Ruifu Wang
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Explore the profile of Ruifu Wang including associated specialties, affiliations and a list of published articles.
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11
Citations
68
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Recent Articles
1.
Tian J, Motezakker A, Wang R, Bae A, Fluerasu A, Zhu H, et al.
J Colloid Interface Sci
. 2025 Jan;
683(Pt 2):1077-1086.
PMID: 39778489
Hypothesis: Charge-stabilized colloidal cellulose nanocrystals (CNCs) can self-assemble into higher-ordered chiral nematic structures by varying the volume fraction. The assembly process exhibits distinct dynamics during the isotropic to liquid crystal...
2.
Wang R, He H, Tian J, Chodankar S, Hsiao B, Rosen T
Langmuir
. 2024 Jun;
40(25):13319-13329.
PMID: 38859701
Flow-assisted alignment of anisotropic nanoparticles is a promising route for the bottom-up assembly of advanced materials with tunable properties. While aligning processes could be optimized by controlling factors such as...
3.
Rosen T, He H, Wang R, Gordeyeva K, Motezakker A, Fluerasu A, et al.
Phys Rev E
. 2023 Aug;
108(1-1):014607.
PMID: 37583188
We demonstrate a framework of interpreting data from x-ray photon correlation spectroscopy experiments with the aid of numerical simulations to describe nanoscale dynamics in soft matter. This is exemplified with...
4.
Zhao H, He Z, Yun H, Wang R, Liu C
Int J Environ Res Public Health
. 2022 Aug;
19(16).
PMID: 36012088
The aim of this study was to investigate the effects of different exercise modes on improving inflammatory response in the elderly. For the research methodology, databases such as CNKI (China...
5.
Rosen T, Wang R, He H, Zhan C, Chodankar S, Hsiao B
Nanoscale Adv
. 2021 Sep;
3(17):4940-4951.
PMID: 34485817
During the past decade, cellulose nanofibrils (CNFs) have shown tremendous potential as a building block to fabricate new advanced materials that are both biocompatible and biodegradable. The excellent mechanical properties...
6.
Rosen T, Wang R, He H, Zhan C, Chodankar S, Hsiao B
Lab Chip
. 2021 Jan;
21(6):1084-1095.
PMID: 33514993
Time-resolved in situ characterization of well-defined mixing processes using small-angle X-ray scattering (SAXS) is usually challenging, especially if the process involves changes of material viscoelasticity. In specific, it can be...
7.
Rosen T, He H, Wang R, Zhan C, Chodankar S, Fall A, et al.
ACS Nano
. 2020 Nov;
14(12):16743-16754.
PMID: 33253525
Bio-based nanocellulose has been shown to possess impressive mechanical properties and simplicity for chemical modifications. The chemical properties are largely influenced by the surface area and functionality of the nanoscale...
8.
Rosen T, Wang R, Zhan C, He H, Chodankar S, Hsiao B
Phys Rev E
. 2020 Apr;
101(3-1):032610.
PMID: 32289908
Nanostructured materials made through flow-assisted assembly of proteinaceous or polymeric nanosized fibrillar building blocks are promising contenders for a family of high-performance biocompatible materials in a wide variety of applications....
9.
Sharma S, Sharma P, Lin S, Chen H, Johnson K, Wang R, et al.
Nanomaterials (Basel)
. 2020 Apr;
10(4).
PMID: 32276461
Synthetic rubber produced from nonrenewable fossil fuel requires high energy costs and is dependent on the presumed unstable petroleum price. Natural rubber latex (NRL) is one of the major alternative...
10.
A study of TiO nanocrystal growth and environmental remediation capability of TiO/CNC nanocomposites
Zhan C, Li Y, Sharma P, He H, Sharma S, Wang R, et al.
RSC Adv
. 2020 Mar;
9(69):40565-40576.
PMID: 32215205
Nanocellulose, which can be derived from any cellulosic biomass, has emerged as an appealing nanoscale scaffold to develop inorganic-organic nanocomposites for a wide range of applications. In this study, titanium...