Fabrication and Characterization of Montmorillonite Clay/Agar-Based Magnetic Composite and Its Biological and Electrical Conductivity Evaluation
Montmorillonite clay and agar are naturally occurring materials of significant importance in
designing biocompatible materials tailored for applications in biotechnology and medicine …
designing biocompatible materials tailored for applications in biotechnology and medicine …
Transforming clay minerals into solvent-free nanofluids via an interfacial interaction: An experimental and simulation study
X Ju, Y Liu, Z Yang, B Cui, S Meng, H Ma… - Colloids and Surfaces A …, 2024 - Elsevier
The emergence of solvent-free nanofluids (SFNs) has solved the problem of aggregation of
conventional nanoparticles, resulting in better compatibility and dispersion of nanoparticles …
conventional nanoparticles, resulting in better compatibility and dispersion of nanoparticles …
[HTML][HTML] Mechanical Properties of a Solvated Biomolecule: RGD (1FUV) Peptide
The mechanical properties of proteins/peptides play an essential role in their functionalities
and implications, as well as their structure and dynamic properties. Understanding …
and implications, as well as their structure and dynamic properties. Understanding …
[HTML][HTML] Molecular Dynamics Simulation of Clay Mineral–Water Interfaces: Temperature-Dependent Structural, Dynamical, and Mechanical Properties
T Yang, C Chu, Y Zhang, Z Zhang, J Wan - Water, 2025 - mdpi.com
Water interacting with clay minerals—such as kaolinite, montmorillonite, and pyrophyllite—
fundamentally governs their geotechnical and environmental functions, thereby influencing …
fundamentally governs their geotechnical and environmental functions, thereby influencing …