NANOSCIENCE – THEORY TO APPLICATION

/ Home
/ SUBMISSION

/ The BJNANO
/ Diamond Open Access
/ Journal Statistics
/ Editorial Board
/ Community
/ Call for papers

/ Latest Articles
/ Most accessed
/ Thematic issues
/ Volumes
/ Authors

/ E-Alerts

/ TWITTER
/ LINKEDIN
/ Mastodon
/ RSS FEED

Empty search

Article Type

Publication Date Range

Search Tips

This search combines search strings from the content search (i.e. "Full Text", "Author", "Title", "Abstract", or "Keywords") with "Article Type" and "Publication Date Range" using the AND operator.

Search Examples

aromatic	the word “aromatic”
aromatic aldehyde	the word “aromatic” OR “aldehyde”
+aromatic +aldehyde	both words “aromatic” AND “aldehyde”
+aromatic -aldehyde	the word “aromatic” but NOT “aldehyde”
“aromatic aldehyde”	the exact phrase “aromatic aldehyde”
benz*	words which begin with “benz”, such as “benzene” or “benzyl”
benz*yl	words that begin with “benz” and end with “yl”, such as “benzyl” or “benzoyl”
benzyl~	words that are close to the word “benzyl”, such as “benzoyl” (i.e., fuzzy search)

BROWSE
Latest Articles
Most accessed
thematic issues
volumes
authors

BROWSE

Latest Articles Most Accessed Thematic Issues Volumes Authors

Author

Type 3 or more characters for results.

Type 2 or more characters for results.

Type 3 or more characters for results.

Type 2 or more characters for results.

1 article(s) from Nguyen, Huyen Trinh

Supramolecular hydration structure of graphene-based hydrogels: density functional theory, green chemistry and interface application

Hon Nhien Le,
Duy Khanh Nguyen,
Minh Triet Dang,
Huyen Trinh Nguyen,
Thi Bang Tam Dao,
Trung Do Nguyen,
Chi Nhan Ha Thuc and
Van Hieu Le

Beilstein J. Nanotechnol. 2025, 16, 806–822, doi:10.3762/bjnano.16.61

PDF

Figure 1: DFT modelling of AB bilayer graphene structures. The AB bilayer graphene with the intersheet distan...

Jump to Figure 1

Figure 2: (a) Illustration of supramolecular self-assembly of a graphene-based hydrogel. (b) Depiction of a n...

Jump to Figure 2

Figure 3: SEM images of GO nanosheets (a), SG nanoparticles (b), and SG-ZH nanoparticles (c). (d) Photograph ...

Jump to Figure 3

Figure 4: SEM-EDS elemental mapping of carbon atoms (green dots), oxygen atoms (red dots), silicon atoms (yel...

Jump to Figure 4

Figure 5: Analysis of moisture content and water evaporation of GO-SG-ZH hydrogel. (a) Curves of changing moi...

Jump to Figure 5

Figure 6: (a) XRD pattern of GO-SG-ZH powder. (b) FTIR spectrum of GO-SG-ZH powder. (c) Aqueous dispersions o...

Jump to Figure 6

Figure 7: (a) A blank polylactide film (PLA). (b) A polylactide film coated with nanosilica (SG/PLA). (c) A p...

Jump to Figure 7

Figure 8: (a, b, c) Micrographs of morphology and structure of GO-SG-ZH coating on a PLA film. (d, e, f) SEM ...

Jump to Figure 8

Figure 9: Agar well diffusion assay of the GO-SG-ZH hydrogel presents antibacterial activities of the GO-SG-Z...

Jump to Figure 9

Figure 10: Antibacterial test of uncoated and coated PLA films against the growth of E. coli biofilm. (a, b, c...

Jump to Figure 10

Figure 11: Stability testing of SG/PLA and GO-SG-ZH/PLA films in an environment simulating aqueous food (water...

Jump to Figure 11

Figure 12: (a) Graph of tensile strength, elastic modulus, and tensile elongation. (b) Typical stress–strain c...

Jump to Figure 12

Album

Supp Info

Full Research Paper

Published 04 Jun 2025

Full text

Other Beilstein-Institut Open Science Activities

/ Help / Support & Contact / E-Alerts / Privacy Policy / Terms & Conditions / Impressum