Rong-Yao Wang
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Explore the profile of Rong-Yao Wang including associated specialties, affiliations and a list of published articles.
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12
Citations
29
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Recent Articles
1.
Cui X, Dong Y, Zhang L, Wang R
Huan Jing Ke Xue
. 2024 Apr;
45(5):2817-2827.
PMID: 38629544
Exploring the spatial distribution of land use/coverage (LUCC) and ecosystem carbon reserves in the future of climate change can provide a scientific basis for optimizing the distribution of land resources...
2.
Song J, Ji C, Ma X, Li J, Zhao W, Wang R
J Phys Chem Lett
. 2024 Jan;
15(4):975-982.
PMID: 38252465
Strong interaction between circularly polarized light and chiral plasmonic nanostructures can enable controllable asymmetric photophysical processes, such as selective chiral switching of a plasmonic nanorod-dimer. Here, we uncover the underlying...
3.
Liu S, Ma X, Song M, Ji C, Song J, Ji Y, et al.
ACS Nano
. 2021 Nov;
15(12):19535-19545.
PMID: 34797065
Molecular chirality recognition plays a pivotal role in chiral generation and transfer in living systems and makes important contribution to the development of diverse applications spanning from chiral separation to...
4.
Song M, Tong L, Liu S, Zhang Y, Dong J, Ji Y, et al.
ACS Nano
. 2021 Mar;
15(3):5715-5724.
PMID: 33661616
Molecular chirality transfer and amplification is at the heart of the fundamental understanding of chiral origin and fabrication of artificial chiral materials. We investigate here the nonlinear amplification effect in...
5.
Zhao W, Wang R, Wei H, Li J, Ji Y, Jiang X, et al.
Phys Chem Chem Phys
. 2017 Aug;
19(32):21401-21406.
PMID: 28783186
The ability to detect chiral molecules renders plasmonic nanosensors as promising tools for the study of chirality phenomena in living systems. Using gold nanorod based plasmonic nanosensors, we investigated here...
6.
Zhai D, Wang P, Wang R, Tian X, Ji Y, Zhao W, et al.
Nanoscale
. 2015 Jun;
7(24):10690-8.
PMID: 26030276
We report on the chiroptical transfer and amplification effect observed in plasmonic polymers consisting of achiral gold nanorod monomers linked by cysteine chiral molecules in an end-to-end fashion. A new...
7.
Liu Y, Zhao W, Li J, Wang R
Phys Chem Chem Phys
. 2015 Mar;
17(12):8258-65.
PMID: 25733153
Thin films of molecular gels formed in a confined space have potential applications in transdermal delivery, artificial skin, molecular electronics, etc. The microstructures and properties of thin gel films can...
8.
Wang R, Wang P, Li J, Yuan B, Liu Y, Li L, et al.
Phys Chem Chem Phys
. 2013 Jan;
15(9):3313-9.
PMID: 23361314
Understanding the role of kinetics in fiber network microstructure formation is of considerable importance in engineering gel materials to achieve their optimized performances/functionalities. In this work, we present a new...
9.
Li J, Liu X, Wang X, Wang R
Langmuir
. 2011 Jun;
27(12):7820-7.
PMID: 21627079
We present a new generic strategy to fabricate nanoparticles in the "cages" within the fibrous networks of supramolecular soft materials. As the cages can be acquired by a design-and-production manner,...
10.
Li J, Wang R, Liu X, Pan H
J Phys Chem B
. 2009 Mar;
113(15):5011-5.
PMID: 19309102
The formation of most organogels requires the compatibility of both the gelator and solvent. It is very desirable if the rheological properties of a gel can be manipulated to achieve...