• 2025考研復(fù)試伴學(xué)班
• 2025考研復(fù)試標(biāo)準(zhǔn)班
• 2026考研英語全程班
• 26考研全科上岸規(guī)劃營「擇校▪規(guī)劃▪備考」
• 北京理工大學(xué)2025考研專業(yè)課復(fù)習(xí)資料「真題▪筆記▪講義▪題庫」

姓名：王榮瑤

所在學(xué)科：物理學(xué)院

職稱：教授

聯(lián)系電話：

E-mail：wangry@bit.edu.cn

通信地址：

個(gè)人簡介

1986年北京師范大學(xué)理學(xué)學(xué)士，1989年電子科技大學(xué)理學(xué)碩士，1998年中國科學(xué)院物理研究所理學(xué)博士。

工作經(jīng)歷

1998至2005年期間，先后在日本名古屋大學(xué)、以色列理工大學(xué)、德國海德堡大學(xué)（洪堡學(xué)者）以及新加坡國立大學(xué)從事研究工作。2006年加入北京理工大學(xué)物理學(xué)院，2011年取得博士生導(dǎo)師資格。

科研方向

主要從事軟凝聚態(tài)物理前沿交叉學(xué)科研究。研究光和軟物質(zhì)相互作用新現(xiàn)象和機(jī)理、新型微/納結(jié)構(gòu)軟物質(zhì)功能材料及其在生物傳感上的應(yīng)用。

研究方向

包括：（1）自組裝金屬微/納結(jié)構(gòu)的光學(xué)活性及其在分子手性傳感上的應(yīng)用；（2）軟物質(zhì)納米纖維絲的手性結(jié)構(gòu)及應(yīng)用。

近年來主持和參與的國家自然科學(xué)基金研究項(xiàng)目如下：

1.基于表面等離激元光學(xué)驅(qū)動(dòng)的納米自組裝鏡像對稱破缺新現(xiàn)象和機(jī)理研究(項(xiàng)目負(fù)責(zé)人，2016-2019年）

2.金屬納米微粒的螺旋手性構(gòu)筑及其集合表面等離激元的光學(xué)活性研究(項(xiàng)目負(fù)責(zé)人，2011-2015年）

3.金納米棒/有機(jī)分子線性自組裝結(jié)構(gòu)的構(gòu)建及在生物識(shí)別中的應(yīng)用（主要參與人，2011-2014年)

4.凝膠網(wǎng)絡(luò)構(gòu)筑的超聲調(diào)控及流變性質(zhì)研究，國家自然科學(xué)基金面上項(xiàng)目(項(xiàng)目負(fù)責(zé)人，2009-2012年）

學(xué)術(shù)成就已在Nanoscal, Soft Matter, Crystal Growth & Design，J Phys ChemB/C, Nano Research, PhysChemChem Phys，J Chem Phys等刊物上發(fā)表論文40余篇，論文引用700余次, H指數(shù)為14（數(shù)據(jù)來源Scopus）,國家發(fā)明專利 2項(xiàng)。主要研究成果受到國內(nèi)外同行關(guān)注，被國際頂級學(xué)術(shù)期刊  (如Chem Rev, AngewChemInt Ed, ChemSoc Rev, ACS Nano, JACS 等）的多篇綜述文章點(diǎn)評�，F(xiàn)為Nano Lett, Soft Matter, ACS Photonics, Nanoscale, J Phys Chem Lett, ChemCommun, Anal Chem, PhysChemChem Phys, Sci Rep, Langmuir 等國際學(xué)術(shù)期刊審稿人。

代表性論文：

1.Zhao W. J., Wang R. Y.,* We H, Li J. L., Ji Y. L., Jiang X., Wu X. C., Zhang X. D. Recognition of Chiral Zwitterionic Interactions at Nanoscale Interfaces by ChiroplasmonicNanosensors, Phys. Chem. Chem. Phys. , 2017, 19, 21401-21406

2.Wu T., Zhang W., Wang R. Y., Zhang X., * A giant chiroptical effect caused by the electric quadrupole, Nanoscale , 2017, 9, 5110-5118.

3.Zhang W., Wu T., Wang R. Y., Zhang X., * Amplification of the molecular chiroptical effect by low-loss dielectric nanoantennas, Nanoscale , 2017,9, 5701-5707.

4.Zhang W., Wu T., Wang R. Y., Zhang X., * Surface-Enhanced Circular Dichroism of Oriented Chiral Molecules by Plasmonic Nanostructures, J. Phys. Chem. C , 2017, 121, 666−675.

5.Wu T., Zhang X., Wang R. Y., Zhang X., * Strongly Enhanced Raman Optical Activity in Molecules by Magnetic Response of Nanoparticles, J. Phys. Chem. C , 2016, 120, 14795−14804.

