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盧錫洪

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盧錫洪, 男,1985年5月生,廣東中山人,博士,中山大學化學學院教授博士生導師[1]

2019.02-至今 中山大學化學學院 教授。 [2]

目錄

基本信息

人物說明----中山大學化學學院教授、博士生導師

民 族 ---- 漢族

出生地點----廣東中山

出生日期----1985年5月

國 籍 ---- 中國

職 業 ---- 教育科研工作者

畢業院校----中山大學

教育經歷

2008.09-2013.07 中山大學化學與化學工程學院 理學博士;

2011.09-2013.05 美國加州大學聖克魯茲分校化學與生物系 聯合培養博士;

2004.09-2008.07 中山大學化學與化學工程學院 理學學士。

工作經歷

2019.02-至今 中山大學化學學院 教授;

2015.02-2019.01 中山大學化學學院 副教授;

2015.07-2015.08 香港科技大學化學系 訪問學者;

2013.07-2015.01 中山大學化學與化學工程學院 講師。

講授課程

《普通化學》、《大學化學》、《催化化學》及《物理化學實驗》。

科研方向

新型納米能源材料及電化學儲能器件(超級電容器、水系金屬離子電池、電催化、微生物燃料電池等)

獲獎情況

2017廣東省高等類教育教學成果一等獎(第五完成人)

2017 廣東省第七屆大學生材料創新大賽 優秀指導老師

2017 中山大學第八屆教學成果獎一等獎(第五完成人)

2017 中山大學化學學院芙蘭勵教獎(教學獎)

2016 中山大學化學學院87校友獎

2015 廣東省自然科學獎一等獎(第三完成人)

2015高等學校科學研究優秀成果獎自然科學獎二等獎(第三完成人)

2015 廣東省優秀博士學位論文

2015年 第十四屆"挑戰杯"中航工業全國大學生課外學術科技作品競賽 優秀指導老師

2015 廣東省第五屆大學生材料創新大賽 優秀指導老師

2014 中山大學化工學院芙蘭勵教獎(優秀青年教師獎)

2013 第八屆中國青少年科技創新獎。

學術兼職

1. Materials Research Bulletin,客座編輯(Elsevier,2017)

2. Journal of Nanomaterials,客座編輯(Hindawi,2016)

學術成果

科研項目

1. 國家優秀青年科學基金項目,21822509, 2019.01-2021.12

2. NSFC-山西煤基低碳聯合基金,U1810110,2019.01-2021.12

3. 廣東省省級科技項目(國際合作),2018A050506028, 2019.01-2021.05

4. 中國化學會2016-2018年度"青年人才托舉工程"項目、2017.01-2019.12

5. 石墨烯材料的修飾技術與工藝研究,廣東電網有限責任公司電力科學研究院,2017.08-2019.12

6. 廣東省特支計劃科技創新青年拔尖人才項目,2015TQ01C205,2016.06-2019.05

7. 廣州市珠江科技新星專項,201610010080,2016.05.-2019.04.

8. 高校基本科研業務費青年教師重點培育項目,17lgzd16,2017.05-2018.12

9. 廣東省應用型科技研發專項資金項目,2015B090927007,2015.09-2018.08

10. 廣東省自然科學傑出青年基金,2014A030306048,2015.01-2019.01

11. 國家自然青年科學基金項目,21403306,2015.01-2017.12

12. 高校基本科研業務費青年教師培育項目,15lgpy24,2015.01-2016.12

論文

55. Tang HL*,Cai SC,Xie SL,Wang ZB,Tong YX,Pan M,and Lu XH*. Metal Organic Framework Derived Dual Metal and Nitrogen doped Carbon as Efficient and Robust Oxygen Reduction Reaction Catalysts for Microbial Fuel Cells. Adv. Sci. 2016,3,1500265.

