郭睿倩
光源与照明工程系
职称:研究员、博导
职务:信息学院学术委员会委员、信息学院教授委员会成员、光源与照明工程系主任、电光源研究所所长
电子邮件:rqguo@fudan.edu.cn
办公地点:江湾校区交叉二号楼b4023
电话:021-65646685,31242589
课题组yabo亚博88主页:
- 量子点发光材料
- 量子点led(qled)照明和显示
- 低维纳米光电材料和器件
- 上海照明学会副理事长
- 上海照明学会国际交流委员会主任
- 上海照明电器协会副会长
- certificate of award for encouragement of research of materials science” issued by mrs-j.
- 1992/09至1996/07 中南大学冶金科学与工程学院 学士
- 1996/09至2001/07 中南大学冶金科学与工程学院 硕博连读
- 2001/09至2003/07 上海交通大学材料科学与工程学院 博士后
- 2003/07至2005/04 复旦大学讲师
- 2005/04至2011/04 复旦大学副研究员、硕导
- 2006/09至2008/09 日本九州大学 日本学术振兴会(jsps)外国人特别研究员
- 2009/08至2011/08 国家自然科学基金委员会信息学部流动项目主任
- 2011/04至今 复旦大学研究员、博导
- 本科生课程:光电显示技术
- 研究生课程:纳米光电薄膜
- 博士生专业英语
[1] s. mei, j. zhu, w. yang, r. guo*, tunable emission and morphology control of the cu-in-s/zns quantum dots with dual stabilizer via microwave-assisted aqueous synthesis, journal of alloys and compounds, 729c (2017) pp. 1-8.
[2] j. zhu, s. mei, w. yang, g. zhang, q. chen, w. zhang, r. guo*, tunable emission of cu (mn)-doped znins quantum dots via dopant interaction, j colloid interfsci, 506 (2017) 27-35.
[3] w. yang, g. he, s. mei, j. zhu, w. zhang, q. chen, g. zhang, r. guo*, controllable synthesis of dual emissive ag:inp/zns quantum dots with high fluorescence quantum yield, applied surface science, 423 (2017) 686-694.
[4] w. zhang, w. yang, p. zhong, s. mei, g. zhang, g. chen, g. he, r. guo*, spectral optimization of color temperature tunable white leds based on perovskite quantum dots for ultrahigh color rendition, optical materials express, 7 (2017) 3065.
[5] l. he, s. mei, q. chen, w. zhang, j. zhang, j. zhu, g. chen, r. guo*, two-step synthesis of highly emissive c/zno hybridized quantum dots with a broad visible photoluminescence, applied surface science, 364 (2016) 710-717.
[6] w. yang, p. zhong, s. mei, q. chen, w. zhang, j. zhu, r. guo*, g. he, photometric optimization of color temperature tunable quantum dots converted white leds for excellent color rendition, ieee photonics journal, 8 (2016) 1-11.
[7] j. zhang, q. chen, w. zhang, s. mei, l. he, j. zhu, g. chen, r. guo*, microwave-assisted aqueous synthesis of transition metal ions doped znse/zns core/shell quantum dots with tunable white-light emission, applied surface science, 351 (2015) 655-661.
[8] chen q h, zhang j, chen g p, r.q. guo*, optical control of the spindle-liked znse quantum dots with precursor solvent and mn doping, applied surface science, 284 (2013) 870-876.
[9]vertically aligned growth of zno nanonails by nanoparticle-assisted pulsed-laser ablation deposition,appl. phys. a, 89, 141-144.
[10] density-controlled growth of zno nanowires via nanoparticle-assisted pulsed-laser deposition and their optical properties, jpn. j. appl. phys., 47, 741-745.
[11] electroluminescence from zno-nanowire-based p-gan/n-zno heterojunction light-emitting diodes,applied physics b, 94, 33-38.
[12] aligned growth of zno nanowires and lasing in single zno nanowire optical cavities,appl. phys. b, 90, 539-542.
[13] catalyst-free synthesis of vertically-aligned zno nanowires by nanoparticle-assisted pulsed laser deposition, appl. phys. a, 93, 843-847.
[14] aligned growth of zno nanowires by napld and their optical characterizations,applied surface science, 255, 9671-9675.
[15] substrate effects on zno nanostructure growth via nanoparticle-assisted pulsed-laser deposition,applied surface science, 254, 3100-3104.
