Yuan Zeng scite author profile

A ligand exchange strategy has been employed to understand the role of ligands on the structural and optical properties of atomically precise 29 atom silver nanoclusters (NCs). By ligand optimization, ∼44-fold quantum yield (QY) enhancement of Ag29(BDT)12–x (DHLA) x NCs (x = 1–6) was achieved, where BDT and DHLA refer to 1,3-benzene-dithiol and dihydrolipoic acid, respectively. High-resolution mass spectrometry was used to monitor ligand exchange, and structures of the different NCs were obtained through density functional theory (DFT). The DFT results from Ag29(BDT)11(DHLA) NCs were further experimentally verified through collisional cross-section (CCS) analysis using ion mobility mass spectrometry (IM MS). An excellent match in predicted CCS values and optical properties with the respective experimental data led to a likely structure of Ag29(DHLA)12 NCs consisting of an icosahedral core with an Ag16S24 shell. Combining the experimental observation with DFT structural analysis of a series of atomically precise NCs, Ag29–y Au y (BDT)12–x (DHLA) x (where y, x = 0,0; 0,1; 0,12 and 1,12; respectively), it was found that while the metal core is responsible for the origin of photoluminescence (PL), ligands play vital roles in determining their resultant PLQY.

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A review on catalytic pyrolysis of plastic wastes to high-value products

Peng

Wang

et al. 2022

Energy Conversion and Management

264

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Achieving high-energy-density and ultra-stable zinc-ion hybrid supercapacitors by engineering hierarchical porous carbon architecture

Zeng

et al. 2019

Electrochimica Acta

130

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X-ray-Based Techniques to Study the Nano–Bio Interface

et al. 2021

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X-ray-based analytics are routinely applied in many fields, including physics, chemistry, materials science, and engineering. The full potential of such techniques in the life sciences and medicine, however, has not yet been fully exploited. We highlight current and upcoming advances in this direction. We describe different X-ray-based methodologies (including those performed at synchrotron light sources and X‑ray free-electron lasers) and their potentials for application to investigate the nano–bio interface. The discussion is predominantly guided by asking how such methods could better help to understand and to improve nanoparticle-based drug delivery, though the concepts also apply to nano–bio interactions in general. We discuss current limitations and how they might be overcome, particularly for future use in vivo.

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Yuan Zeng

Impact of Ligands on Structural and Optical Properties of Ag₂₉ Nanoclusters

A review on catalytic pyrolysis of plastic wastes to high-value products

Achieving high-energy-density and ultra-stable zinc-ion hybrid supercapacitors by engineering hierarchical porous carbon architecture

X-ray-Based Techniques to Study the Nano–Bio Interface

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Yuan Zeng

Impact of Ligands on Structural and Optical Properties of Ag29 Nanoclusters

A review on catalytic pyrolysis of plastic wastes to high-value products

Achieving high-energy-density and ultra-stable zinc-ion hybrid supercapacitors by engineering hierarchical porous carbon architecture

X-ray-Based Techniques to Study the Nano–Bio Interface

Contact Info

Product

Resources

About

Impact of Ligands on Structural and Optical Properties of Ag₂₉ Nanoclusters