54. Yu MH,Qiu WT,Wang FX,Zhai T,Fang PP,Lu XH*,and Tong YX.* Three Dimensional Architectures: Design,Assembly and Application in Electrochemical Capacitors. J. Mater. Chem. A 2015,3,15792–15823.

53. Balogun M,Qiu W.T,Wang W,Fang PP,Lu XH*,and Tong YX.* Recent Advances in Metal Nitrides as High Performance Electrode Materials for Energy Storage Devices. J. Mater. Chem. A 2015,3,1364–1387.

52. Li N,Xia WY,Wang J,Liu ZL,Li QY,Chen SZ,Xu CW*,and Lu XH*. Manganese Oxides Supported on Hydrogenated TiO2Nanowire Array Catalysts for the Electrochemical Oxygen Evolution Reaction in Water Electrolysis. J. Mater. Chem. A 2015,3,21308-21313.

51. Balogun M,Qiu W.T,Jian JH,Huang YC,Luo Y,Yang H,Liang CL,Lu XH*,and Tong YX*. Vanadium Nitride Nanowire Supported SnS2 Nanosheets with High Reversible Capacity as Anode Material for Lithium Ion Batteries. ACS Appl. Mater. Interfaces,2015,7,23205–23215.

50. Balogun M,Zhu YK,Qiu WT,Luo Y,Huang YC,Liang CL,Lu XH*,and Tong YX*. Chemically Lithiated TiO2 Heterostructured Nanosheet Anode with Excellent Rate Capability and Long Cycle Life for High-Performance Lithium-Ion Batteries. ACS Appl. Mater. Interfaces,2015,7,25991−26003.

49. Xie SL,Wei WJ,Huang SC,Li MY,Fang PP,Lu XH*,and Tong YX.* Efficient and Stable Photoelctrochemical Water Oxidation by ZnO Photoanode Coupled with Eu2O3 as Novel Oxygen Evolution Catalyst. J. Power Sources,2015,297,9-15.

48. Xie SL,Huang SC,Wei WJ,Yang XZ,Liu Y*,Lu XH*,and Tong YX. Chitosan Waste-Derived Co and N Co-doped Carbon Electrocatalyst for Efficient Oxygen Reduction Reaction. ChemElectroChem,2015,2,1806-1812.

2014年

47. Lu XH,Xie SL,Yang H,Tong YX. Ji HB*. Photoelectrochemical Hydrogen Production from Biomass Derivatives and Water. Chem. Soc. Rev.,2014,43,7581–7593.

46. Yu MH,Zhang YF,Zeng YX,Balogun MS,Mai KC,Zhang ZS*,Lu XH*,and Tong YX. Water Surface Assisted Synthesis of Large-Scale Carbon Nanotube Film for High-Performance and Stretchable Supercapacitors. Adv. Mater.,2014,26,4724–4729.

45. Lu XH,Zeng YX,Yu MH,Zhai T,Lian2g CL,Xie SL,Muhammad-Sadeeq B,Tong YX*. Oxygen-Deficient Hematite Nanorods as High-Performance and Novel Negative Electrode for Flexible Asymmetric Supercapacitors. Adv. Mater.,2014,26,3148–3155.

44. Wang XF†,Lu XH†,Liu B,Chen D,Tong YX*,and Shen GZ*. Flexible Energy-Storage Devices: Design Consideration and Recent Progress,Adv. Mater.,2014,26,4763–4782.(Co first author)

43. Lu XH,Yu MH,Wang GM,Tong YX* and Li Y.* Flexible Solid-State Supercapacitors: Design,Fabrication and Applications,Energy Environ. Sci.,2014,7,2160-2181.

42. Lu XH,Liu TY,Zhai T. Wang GM,Yu MH,Xie SL,Ling YC,Liang CL,Tong YX*,and Li Y*. Improving Cycling Stability of Metal Nitride Supercapacitor Electrodes with a Thin Carbon Shell. Adv. Energy Mater.,2014,4,1300994.

