Positive Thinking: Countercation Effects in Colloidal Syntheses of Gold Nanoparticles

Kristian Junker  Andersen; Márton  Varga; Aleksandra  Smolska; Gregory  Nordhal; Jonas Haugaard Jensen; Rodrigo Moreno Garcia; Espen D. Bøjesen; Andy S. Anker; Jonathan  Quinson

doi:10.1021/acs.nanolett.5c04815

Positive Thinking: Countercation Effects in Colloidal Syntheses of Gold Nanoparticles

Kristian Junker Andersen
, Márton Varga
, Aleksandra Smolska
, Gregory Nordhal
, Jonas Haugaard Jensen
, Rodrigo Moreno Garcia
, Espen D. Bøjesen
, Andy S. Anker
, Jonathan Quinson

Research output: Journal Article or Conference Article in Journal › Journal article › Research › peer-review

Abstract

Gold nanoparticles (Au NPs) are intensively studied and widely applicable to catalysis, sensing, medical applications, and many more. In particular, citrate- and borohydride- mediated colloidal syntheses of Au NPs are extremely popular. While it can be reasonably expected that countercations have a role to play, there is surprisingly almost no study on the effect of countercations in citrate- and borohydride-mediated colloidal syntheses of Au NPs. It is here shown that the countercation (Li+, Na+, K+) from citrate, borohydride, but also from hydroxide species, plays an overlooked role in the stabilization of gold colloidal dispersions. The stability, size, and degree of shape control over the NP decrease in the order Li+ > Na+ > K+, due to a stronger interaction between the smaller cations and metal surfaces. The findings are directly relevant for further fundamental studies, an improved control of the syntheses and scale-up.

Original language	English
Journal	Nano Letters
Volume	25
Issue number	42
Pages (from-to)	15436-15442
Number of pages	7
ISSN	1530-6992
DOIs	https://doi.org/10.1021/acs.nanolett.5c04815
Publication status	Published - 10 Oct 2025

Keywords

Gold
Nanoparticles
Cations
Citrate
Borohydride
Hydroxide
Colloids

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@article{71ee99a050f44161b75ea0831975ecff,

title = "Positive Thinking: Countercation Effects in Colloidal Syntheses of Gold Nanoparticles",

abstract = "Gold nanoparticles (Au NPs) are intensively studied and widely applicable to catalysis, sensing, medical applications, and many more. In particular, citrate- and borohydride- mediated colloidal syntheses of Au NPs are extremely popular. While it can be reasonably expected that countercations have a role to play, there is surprisingly almost no study on the effect of countercations in citrate- and borohydride-mediated colloidal syntheses of Au NPs. It is here shown that the countercation (Li+, Na+, K+) from citrate, borohydride, but also from hydroxide species, plays an overlooked role in the stabilization of gold colloidal dispersions. The stability, size, and degree of shape control over the NP decrease in the order Li+ > Na+ > K+, due to a stronger interaction between the smaller cations and metal surfaces. The findings are directly relevant for further fundamental studies, an improved control of the syntheses and scale-up.",

keywords = "Gold, Nanoparticles, Cations, Citrate, Borohydride, Hydroxide, Colloids",

author = "Andersen, \{Kristian Junker\} and M{\'a}rton Varga and Aleksandra Smolska and Gregory Nordhal and Jensen, \{Jonas Haugaard\} and Garcia, \{Rodrigo Moreno\} and B{\o}jesen, \{Espen D.\} and Anker, \{Andy S.\} and Jonathan Quinson",

year = "2025",

month = oct,

day = "10",

doi = "10.1021/acs.nanolett.5c04815",

language = "English",

volume = "25",

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journal = "Nano Letters",

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TY - JOUR

T1 - Positive Thinking: Countercation Effects in Colloidal Syntheses of Gold Nanoparticles

AU - Andersen, Kristian Junker

AU - Varga, Márton

AU - Smolska, Aleksandra

AU - Nordhal, Gregory

AU - Jensen, Jonas Haugaard

AU - Garcia, Rodrigo Moreno

AU - Bøjesen, Espen D.

AU - Anker, Andy S.

AU - Quinson, Jonathan

PY - 2025/10/10

Y1 - 2025/10/10

N2 - Gold nanoparticles (Au NPs) are intensively studied and widely applicable to catalysis, sensing, medical applications, and many more. In particular, citrate- and borohydride- mediated colloidal syntheses of Au NPs are extremely popular. While it can be reasonably expected that countercations have a role to play, there is surprisingly almost no study on the effect of countercations in citrate- and borohydride-mediated colloidal syntheses of Au NPs. It is here shown that the countercation (Li+, Na+, K+) from citrate, borohydride, but also from hydroxide species, plays an overlooked role in the stabilization of gold colloidal dispersions. The stability, size, and degree of shape control over the NP decrease in the order Li+ > Na+ > K+, due to a stronger interaction between the smaller cations and metal surfaces. The findings are directly relevant for further fundamental studies, an improved control of the syntheses and scale-up.

AB - Gold nanoparticles (Au NPs) are intensively studied and widely applicable to catalysis, sensing, medical applications, and many more. In particular, citrate- and borohydride- mediated colloidal syntheses of Au NPs are extremely popular. While it can be reasonably expected that countercations have a role to play, there is surprisingly almost no study on the effect of countercations in citrate- and borohydride-mediated colloidal syntheses of Au NPs. It is here shown that the countercation (Li+, Na+, K+) from citrate, borohydride, but also from hydroxide species, plays an overlooked role in the stabilization of gold colloidal dispersions. The stability, size, and degree of shape control over the NP decrease in the order Li+ > Na+ > K+, due to a stronger interaction between the smaller cations and metal surfaces. The findings are directly relevant for further fundamental studies, an improved control of the syntheses and scale-up.

KW - Gold

KW - Nanoparticles

KW - Cations

KW - Citrate

KW - Borohydride

KW - Hydroxide

KW - Colloids

U2 - 10.1021/acs.nanolett.5c04815

DO - 10.1021/acs.nanolett.5c04815

M3 - Journal article

SN - 1530-6992

VL - 25

SP - 15436

EP - 15442

JO - Nano Letters

JF - Nano Letters

IS - 42

ER -

Positive Thinking: Countercation Effects in Colloidal Syntheses of Gold Nanoparticles

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Keywords

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