Microplasma-assisted green synthesis of glucose-stabilized silver nanoparticles: a dual-functional platform for SERS detection and synergistic reduction of binary dyes
Pham The Tan, Truong Quang Giang, Tran Thu Trang, Vu Xuan Hoa, Luu Tuan Duong, Ngo Thi Lan, Nguyen Thi Luyen, Nguyen Van Hao

TL;DR
A new green method uses microplasma to create silver nanoparticles that can detect molecules and clean pollutants.
Contribution
A novel green synthesis method for glucose-stabilized silver nanoparticles using microplasma, offering dual functionality for SERS detection and dye reduction.
Findings
G-AgNPs were synthesized without chemical reductants and surfactants using microplasma.
The nanoparticles showed high SERS sensitivity for Rhodamine 6G detection and efficient catalytic reduction of dyes.
The glucose shell enhanced colloidal stability and interfacial electron transfer.
Abstract
A rapid and environmentally sustainable approach for synthesizing glucose-stabilized silver nanoparticles (G-AgNPs) was developed using an atmospheric-pressure microplasma process that completely eliminates the need for conventional chemical reductants and surfactants. The synergistic interaction between plasma-generated reactive species and glucose molecules enabled the one-step formation of uniformly dispersed AgNPs exhibiting dual morphologies—spherical (∼8 nm) and hexagonal (∼16 nm)—with distinct localized surface plasmon resonances (LSPR) centered at ∼403 nm. These nanostructures produced abundant electromagnetic “hot spots,” functioning as highly sensitive and reproducible SERS substrates capable of detecting Rhodamine 6G at concentrations as low as 10−9 M (enhancement factor = 8.31 × 107, RSD = 4.85%, n = 9). Simultaneously, the G-AgNPs demonstrated excellent catalytic activity…
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Taxonomy
TopicsGold and Silver Nanoparticles Synthesis and Applications · Nanocluster Synthesis and Applications · Advanced Nanomaterials in Catalysis
