§ 著作:
序号 |
书名 |
作者 |
出版社 |
出版时间 |
ISBN |
1 |
“十三五”国家重点出版物出版规划项目、国之重器出版工程:可见光通信关键技术系列的《可见光通信光源与探测器件原理及应用》 |
张树宇、汪莱、张建立、田朋飞 |
人民邮电出版社 |
2020年12月 |
9787115549945 |
2 |
上海高校服务国家重大战略出版工程:《光源原理与设计(第三版)》 |
郭睿倩主编,复旦大学电光源研究所(光源与照明工程系)、国家半导体照明工程研发及产业联盟编著,编著人员(以姓氏笔画为序):牛萍娟、田朋飞、区琼荣、陈育明、邹念育、张树宇(负责第五章内容)、沈海平、余彬海、周详、林燕丹、郭睿倩、崔旭高 |
复旦大学出版社 |
2017年12月 |
978-7-309-13239-7/T.610 |
§ 学术论文:
序号 |
名称 |
作者 |
发表刊物 |
备注 |
1 |
A Nanoimprinted Artificial Engram Device |
X. Li, P. Zeng, F. Wang, D. Zhang, Y. Zhou, R. Liang, Q. Ou, X. Wu, and S. Zhang* |
Nanoscale Horizons, 2021, Advance Article |
选为Outside Front Cover |
2 |
Edge-Emitting Silicon Nanocrystal Distributed Feedback Laser with Extremely Low Exciton Threshold |
P. Zeng#, F. Wang#, Y. Zhang, W. Zhou, Z. Guo, X. Wu, M. Lu*, and S. Zhang* |
ACS Photonics, 2021, 8(5): 1353-1363 |
选为Outside Front Cover |
3 |
Fabrication of Perovskite Film-Coated Hollow Capillary Fibers Using a Fast Solvent Exchange Method |
X. Li, P. Zeng, O. Ou, and S. Zhang* |
Nanomaterials, 2021, 11(6): 1483 |
|
4 |
Tuning plasmonic nanostructures in graphene-based nano-sandwiches using ultraviolet/ozone functionalization |
D. Zhang, Y. Du, C. Yang, P. Zeng, Y. Yu, Y. Xie, R. Liang, Q. Ou*, S. Zhang* |
Journal of Materials Science, 2021, 56: 1359–1372 |
|
5 |
等离子体对石墨烯的功能化改性 |
赵雯琪#,张岱#,崔明慧#,杜颖,张树宇*,区琼荣* |
物理学报, 2021, 70(9): 095208 |
邀请综述和优秀论文 |
6 |
Highly Efficient Blue‐Emitting CsPbBr3 Perovskite Nanocrystals through Neodymium Doping |
Y. Xie#, B. Peng#, I. Bravić, Y. Yu, Y. Dong, R. Liang, Q. Ou, B. Monserrat*, S. Zhang* |
Advanced Science, 2020, 7: 2001698 |
选为Inside Front Cover |
7 |
Nanoimprinted organic distributed feedback biosensors breaking the trade-off between sensitivity and threshold |
P. Zeng, Y. Zhou, B. Wang, X. Li, Q. Ou, X. Wu*, S. Zhang* |
Organic Electronics, 2020, 85: 105851 |
|
8 |
Plasma-synthesized octahedral PtPd alloy/reduced graphene oxide nanocomposites with boosted electrocatalytic activity for methanol oxidation |
C. Yang, D. Zhang, W. Zhao, M. Cui, R. Liang, Q. Ou*, S. Zhang* |
Journal of Alloys and Compounds, 2020, 835: 155334 |
|
9 |
Monodisperse Hollow MnO2 with Biodegradability for Efficient Targeted Drug Delivery |
M. Cheng#, Y. Yu#, W. Huang, M. Fang, Y. Chen, C. Wang, W. Cai*, S. Zhang, W. Wang*, and W. Yan* |
ACS Biomaterials Science and Engineering, 2020, 6(9): 4985–4992 |
|
10 |
Trivalent‐Neodymium Additive Modulated MAPbBr3 Perovskite Nucleation and Growth: Ultrawide Processing Window for One‐Step Fabrication of Efficient Light‐Emitting Perovskites |
Y. Dong, P. Zeng, Y. Yu, Y. Xie, B. Yang, R. Liang, Q. Ou, S. Zhang* |
Advanced Electronic Materials, 2020, 6: 1901162 |
选为Inside Back Cover |
11 |
All-inorganic silicon white light-emitting device with an external quantum efficiency of 1.0% |
C. Zhang, B. Yang, J. Chen, D. Wang, Y. Zhang, S. Li, X. Dai, S. Zhang*, and M. Lu* |
Optics Express, 2020, 28: 194-204 |
Laser Focus World专栏报道 |
12 |
Emission Characteristics of All-Silicon Distributed Feedback Lasers With a Wide Gain Range |
C. Zhang, P. Zeng, W. Zhou, Y. Zhang, X. He, Q. Jin, D. Wang, H. Wang, S. Zhang*, M. Lu*, X. Wu* |
IEEE Journal of Selected Topics in Quantum Electronics, 2020, 26(2): 1500107 |
|
13 |
Symmetric guided-mode resonance sensors in aqueous media with ultrahigh figure of merit |
