2012
DOI: 10.1039/c2cc32841k
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Blue emitting gold nanoclusters templated by poly-cytosine DNA at low pH and poly-adenine DNA at neutral pH

Abstract: Blue fluorescent gold nanoclusters were prepared in the presence of poly-cytosine DNAs at low pH and poly-adenine at neutral pH using citrate as the reducing agent; various buffer conditions affecting the synthesis have been explored.Few atom noble metal nanoclusters (NCs) have emerged as a useful class of materials for biosensing, imaging and catalysis.

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Cited by 203 publications
(143 citation statements)
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“…28 In this current work using nucleosides or nucleotides, only adenine derivatives could afford fluorescence. We reason it is easier for a DNA chain to position a few gold ions close to each other (intramolecular binding) so that a cluster can form upon reduction.…”
Section: Hydrodyanmic Diameter Of the Complexes Formed By Au And Deoxmentioning
confidence: 99%
See 1 more Smart Citation
“…28 In this current work using nucleosides or nucleotides, only adenine derivatives could afford fluorescence. We reason it is easier for a DNA chain to position a few gold ions close to each other (intramolecular binding) so that a cluster can form upon reduction.…”
Section: Hydrodyanmic Diameter Of the Complexes Formed By Au And Deoxmentioning
confidence: 99%
“…The smallest complex may contain just a few gold ions, which can be considered as the smallest gold nanoclusters (AuNC) with blue fluorescence. [25][26][27][28][29][30][31][32][33][34][35][36] The availability of both nanoparticles and molecular species allows us to employ a diverse range of techniques to gain a more complete understanding. While fluorescent gold nanoclusters templated by DNA have been reported, 28,36 nucleotide-templated synthesis is more challenging since DNA could be designed to position a few gold ions at close proximity prior to their reduction.…”
mentioning
confidence: 99%
“…We initially tested 30-mer DNA homopolymers and obtained blue emitters using citrate as the reducing agent. The C30 DNA produces fluorescence only at low pH with a large excess of DNA, while A30 worked optimal at neutral pH with the ratio between adenine and HAuCl4 being ~1:1 [55]. The pH and stoichiometric requirements might be related to the coordination between the bases and Au ( Figure 1A).…”
mentioning
confidence: 99%
“…Fluorescent AuNCs have been prepared using polymer and protein stabilizers, while DNA templated AuNCs was reported only recently [55,56]. The choice of reducing agent has an important effect since when NaBH4 was used, only large AuNPs were obtained, possibly due to its strong reducing power.…”
mentioning
confidence: 99%
“…Third, chemically synthesized DNA can be easily modified. Liu's group successfully prepared fluorescent AuNCs in the presence of poly-cytosine DNAs and polyadenine DNAs with citrate as the reducing agent, and they explored the affecting factors for the synthesis of AuNCs in detail [45]. Subsequently, Shao's group synthesized fluorescent AuNCs using various DNA templates including single-stranded DNAs, hairpin DNAs, and double-stranded DNAs [46].…”
Section: Dna Oligonucleotidesmentioning
confidence: 99%