41. Yu MH,Wang W,Li C,Zhai T,Lu XH*,and Tong YX.* Scalable Self-Growth of Ni@NiO Core-Shell Electrode with Ultrahigh Capacitance and Super Long Cyclic Stability for Supercapacitors. NPG Asia Mater.,2014,6,e129.

40. Xie SL,Li MY,Wei WJ,Zhai T,Fang PP,Qiu QL,Lu XH*,and Yexiang Tong. Gold Nanoparticles Inducing Surface Disorders of Titanium Dioxide Photoanode for Efficient Water Splitting. Nano Energy,2014,10,313-321.

39. Zhai T,Xie SL,Yu MH,Fang PP,Liang CL,Lu XH*,and Tong YX.* Oxygen Vacancies Enhancing Capacitive Properties of MnO2 Nanorods for Wearable Asymmetric Supercapacitors. Nano Energy,2014,8,255-263.

38. Li MY,Hu Y,Xie SL,Huang YC,Tong YX,* Lu XH.* Heterostructured ZnO/SnO2-x Nanoparticles for Efficient Photocatalytic Hydrogen Production. Chem. Commun.,2014,50,4341-4343.

37. Gan JY,Lu XH*,and Tong YX.* Towards High Efficient Photoanodes: Boosting Sunlight-Driven Semiconductor Nanomaterials for Water Oxidation. Nanoscale,2014,6,7142-7164.

36. Huang YC,Li HB,Balogun MS,Liu WY,Tong YX,Lu XH*,and Ji HB. * Oxygen Vacancy Induced Bismuth Oxyiodide with Remarkably Increased Visible-light Absorption and Superior Photocatalytic Performance. ACS Appl. Mater. Interfaces,2014,6,22920−22927.

35. Balogun M,Qiu WT,Wang W.,Fang P. P.,Lu XH*,and Tong YX.* Recent Advances in Metal Nitrides as High-Performance Electrode Materials for Energy Storage Devices. J. Mater. Chem. A 2015,3,1364–1387.

34. Balogun MS,Yu MH,Li C,Zhai T,Liu Y,Lu XH*,and Tong XY.* Facile Synthesis of Titanium Nitride Nanowires on Carbon Fabric for Flexible and High-Rate Lithium Ion Batteries. J. Mater. Chem. A 2014,2,10825–10829.

33. Li ZY,Liu ZL,Liang JC,Xu CX,* and Lu XH*. Facile synthesis of Pd-Mn3O4/C as High-Efficient Electrocatalyst for Oxygen Evolution Reaction. J. Mater. Chem. A 2014,2,18236 – 18240.

32. Liang CL,Zhai T,Wang W,Chen J,Zhao WX,Lu XH,* and Tong YX.* Fe3O4/reduced graphene oxide with enhanced electrochemical performances towards lithium storage. J. Mater. Chem. A 2014,2,7214-7220.

31. Liu Y,Xie SL,Liu CJ,Li JL,Lu XH*,and Tong YX.* Facile synthesis of Tungsten Oxide Nanostructures for Efficient Photoelectrochemical Water Oxidation,J. Power Sources,2014,269,98–103.

30. Balogun M-S,Li C,Zeng YX,Yu MH,Wu QL,Wu MM,Lu XH*,and Tong YX*. Titanium Dioxide@Titanium Nitride Nanowires on Carbon Cloth with Remarkable Rate Capability for Flexible Lithium-Ion Batteries. J. Power Sources,2014,272,946–953.

29. Zhang ZS,* Wang W,Li C,Wei L,Chen XJ,Tong YX,Mai KC,and Lu XH*. Highly conductive ethyleneevinyl acetate copolymer/carbon nanotube paper for lightweight and flexible supercapacitors. J. Power Sources,2014,248,1248-1255.

28. Zeng CH,Xie SL,Yu MH,Yang YY,Lu XH*,and Tong YX.* Facile synthesis of large-area CeO2/ZnO nanotube arrays for enhanced photocatalytic hydrogen evolution,J. Power Sources,2014,247,545-550.

