenuated Total Reflection-Fourier Transform Infrared Spectroscopy for the Understanding of Complex Reaction Mechanism and Kinetics: Formic Acid　 Oxidation on a Pt Film Electrode at Elevated Temperatures,

Yan-Xia Chen, Martin Heinen, Zenonas Jusys, and Rolf Juergen Behm,

J. Phys. Chem. B, 2006 110(19): 9534-9544.

19. 　Electronic effects in SERS by liquid water

Yan-Xia Chen and Andreas Otto,

J. Raman Spectrosc., 2005, 36, 736.

20.　CO2 reduction on Pt electrocatalysts and its impact on H2 oxidation in CO2 containing fuel cell feed gas - A combined in-situ infrared spectroscopy, mass spectrometry and fuel cell performance study

Smolinka T., Heinen M., Chen Y.X., Jusys Z., Lehnert W., and Behm R.J.,

Electrochimica Acta, 2005, 50, 5189.

21.　Formate, an Active Intermediate for Direct Oxidation of Methanol on Pt Electrode.

Chen Y. X., Miki A., Ye S.,Sakai H. and Osawa M.:

Journal of American Chemical Society, 125 (2003), 3680.

22. 　On the "chloride activation" in SERS and single molecule SERS.

Otto A., Bruckbauer A., Chen Y. X.,

Journal of Molecular Structure, 2003, 662, 501.

23.　The charge transfer effect of SERS induced by the electrochemical hydrogen evolution reaction.

F. M. Liu; Q. Han; Y. X. Chen; Q. L. Zhong; B. Ren; Z. Q. Tian,

Electrochemistry, 2001, 7(1), 74-77.

24.　SERS studies of Electrode/electrolyte interfacial water II. Librations of water and electrochemical hydrogen evolution reaction

Chen Y. X., Zou S. Z., Huang K. Q. and Tian Z. Q.,

Journal of Raman Spectroscopy, 1998,249,749.

25.　In Situ Raman Spectroscopic Study of the Oxidation and Reduction of Ag Electrode in Na2SO4 solution.

Chen Y. X., Huang K. Q. and Tian Z. Q.:

Electrochemistry,1998,4(2) 135.

26.　SERS studies on electrode/electrolyte interfacial water---I. Ion effects in the negative potential region

Zou S. Z., Chen Y. X., Mao B.W., Ren B. and Tian Z. Q.:

Journal of Electroanalytical Chemistry，1997，24, 19-25.

27.　Extending ECSTM Studies to Polycrystalline Electrode Surfaces with Atomic Resolution.

Shi C. H., Cai X. W., Chen Y. X., Tian Z. Q. and Mao B. W.:

Acta Physico-Chimica Sinica, 1997，13(12) 1061-1064

28.　SERS Studies of Electrode/Electrolyte Interfaces I. Cu/1.0 M Na2SO4 and NaCl solution.

Chen Y. X., Huang K. Q. and Tian Z. Q.:

Chinese Journal of Light Scattering，1997，9(2-3), 289-291.

29.　SERS Studies of Electrode/Electrolyte Interfaces II. Ag/MgSO4 System? A Possible Method Measuring Interfacial pH.

Chen Y. X., Huang K. Q. and Tian Z. Q.:

Chinese Journal of Light Scattering，1997，9(2-3), 292-294

30.　Dependence of Surface-enhanced Raman scattering of water on the hydrogen evolution reaction,

Chen Y. X. and Tian Z. Q.:

Chemical Physical Letters, 1997，281，379.

31. 　Raman spectroscopic studies of water in different electrolyte solutions.

Zou S. Z., Chen Y. X., Zhang Y. H., , Tian Z. Q. :

Acta Physico-Chimica Sinica 1996，12 (2) 130-135.

32.　 Probing electrode/electrolyte interfacial structure in the potential region of hydrogen evolution by Raman spectroscopy.

Tian Z. Q., Ren B., Chen Y. X., Zou S. Z. and Mao B. W.:

Journal of Chemistry Society, Faraday Transactions ，1996，92(20) 3829-3838.

33.　 SERS studies of the structure and orientation of water over Ag electrode---the effects of electrode potentials and electrolyte concentration.

Zou S. Z., Zhang Y. H., Chen Y. X., Tian Z. Q.:

Chemical Journal of Chinese Universities 1995,16 (2), 245-251.

34. 　 SERS effect induced from conducting Polymer/Solution Interfaces.

Gao J. S., Chen Y. X., Tian Z. Q., Li C. Z., Liu Z. F. and Cai S. M.:

Electrochemistry 1995, 1(2), 237-247.

35. 　 Extending surface-enhanced Raman spectroscopic studies on water at gold electrodes.

Tian Z. Q., Chen Y. X., Mao B. W., Li C. Z., Wang J. and Liu Z. F.

Chemical Physical Letters, 1995, 240, 224-229.