Y. Zhou, X. Li, S. Li, Z. Guo, P. Zeng, J. He, D. Wang, R. Zhang, M. Lu, S. Zhang*, and X. Wu* |
Optics Express, 2019, 27(24): 34788-34802 |
|
14 |
Morphology-Tailored Gold Nanoraspberries Based on Seed-Mediated Space-Confined Self-Assembly |
Y. Yu, Y. Xie, P. Zeng, D. Zhang, R. Liang, W. Wang,* Q. Ou,* and S. Zhang,* |
Nanomaterials, 2019, 9(9): 1202 |
|
15 |
Gold-Nanorod-Coated Capillaries for the SERS-Based Detection of Thiram |
Y. Yu, P. Zeng, C. Yang, J. Gong, R. Liang, Q. Ou*, S. Zhang* |
ACS Applied Nano Materials, 2019, 2(1): 598-606 |
|
16 |
Monothiatruxene‐Based, Solution‐Processed Green, Sky‐Blue, and Deep‐Blue Organic Light‐Emitting Diodes with Efficiencies Beyond 5% Limit |
M. Maciejczyk#*, S. Zhang#, G. J. Hedley, N. Robertson*, I. D. W. Samuel*, M. Pietraszkiewicz |
Advanced Functional Materials, 2019, 29(6): 1807572 |
|
17 |
One-step synthesis of size-tunable gold nanoparticles/reduced graphene oxide nanocomposites using argon plasma and their applications in sensing and catalysis |
C. Yang, Y. Yu, Y. Xie, D. Zhang, P. Zeng, Y. Dong, B. Yang, R. Liang, Q. Ou*, S. Zhang* |
Applied Surface Science, 2019, 473: 83-90 |
|
18 |
Fast room-temperature reduction of graphene oxide by methane/argon plasma for flexible electronics |
C. Yang, J. Gong, P. Zeng, X. Yang, R. Liang, Q. Ou*, S. Zhang* |
Applied Surface Science, 2018, 452: 481-486 |
|
19 |
Enhancing Communication Bandwidths of Organic Color Converters Using Nanopatterned Hyperbolic Metamaterials |
X. Yang, M. Shi, Y. Yu, Y. Xie, R. Liang, Q. Ou*, N. Chi*, S. Zhang* |
Journal of Lightwave Technology, 2018, 36 (10): 1862-1867 |
|
20 |
Encapsulated room-temperature synthesized CsPbX3 perovskite quantum dots with high stability and wide color gamut for display |
Y. Xie, Y. Yu, J. Gong, C. Yang, P. Zeng, Y. Dong, B. Yang, R. Liang, Q. Ou*, S. Zhang* |
Optical Materials Express, 2018, 8 (11): 3494-3505 |
|
21 |
An all-silicon laser based on silicon nanocrystals with high optical gains |
D. Wang, C. Zhang, P. Zeng, W. Zhou, L. Ma, H. Wang, Z. Zhou, F. Hu, S. Zhang*, M. Lu*, X. Wu* |
Science Bulletin, 2018, 63 (2): 75-77 |
获国内外30余家科研机构和专业媒体报道 |
22 |
Nanopatterned luminescent concentrators for visible light communications |
Y. Dong, M. Shi, X. Yang, P. Zeng, J. Gong, S. Zheng, M. Zhang, R. Liang, Q. Ou*, N.Chi*, S. Zhang* |
Optics Express, 2017, 25 (18): 21926-21934 |
|
23 |
All-inorganic perovskite-based distributed feedback resonator |
J. Gong, Y. Wang, S. Liu, P. Zeng, X. Yang, R. Liang, Q. Ou*, X. Wu*, S. Zhang* |
Optics Express, 2017, 25 (24): A1154-A1161 |
|
24 |
Ultra-thin Optical Sheets for Parallel Data Transmission of Visible Light Communications |
X. Yang, R. Liang, Q. Ou*, S. Zhang* |
IEEE Access, 2017, 5: 25923-25926 |
|
25 |
Highly luminescent colloidal CdS quantum dots with efficient near-infrared electroluminescence in light-emitting diodes |
A.K. Bansal, F. Antolini, S. Zhang, L. Stroea, L. Ortolani, M. Lanzi, E. Serra, S. Allard, U. Scherf, I.D.W. Samuel* |
Journal of Physical Chemistry C, 2016, 120(3): 1871-1880 |
|
26 |
Measuring and structuring the spatial coherence length of organic light-emitting diodes |
G. Xie, M. Chen, M. Mazilu, S. Zhang, A.K. Bansal, K. Dholakia, I.D.W. Samuel* |
Laser and Photonics Reviews, 2016, 10(1): 82-90 |
|
27 |
Solvent immersion nanoimprint lithography of fluorescent conjugated polymers |