27. Feng KJ,Li W,Xie SL,and Lu XH*. Nickel Hydroxide Decorated Hydrogenated Zinc Oxide Nanorod Arrays with Enhanced Photoelectrochemical Performance,Electrochim. Acta,2014,137,108–113.

26. Xie SL,Zhai T,Zhu YJ,Li W,Qiu RL,Tong YX,* and Lu XH*. NiO Decorated Mo:BiVO4 Photoanode with Enhanced Visible-Light Photoelectrochemical Activity. Int. J. Hydrogen Energy,2014,39(10),4820–4827.

25. Li C,Hu Y,Yu MH,Zhao WX,Liu P,* Tong YX,and Lu XH*. Nitrogen Doped Graphene Paper as Highly Conductive,and Light-weight Substrate for Flexible Supercapacitors. RSC Adv. 2014,4,51878–51883.

24. Zhang C,Zhang XY,Wang YC,Xie SL,Liu Yi,Lu XH*,and Tong YX. Facile Electrochemical Synthesis of CeO2 Hierarchical Nanorods and Nanowires with Excellent Photocatalytic Activities. New J. Chem.,2014,38(6),2581 – 2586.

2013年

23. Lu XH,Yu MH,Wang GM,Zhai T,Xie SL,Ling YC,Tong YX*,and Li Y*. H-TiO2@MnO2//H-TiO2@C Core-Shell Nanowires for High Performance and Asymmetric Supercapacitors. Adv. Mater.,2013,25,267-272.(ESI -Highly Cited Papers)

22. Lu XH,Yu MH,Zhai T,Wang GM,Xie SL,Liu TY,Liang CL,Tong YX*,and Li Y*. High Energy Density Asymmetric Quasi-Solid-State Supercapacitor with Porous Vanadium Nitride Nanowire Anode. Nano Lett.,2013,13,2628–2633.(ESI -Highly Cited Papers)

21. Xie SL,Zhai T,Li W,Yu MH,Liang CL,Gan JY,Lu XH*,and Yexiang Tong*. Hydrogen production from solar driven glucose oxidation over Ni(OH)2 functionalized electroreduced-TiO2 nanowire arrays. Green Chem.,2013,15,2434-2440.

20. Zhai T,Wang FX,Yu MH,Xie SL,Liang CL,Li C,Xiao FM,Tang RH,Wu QX,Lu XH*,and Tong YX.* 3D MnO2/Graphene composites with large areal capacitance for high performance asymmetric supercapacitors. Nanoscale,2013,5,6790-6796.(ESI -Highly Cited Papers)

19. Yu MH,Zhai T,Lu XH*,Chen XJ,Xie SL,Li W,Liang CL,Zhao WX,Zhang LP,and Tong YX*,Manganese dioxide nanorod arrays on carbon fabric for flexible solid-state supercapacitors,J. Power Source,2013,239,64-71.(ESI -Highly Cited Papers)

18. Zheng HM,Zhai T,Yu MH,Xie SL,Liang CL,Zhao WX,Zhang ZS*,and Lu XH*. TiO2@C core-shell nanowires for high-performance and flexible solid-state supercapacitors. J. Mater. Chem. C,2013,1,225-229. ESI -Highly Cited Papers(2013 Most Accessed Manuscripts for J. Mater. Chem. C)

17. Li W‡,Xie SLǂ,Li MY,Ouyang XW,Cui GF,Lu XH*,and Tong YX*. CdS/CeOx heterostructured nanowires for photocatalytic hydrogen production. J. Mater. Chem. A 2013,1,4190 – 4193.

16. Ouyang XW,* Li W,Xie SL,Zhai T,Yu MH,Gan JY,and Lu XH*. Hierarchical CeO2 nanospheres as a high-efficient adsorbent for dyes removal,New J. Chem.,2013,37(3),585-588.