6.閆昭，趙文靜，王榮瑤*，基于Logistic函數(shù)模型的納米自組裝動(dòng)力學(xué)分析， Acta Phys. Sin . 2016，65，12，126101

7.Zhai D., Wang P., WangR. Y., * Tian X., Ji Y., Zhao W., Wang L., Wei H., Wu X., Zhang, X.PlasmonicPolymers with Strong Chiroptical Response for Sensing Molecular Chirality , Nanoscale , 2015, 7, 10690-10698

8.Liu Y., Zhao, W., Ji, Y., Wang R.Y., Wu X., ZhangX. D., *Strong superchiral field in hot spots and its interaction with chiral molecules， Europhys. Lett. , 2015,110, 17008

9.Wu T., Wang R. Y., Zhang X., * Plasmon-induced strong interaction between chiral molecules and orbital angular momentum of light, Sci. Rep. , 2015, 5, 18003.

10.Wang R. Y.,* Wang P., Liu Y., Zhao W., Zhai D., Hong X., Ji Y., Wu X., Wang F., Zhang D., Zhang W., Liu R., Zhang X.,* Experimental Observation of Giant Chiroptical Amplification of Small Chiral Molecules by Gold Nanosphere Clusters, J. Phys. Chem. C. , 2014, 118, 18, 9690-9695.

11.Hou S., Wen T., Zhang H., Liu W., Hu X., Wang R. Y., * Hu Z., * Wu X.* Fabrication of chiral plasmonic oligomers using cysteine-modified gold nanorods as monomers， Nano Research , 2014, 7,1699-1705.

12.Liu Y.,Wang R. Y., Zhang X.* Giant circular dichroism enhancement and chiroptical illusion in hybrid molecule-plasmonic nanostructures， Opt. Express , 2014, 22，4，4357-4370.

13.Wu T.，Ren J., Wang R. Y., Zhang X.* Competition of Chiroptical Effect Caused by Nanostructure and Chiral Molecules, J. Phys. Chem. C. 2014, 118, 35, 20529–20537.

14.Wang P., Chen L. Wang R. Y., * Ji Y., Zhai D., Wu X., Liu Y., Chen K., Xu H.,* Giant optical activity from the radiative electromagnetic interactions in plasmonicnanoantennas, Nanoscale , 2013, 5, 3889–3894.

15.Wang R.Y., * Wang H., Wu X. C., Ji Y., Wang P., Qu Y., Chung T. S.Chiral assembly of gold nanorods with collective plasmonic circular dichroism response， Soft Matter , 2011，7, 8370–8375.

16.Liu Y.,Wang R. Y.,* Li J. L., Yuan B., Han M., Wang P., Liu X.Y. Identify Kinetic Features of Fibers Growing, Branching, and Bundling in Microstructure Engineering of Crystalline Fiber Network, CrystEngComm , 2014，16, 5402–5408

17.Wang R. Y., * Wang P.,Li J. L., Yuan B., Liu Y., Li L., Liu X.Y., From kinetic–structure analysis to engineering crystalline fiber networks in soft materials, Phys. Chem. Chem. Phys. , 2013, 15, 3313-3319.

18.Li J. L., Liu X. Y. *, Wang X. G., Wang R. Y.，Controlling Nanoparticle Formation via Sizable Cages of Supramolecular Soft Materials， Langmuir , 2011，27, 7820–7827.

19.Wang R. Y., Liu X. Y.*, Li J. L. Engineering Molecular Self-assembled Fibrillar Networks by Ultrasound， Cryst. Growth & Des. , 2009, 9, 3286-3291.

20.19.Xiong J. Y., Liu X. Y.*, Li J. L., Narayanan J., Wang R. Y., Understanding of hydrogel network formation and its application in the architecture of significantly enhanced hydrogel, Appl. Phys. Lett. , 2006, 89, 083106-083108.

21.Li J. L., Wang R. Y., Liu X. Y.*Nanoengineering of a Biocompatible Organogel by Thermal Processing, J. Phys. Chem. B. 2009,113, 5011-5015.

22.Wang R. Y., Liu X. Y.*, Narayanan J., Xiong J. Y., Li J. L. Architecture of Fiber Network: From Understanding to Engineering of Molecular Gels, J. Phys. Chem. B . 2006, 110, 25797-25802.

23.Wang R. Y., Liu X. Y.*, Xiong J. Y., Li J. L. Real-time observations of fiber network formation in molecular organogel: Supersaturation-dependent microstructure and its related rheological property, J. Phys. Chem. B. 2006, 110, 7275-7280.

24.Wang R.Y., Himmelhaus M.*, Fick J., Herrwerth S., Grunze M. Interaction of Self-Assembled Monolayers of Oligo(ethylene glycol)- Terminated Alkanethiols with Water Studied by Vibrational Sum Frequency Generation (VSFG), J. Chem. Phys. , 2005, 122, 164702.

25.Li J. L, Liu X. Y.*, Wang R. Y.,Xiong J. Y, Architecture of a Biocompatible Supramolecular Material by Supersaturation-driven Fabrication of Fiber Network, J. Phys. Chem. B. 2005, 109, 24231-24235.

26.Wang, R. Y. * Distribution of Eu3+ ions in LaPO4 nanocrystals， J. Luminescence , 2004,106, 211-217.

招生信息

每年擬招收博士生和碩士生1～2名。歡迎有志從事軟物質(zhì)物理與納米光子學(xué)交叉前沿領(lǐng)域研究的同學(xué)報(bào)考，優(yōu)先考慮具有光物理、生物物理、材料物理專業(yè)背景的考生。聯(lián)系方式：wangry@bit.edu.cn