G.L. Whitworth, S. Zhang, J.R.Y. Stevenson, B. Ebenhoch, I.D.W. Samuel, G.A. Turnbull |
Applied Physics Letters, 2015, 107(16): 163301 |
|
28 |
Calculation of the emission power distribution of microstructured OLEDs using the reciprocity theorem |
S. Zhang, E.R. Martins, A.G. Diyaf, J.I.B. Wilson, G.A. Turnbull*, I.D.W. Samuel* |
Synthetic Metals, 2015, 205: 127-133 |
|
29 |
Organic solar cells as high-speed data detectors for visible light communication |
S. Zhang, D. Tsonev, S. Videv, S. Ghosh, G. A. Turnbull*, I. D. W. Samuel*, H. Haas* |
Optica, 2015, 2(7): 607-610 |
|
30 |
Highly directional emission from a broadband organic light-emitting diode using a substrate diffractive optical element for visible light communications |
S. Zhang, G.A. Turnbull, I.D.W. Samuel* |
Nonlinear Optics Quantum Optics, 2015, 46(2-4): 273-282 |
|
31 |
Highly directional emission and beam steering from organic light-emitting diodes with a substrate diffractive optical element |
S. Zhang, G.A. Turnbull*, I.D.W. Samuel* |
Advanced Optical Materials, 2014, 2(4): 343-347 |
获MRS Bulletin专栏报道 |
32 |
Highly photo- and electroluminescent 1,3-diketonate Eu(III) complexes with spiro-fluorene-xantphos dioxide ligands: Synthesis and properties |
M. Pietraszkiewicz*, M. MacIejczyk, I.D.W. Samuel*, S. Zhang |
Journal of Materials Chemistry C, 2013, 1(48): 8028-8032 |
|
33 |
Enhancing the emission directionality of organic light-emitting diodes by using photonic microstructures |
S. Zhang, G.A. Turnbull*, I.D.W. Samuel* |
Applied Physics Letters, 2013, 103(21): 213302 |
Editor’s Picks |
34 |
High power efficiency phosphorescent poly(dendrimer) OLEDs |
J.W. Levell, S. Zhang, W. Lai, S. Lo, P.L. Burn*, I.D.W. Samuel* |
Optics Express, 2012, 20(102): A213-A218 |
|
35 |
Highly efficient solution-processable europium-complex based organic light-emitting diodes |
S. Zhang, G.A. Turnbull, I.D.W. Samuel* |
Organic Electronics, 2012, 13(12): 3091-3096 |
§ 授权专利:
序号 |
专利类型 |
专利名称 |
发明人 |
专利授权国别 |
专利授权号 |
专利授权时间 |
1 |
发明专利 |
传感芯片及其制备方法、检测系统、检测方法 |
周一; 吴翔; 张树宇; 费义艳; 陈晨 |
中国 |
ZL 2018 1 1639340.3 |
2021-1-29 |
2 |
发明专利 |
单片集成硅光芯片的分布式反馈激光器及其制备方法 |
张驰; 张树宇; 陆明; 吴翔 |
中国 |
ZL 2019 1 1083475.0 |
2021-2-26 |
3 |
发明专利 |
全硅分布式反馈激光器 |
王东辰; 张驰; 陆明; 吴翔; 张树宇 |
中国 |
ZL 2017 1 0647867.X |
2019-10-15 |
4 |
实用新型专利 |
一种基于移动智能终端的健康检测仪 |
张树宇; 张海钒; 崔懿 |
中国 |
ZL 2018 2 1803958.4 |
2019-11-12 |
§ 学术会议组织:
序号 |
会议名称 |
时间、地点 |
贡献 |
1 |
Progress In Electromagnetics Research Symposium (PIERS) 2019 |
2019中国厦门 |
程序委员会成员、分会共主席 |
2 |
Progress In Electromagnetics Research Symposium (PIERS) 2018 |
2018 日本富山 |
程序委员会成员、分会共主席 |
3 |
Asia Communications and Photonics Conference (ACP) 2018 VLC Workshop |
2018 中国杭州 |
程序委员会成员、Workshop共主席 |
4 |
复旦大学电光源研究所成立四十周年庆典暨先进照明技术与应用研讨会 |
2018 中国上海 |
程序委员会成员 |
5 |
第六届全国大气压等离子体及应用研讨会技术委员会 |
2017 中国上海 |
程序委员会成员 |
§ 学术会议邀请报告:
序号 |
会议名称 |
时间、地点 |
贡献 |
1 |
第一届光学前沿高峰论坛暨2020年度中国光学十大进展颁奖典礼 |
2021 中国富阳 |
邀请报告人 |
2 |
Asia Communications and Photonics Conference (ACP) 2018 VLC Workshop |
2018 中国杭州 |
邀请报告人 |
3 |
Progress In Electromagnetics Research Symposium (PIERS) 2018 |
2018 日本富山 |
邀请报告人 |
4 |
第二届光信息与光网络大会(GoInc 2018) |
2018 中国北京 |
邀请报告人 |
5 |
IEEE/CIC International Conference on Communications in China (Workshop on VLC) |
2017 中国青岛 |
邀请报告人 |
6 |
International Conference for Leading and Young Materials Scientists (IC-LYMS 2016) |
2016 中国三亚 |
邀请报告人 |