2008-2012年

15. Lu XH,Zhai T,Zhang,XH,Shen,YQ,Yuan LY,Hu B,Gong L,Chen J,Zhou J,* Tong YX,* Wang ZL.* WO3–x@Au@MnO2 Core–Shell Nanowires on Carbon Fabric for High-Performance Flexible Supercapacitors. Adv. Mater.,2012,24,938–944.(ESI -Highly Cited Papers)

14. Lu XH,Wang GM,Zhai T,Yu MH,Gan JY,Tong YX*,and Li Y*. Hydrogenated TiO2 Nanotube Arrays for Supercapacitors. Nano Lett. 2012. 12(3),1690–1696.(ESI -Highly Cited Papers)

13. Lu XH,Wang GM,Zhai T,Yu MH,Xie SL,Ling YC,Liang CL,Tong YX*,and Li Y*. Stabilized TiN nanowire arrays for high-performance and flexible supercapacitors. Nano Lett. 2012,12(10),5376–5381.(ESI -Highly Cited Papers)

12. Yuan LY†,Lu XH†,Xu Xiao,Zhai T,Dai JJ,Zhang FC,Hu B,Wang X,Gong L,Chen J,Hu CG,Tong YX,Zhou J,* and Wang ZL.* Flexible Solid-State Supercapacitors Based on Carbon Nanoparticles-MnO2 Nanorods Hybrid Structure. ACS Nano,2012,6(1),656-661. Co first author(Highlighted by Chemical & Engineering News)(ESI -Highly Cited Papers)

11. Lu XH,Wang GM,Xie SL,Shi JY,Li W,Tong YX,* Li Y.* Efficient Photocatalytic Hydrogen Evolution over Hydrogenated ZnO Nanorod Arrays. Chem. Comm.,2012,48,7717–7719.

10. Lu XH,Huang X,Xie SL,Zhai T,Wang CS,Zhang P,Yu MH,Li W,Liang CL,Tong YX.* Controllable Synthesis of Porous Nickel-Cobalt Oxide Nanosheets for Supercapacitors. J. Mater. Chem.,2012,22(26),13357 – 13364.

9. Lu XH,Zheng DZ,Zhai T,Liu ZQ,Huang YY,Xie SL,Tong YX*. Facile Synthesis of Large-area Manganese Oxide Nanorod Arrays as High-Performance Electrochemical Supercapacitor,Energy Environ. Sci.,2011,4,2915 – 2921.(ESI -Highly Cited Papers)

8. Lu XH,Zhai T,Cui HN,Shi JY,* Xie SL,Huang YY,Liang CL,and Tong YX.* Redox Cycles Promoting Photocatalytic Hydrogen Evolution of CeO2 Nanorods,J. Mater. Chem.,2011,21,5569-5572.

7. Lu XH,Zheng DZ,Xu M,Xie SL,Liu ZQ,Liang CL,Liu P,* Tong YX.* General Electrochemical Assembling to Porous Nanowires with High Adaptability in Water Treatment. CrystEngComm,2011,13,2451–2456.

6. Lu XH,Xie SL,Zhai T,Zhao YF,Zhang P,Zhang YL,Tong YX.* Monodisperse CeO2/CdS Heterostructured Spheres: One-pot Synthesis and Enhanced Photocatalytic Hydrogen Activity,RSC Adv.,2011,1,1207–1210.

5. Lu XH,Zheng DZ,Zhang P,Liu P,Tong YX.* Facile synthesis of free-standing CeO2 nanorods for photoelectrochemical applications. Chem. Commun.,2010,46,7721–7723.

4. Lu XH,Zheng DZ,Gan JY,Liu ZQ,Liang CL,Liu P,* Tong YX.* Porous CeO2 nanowires/nanowire arrays: electrochemical synthesis and application in water treatment,J. Mater. Chem.,2010,20,7118–7122.

