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Dynamic light scattering (DLS) analysis of particle size distribution and zeta potential of chitosan–copper nanoparticles (CHT–Cu NPs). (a) Hydrodynamic diameter and size distribution of CHT–Cu NPs, (b) size distribution of native chitosan, (c) size distribution of CuSO 4 ·5H 2 O, and (d) zeta potential distribution of CHT–Cu NPs. The <t>nanocomposites</t> showed a uniform nanoscale size (~150 nm) with low polydispersity and a positive surface charge, indicating good colloidal stability.
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Dynamic light scattering (DLS) analysis of particle size distribution and zeta potential of chitosan–copper nanoparticles (CHT–Cu NPs). (a) Hydrodynamic diameter and size distribution of CHT–Cu NPs, (b) size distribution of native chitosan, (c) size distribution of CuSO 4 ·5H 2 O, and (d) zeta potential distribution of CHT–Cu NPs. The nanocomposites showed a uniform nanoscale size (~150 nm) with low polydispersity and a positive surface charge, indicating good colloidal stability.

Journal: Frontiers in Fungal Biology

Article Title: Synthesis, characterization, and antifungal activity of chitosan–copper nanocomposites against crop pathogens

doi: 10.3389/ffunb.2026.1764049

Figure Lengend Snippet: Dynamic light scattering (DLS) analysis of particle size distribution and zeta potential of chitosan–copper nanoparticles (CHT–Cu NPs). (a) Hydrodynamic diameter and size distribution of CHT–Cu NPs, (b) size distribution of native chitosan, (c) size distribution of CuSO 4 ·5H 2 O, and (d) zeta potential distribution of CHT–Cu NPs. The nanocomposites showed a uniform nanoscale size (~150 nm) with low polydispersity and a positive surface charge, indicating good colloidal stability.

Article Snippet: The morphology and particle size distribution of the nanocomposites were observed using TEM (JEOL JEM-2100).

Techniques: Zeta Potential Analyzer

FTIR spectra of (A) native chitosan and (B) chitosan–copper nanoparticles (CHT–Cu NPs) showing band shifts after copper incorporation, confirming coordination of Cu² + with chitosan functional groups and nanocomposite formation.

Journal: Frontiers in Fungal Biology

Article Title: Synthesis, characterization, and antifungal activity of chitosan–copper nanocomposites against crop pathogens

doi: 10.3389/ffunb.2026.1764049

Figure Lengend Snippet: FTIR spectra of (A) native chitosan and (B) chitosan–copper nanoparticles (CHT–Cu NPs) showing band shifts after copper incorporation, confirming coordination of Cu² + with chitosan functional groups and nanocomposite formation.

Article Snippet: The morphology and particle size distribution of the nanocomposites were observed using TEM (JEOL JEM-2100).

Techniques: Functional Assay