鄭海榮

08/1999 ~ 05/2003博士(凝聚態物理) Department ofPhysics & Astronomy,The UniversityofGeorgia, Athens,Georgia, USA.

08/1997 ~ 08/1999碩士(凝聚態物理) Department of Physics,Universityof Puerto Rico, Mayaguez, Puerto Rico.

09/1987 ~ 06/1990碩士(光學)，陝西師範大學物理系，中國科學院物理研究所.

09/1980 ~ 07/1984學士(物理學)，陝西師範大學物理系.

08/2012 ~ 至今 研究生院院長(兼黨委研工部部長), 陝西師範大學

06/2005 ~ 至今教授、博士生導師. 陝西師範大學物理學與信息技術學院

08/2004 ~ 06/2005助理教授(Assistant Professor), Department of Physics, Georgia Southern University,Statesboro, Georgia, USA

06/2003 ~ 08/2004博士後, Department of Physics & Astronomy,TheUniversity ofGeorgiaAthens,Georgia,USA

12/2002 ~ 06/2003 博士後, Department of Physics,ClemsonUniversity,Clemson,South Carolina,USA

08/2001 ~ 01/2003助教(Teaching Assistant),Department of Physics & Astronomy, The University of Georgia, Athens, Georgia, USA

08/1999 ~ 07/2001研究助理(Research Assistant),Department of Physics & Astronomy,The University of Georgia, Athens, Georgia, USA

08/1984 ~07/1997助教、講師、副教授, 陝西師範大學物理系.

亞洲光譜學會議國際指導委員會委員，《光散射學報》副主編, 《發光學報》編委,中國物理學會發光分會委員,中國物理學會光散射專業委員會委員, 等離激元光子學國際委員會委員，第一屆等離激元光子學會議國際委員會主席團成員，陝西師範大學物理學與信息技術學院光學及光學工程專業學科負責人、現代光學研究所所長.

陝西省光學學會副理事長，全國教育專業學位研究生教育指導委員會委員，西安市雁塔區人大代表，陝西省歸僑僑眷第七屆委員會常務委員。

激光光譜學，激發態動力學，納米材料及凝聚態物質的光學性質，表面增強光譜學，表面等離激元光子學。

國家自然科學基金項目，教育部科學技術研究重點項目，教育部留學回國人員科研項目，陝西省科技計劃項目， 陝西師範大學中央高校基本科研業務費資助重點項目。《近代物理》陝西省高等學校教學團隊，《量子力學》國家雙語教學示範課程。

《激光光譜學原理與技術》,《現代光學實驗》，《高等量子力學》,《量子力學》,《原子物理學》,《科技英語》，《University Physics 》,《Physics Lab》.

陝西師範大學年度教學標兵，2012-2013

陝西師範大學教學質量優秀獎、教書育人先進個人

陝西省優秀留學回國人員，2009

陝西省高等學校優秀共產黨員，2009

陝西高校巾幗建功標兵，2010

寶鋼優秀教師獎, 2010

明德優秀教師獎, 2014

陝西省高等教育教學成果二等獎, 2013

陝西省教育廳科學技術成果一等獎, 2014

[1]Higher Order Fano Resonances and Electric Field Enhancements in Disk-Ring PlasmonicNanostructures

with DoubleSymmetry Breaking, Plasmonics, DOI 10.1007/s11468-014-9761-9

[2] Molecular Resonant Dissociation of Surface-Adsorbed Molecules by PlasmonicNanoscissors,

Nanoscale, 6, (9) (2014)

[3]High-Vacuum tip enhanced Raman spectroscopy, Front. Phys. 8, 1(17-24) 2014. [Cover]

[4]Enhanced red upconversion luminescence by codoping Ce3+ in β-NaY(Gd0.4)F4:

Yb3+/Ho3+ nanocrystals, Journal of Materials Chemistry C, 2(5327-5334) (2014).

[5] Unusual Upconversion Emission from Single NaYF4: Yb3+/Ho3+ Microrod with

NIR Excitation,Cryst Eng Comm, 16(6697-6706)( 2014).

[6]Facile fabrication and upconversion luminescence enhancement of LaF3:Yb3+/Ln3+(Ln= Er, Tm)

nanostructures decorated with Ag nanoparticles@SiO2. Nanotechnology. 25 (045603)(2014) .

[7] Enhancem-ent and regulation of fluorescence emission from NaYF4:Yb3+, Er3+ nanocrystalsby

codoping Mn2+ J. Nanosci. Nanotech, 16(4139-44146)(2014)

[8]Pr3+/Yb3+ Co-Doped β-Phase NaYF4 Microprisms: Controlled Synthesis and Upconversion

Luminescence,J. Nanosci. Nanotech. 14, 6(4308-4312)(2014).

[9]Plasmon resonances and strong electric field enhancements in side-by-side tangent nanospheroid

homodimers,Opt.Express, 21, (14) (17176-17185)(2013).

[10]Investigation ofupconversionand downconversion fluorescence emissions from

b-NaLn1F4:Yb3+,Ln23+ (Ln1 =Y, Lu; Ln2 = Er, Ho,Tm, Eu) hexagonal disk

system. Materials Research Bulletin,48(3505–3512) (2013).

[11]Surface enhances fluorescence and raman scattering by gold nanoparticle dimmers and trimers,

Journal of Applied Physics, 113, 3(033102 -033102-5)(2013).

[12]In-situ plasmon-driven chemical reactions revealed by high vacuum tip-enhanced Raman

spectroscopy,Scientific Report, 2 (647) (2012).

[13]Fabrication of flower-like silver nanostructure on the Al substrate for surface enhanced

fluorescence.Appl. Phys. Lett. 100, 051112(1-3) (2012).

[14]Tip-Enhanced Ultrasens itive Stokes and Anti-Stok es Raman: Spectroscopy in High Vacuum.

Plasmonics. 2012, DOI: 10.1007/s11468-012-9426-5

[15]Fabrication of flower-like silver nanostructure on the Al substrate for surface enhanced

fluorescence,APPLIED PHYSICS LETTERS,100, 051112 (2012)

[16] Surface enhanced fluorescence on three dimensional silver nanostructure substrate,

JOURNAL OF APPLIED PHYSICS , 111, 093101 (2012)

[17] Spectroscopic study of Eu3+doped LaF3 nanoparticles prepared with different PH values,

Journal of Nanoscience and Nanotechnology,11,9808-9812(2011).

[18] Luminescence enhancement and quenching by codopant ions in lanthanide doped

fluoride nanocrystals, Nanotechnology, 22 (2011) 175702

[19] Fluorescence enhancement of Ln3+ doped nanoparticles,

Journal of Luminescence ,131 (2011) 423–428.

[20] Efficient fluorescence emission and photon conversion of LaOF:Eu3+

nanocrystals,APPLIED PHYSICS LETTERS, 98, 011907, 2011. ^[1]