A micelle-templated nanoparticle contrast agent enables dynamic microscale X-ray computed tomography imaging of the soil aqueous phase
A micelle-templated nanoparticle contrast agent enables dynamic microscale X-ray computed tomography imaging of the soil aqueous phase
The need to develop alternative agricultures that preserve soil health with reduced contribution to climate change has led to growing interest in soil’s microscale structure and dynamics. Microscale X-ray computed tomography (μX-CT) can image soil mineral particles at high-resolution but does not readily distinguish low-density aqueous and organic phases, nor image fluid and nutrient transport. Here we have developed polymer-templated gold nanoparticles as a contrast agent to label the aqueous phase in soil, selecting gold for low toxicity. Nanoparticles are created by templated synthesis inside block copolymer micelles with a stabilizing corona: poly(2-(dimethylamino)ethyl methacrylate)-blockpoly[poly(ethylene glycol) methyl ether methacrylate)]. These gold-polymer nanoparticles (gold core diameter 12 nm; overall hydrodynamic diameter 44 nm) are generated at high concentrations and in large volumes for soil imaging. They show exceptional colloidal stability (to ≥ 3M ionic strength), and are stable in the soil microenvironment, with no adsorption to mineral particles. In situ μX-CT imaging distinguished nanoparticle-labelled soil aqueous phase from unlabelled aqueous phase, at ~ 5 mg/ml Au. Dynamic imaging determined the nanoparticle bulk diffusion constant in soil to be 1.1 ± 0.3 × 10-10 m2 s-1 , much slower than typical single-ion transport in soil. We propose these nanoparticles as an effective contrast agent for flow and transport imaging in living soil.
bionanotechnology, block copolymer micelle, microX-ray CT imaging, nanoparticle, soil science
Weng, Shuchen
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Constantinou, Anna P.
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Zhang, Guanglei
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Shojaei, Mohammad Javad
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Zhou, Bo
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Jones, Davey L.
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Roose, Tiina
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Blunt, Martin J.
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Georgiou, Theoni K.
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Dunlop, Iain E.
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Weng, Shuchen
04524e56-0b97-4593-9c1b-c46813477f9d
Constantinou, Anna P.
37f75f90-d257-49e0-9ed6-8c0bc8922e42
Zhang, Guanglei
afc27859-64ad-40b4-b175-28ff7ba0fc15
Shojaei, Mohammad Javad
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Zhou, Bo
cddd43d3-88b4-486d-b7d2-3d1d0ad3bf25
Jones, Davey L.
c8e739a8-07d9-4c32-a0d2-e95c7754d168
Roose, Tiina
3581ab5b-71e1-4897-8d88-59f13f3bccfe
Blunt, Martin J.
c1f8788a-7f48-44f7-83be-cf762d444ed7
Georgiou, Theoni K.
2f98d04a-6093-4976-aa08-82a0ecf82d1f
Dunlop, Iain E.
c5b7f49e-a6f5-4f0c-b3ff-f6270b252c64
Weng, Shuchen, Constantinou, Anna P., Zhang, Guanglei, Shojaei, Mohammad Javad, Zhou, Bo, Jones, Davey L., Roose, Tiina, Blunt, Martin J., Georgiou, Theoni K. and Dunlop, Iain E.
(2025)
A micelle-templated nanoparticle contrast agent enables dynamic microscale X-ray computed tomography imaging of the soil aqueous phase.
RSC Applied Polymers.
(doi:10.1039/d5lp00072f).
Abstract
The need to develop alternative agricultures that preserve soil health with reduced contribution to climate change has led to growing interest in soil’s microscale structure and dynamics. Microscale X-ray computed tomography (μX-CT) can image soil mineral particles at high-resolution but does not readily distinguish low-density aqueous and organic phases, nor image fluid and nutrient transport. Here we have developed polymer-templated gold nanoparticles as a contrast agent to label the aqueous phase in soil, selecting gold for low toxicity. Nanoparticles are created by templated synthesis inside block copolymer micelles with a stabilizing corona: poly(2-(dimethylamino)ethyl methacrylate)-blockpoly[poly(ethylene glycol) methyl ether methacrylate)]. These gold-polymer nanoparticles (gold core diameter 12 nm; overall hydrodynamic diameter 44 nm) are generated at high concentrations and in large volumes for soil imaging. They show exceptional colloidal stability (to ≥ 3M ionic strength), and are stable in the soil microenvironment, with no adsorption to mineral particles. In situ μX-CT imaging distinguished nanoparticle-labelled soil aqueous phase from unlabelled aqueous phase, at ~ 5 mg/ml Au. Dynamic imaging determined the nanoparticle bulk diffusion constant in soil to be 1.1 ± 0.3 × 10-10 m2 s-1 , much slower than typical single-ion transport in soil. We propose these nanoparticles as an effective contrast agent for flow and transport imaging in living soil.
Text
D5LP00072F
- Accepted Manuscript
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d5lp00072f (1)
- Version of Record
More information
Accepted/In Press date: 21 September 2025
e-pub ahead of print date: 22 September 2025
Keywords:
bionanotechnology, block copolymer micelle, microX-ray CT imaging, nanoparticle, soil science
Identifiers
Local EPrints ID: 506335
URI: http://eprints.soton.ac.uk/id/eprint/506335
ISSN: 2755-371X
PURE UUID: bd914639-1729-4c68-89e6-789ab2c1f2e8
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Date deposited: 04 Nov 2025 18:02
Last modified: 05 Nov 2025 02:42
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Contributors
Author:
Shuchen Weng
Author:
Anna P. Constantinou
Author:
Guanglei Zhang
Author:
Mohammad Javad Shojaei
Author:
Bo Zhou
Author:
Davey L. Jones
Author:
Martin J. Blunt
Author:
Theoni K. Georgiou
Author:
Iain E. Dunlop
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