3. Lu XH Huang X,Xie SL,Zheng DZ,Liu ZQ,Liang CL,Tong YX.* Facile electrochemical synthesis of single crystalline CeO2 octahedrons and their optical properties,Langmuir,2010,26,7569–7573.

2. Lu XH,Dong Wang,Li GR,Su CY,Dai-Bin Kuang,*¬ Tong YX.* Controllable electrochemical synthesis of hierarchical ZnO nanostructures on FTO glass,J. Phys. Chem. C,2009,113,13574–13582.

1. Lu XH,Li GR,* Zhao WX,Tong YX.* A simple electrochemical deposition route for the controllable growth of Ce4+-doped ZnO nanorods,Electrochimica Acta,2008,53,5180-5185.

專利

1. 盧錫洪;王往;曾銀香;於明浩;童葉翔. 一種大面積製備石墨烯化碳紙的方法及其製備的石墨烯化碳紙. ZL201410470758.1。

2. 盧錫洪;於明浩;童葉翔;方萍萍. 一種石墨烯紙及其製備方法和應用. ZL201310743046.8。

3. 盧錫洪;於明浩;童葉翔. 一種MoS2/TiO2納米複合材料及其製備方法. ZL201310324535.X

4. 翟騰;盧錫洪;童葉翔;吳其修;唐仁衡;肖方明. 一種氧化鋅納米盤/石墨烯複合材料及其製備方法. ZL201310259347.3。

5. 王成勝;盧錫洪;李偉;李明陽;劉鵬;童葉翔. 一種具有一級磁相變的六元高熵合金及其製備方法. ZL201310059655.1。

6. 盧錫洪,於明浩,童葉翔,陳曉軍,雷秋芬,戶獻雷,郭守彬。一種通過無機TiO2納米粒子摻雜改性的丙烯腈-甲基丙烯酸甲酯共聚型凝膠電解質的製備方法,中國發明專利,CN105938916A.

7. 盧錫洪,曾銀香,於明浩,張熙悅,韓奕,王成勝,童葉翔。一種長壽命、可充放的Zn-MnO2電池及其應用 ZL201610871177.8

8. 盧錫洪,曾銀香,張一風,張昊喆,孟玥。一種多面體三氧化二鐵納米材料的製備方法. CN201610994713.3

9. 盧錫洪,劉思,黃雅蘭,鄭海兵,韓奕,程發良,童葉翔。一種二硫化鎢片狀納米材料的製備方法。CN201710120600.5

10. 盧錫洪,鄭海兵,馮浩檳,曾銀香,張敏,程發良,童葉翔。一種納米級單質鉍的製備方法。CN201710074171.1 2017年2月10日

11. 盧錫洪、張熙悅、曾銀香、鄭海兵、於明浩、王成勝、程發良、童葉翔。一種超細金屬氧化物石墨烯二維負極複合材料的製備方法。CN201710112679.7

12. 盧錫洪,曾銀香,林子琦,於明浩,童葉翔。一種多孔鉍-碳複合材料的製備方法。CN201710197589.2

13. 盧錫洪,馮浩檳,鄭海兵,黃雅蘭,邱永福,程發良,童葉翔。一種柔性鈷酸鋅納米線材料的製備方法。CN201710146400.7

14. 盧錫洪,周麗君,盧永狀,徐維,潘麗君。一種水汽氧化硫化鎳儲能電極材料的簡易方法。CN201810737245.0

15. 盧錫洪,朱琳,於明浩,曾銀香,童葉翔。一種自發電、長壽命的Zn-CoNC鋅空電池及其應用。2018110152615

16. 盧錫洪、盧永狀、周麗君、徐維。一種納米級複合電極材料的製備方法。中國發明專利,CN201810958828.6,

17. 盧錫洪、盧永狀、周麗君、徐維。一種納米級短棒狀多孔四氧化三鈷電極材料的製備方法。中國發明專利,CN201810988633.6

參考來源

  1. 盧錫洪 ,中山大學網
  2. 盧錫洪 ,中山大學師資導師網