Using green emitting pH-responsive nanogels to report environmental changes within hydrogels: A nanoprobe for versatile sensing
Using green emitting pH-responsive nanogels to report environmental changes within hydrogels: A nanoprobe for versatile sensing
Remotely reporting the local environment within hydrogels using inexpensive laboratory techniques has excellent potential to improve our understanding of the nanometer-scale changes that cause macroscopic swelling or deswelling. Whilst photoluminescence (PL) spectroscopy is a popular method for such studies this approach commonly requires bespoke and time-consuming synthesis to attach fluorophores which may leave toxic residues. A promising and more versatile alternative is to use a pre-formed nanogel probe that contains a donor/acceptor pair and then “dope” that into the gel during gel assembly. Here, we introduce green-emitting methacrylic acid-based nanogel probe particles and use them to report the local environment within four different gels as well as stem cells. As the swelling of the nanogel probe changes within the gels the non-radiative energy transfer efficiency is strongly altered. This efficiency change is sensitively reported using the PL ratiometric intensity from the donor and acceptor. We demonstrate that our new nanoprobes can reversibly report gel swelling changes due to five different environmental stimuli. The latter are divalent cations, gel degradation, pH changes, temperature changes and tensile strain. In the latter case, the nanoprobe rendered a nanocomposite gel mechanochromic. The results not only provide new structural insights for hierarchical natural and synthetic gels, but also demonstrate that our new green-fluorescing nanoprobes provide a viable alternative to custom fluorophore labelling for reporting the internal gel environment and its changes.
11484-11495
Zhu, M.
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Lu, D.
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Lian, Q.
e6a63ba8-1b4c-43db-908b-0892c79ca019
Wang, W.
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Lyon, L.A.
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Wang, W.
784abe65-25c3-4eae-add7-2af85a5d2da0
Da Silva Bartolo, Paulo Jorge
2c085472-871d-4ac1-8767-23e5fe9703cf
Saunders, Brian
206eb5ce-4e7a-42a4-95f7-c4ec3735727b
1 May 2019
Zhu, M.
0f946e48-e202-4a3e-92ec-a1d7b321a7b9
Lu, D.
f5d4de84-73e7-44c0-b717-a81524672856
Lian, Q.
e6a63ba8-1b4c-43db-908b-0892c79ca019
Wang, W.
0cc699c0-e7b3-49d0-8c84-1e9d63f747d8
Lyon, L.A.
e8028bab-05c8-4021-aa7c-8c9f95aea001
Wang, W.
784abe65-25c3-4eae-add7-2af85a5d2da0
Da Silva Bartolo, Paulo Jorge
2c085472-871d-4ac1-8767-23e5fe9703cf
Saunders, Brian
206eb5ce-4e7a-42a4-95f7-c4ec3735727b
Zhu, M., Lu, D., Lian, Q., Wang, W., Lyon, L.A., Wang, W., Da Silva Bartolo, Paulo Jorge and Saunders, Brian
(2019)
Using green emitting pH-responsive nanogels to report environmental changes within hydrogels: A nanoprobe for versatile sensing.
Nanoscale Adv., 11, .
(doi:10.1039/C9NR00989B).
Abstract
Remotely reporting the local environment within hydrogels using inexpensive laboratory techniques has excellent potential to improve our understanding of the nanometer-scale changes that cause macroscopic swelling or deswelling. Whilst photoluminescence (PL) spectroscopy is a popular method for such studies this approach commonly requires bespoke and time-consuming synthesis to attach fluorophores which may leave toxic residues. A promising and more versatile alternative is to use a pre-formed nanogel probe that contains a donor/acceptor pair and then “dope” that into the gel during gel assembly. Here, we introduce green-emitting methacrylic acid-based nanogel probe particles and use them to report the local environment within four different gels as well as stem cells. As the swelling of the nanogel probe changes within the gels the non-radiative energy transfer efficiency is strongly altered. This efficiency change is sensitively reported using the PL ratiometric intensity from the donor and acceptor. We demonstrate that our new nanoprobes can reversibly report gel swelling changes due to five different environmental stimuli. The latter are divalent cations, gel degradation, pH changes, temperature changes and tensile strain. In the latter case, the nanoprobe rendered a nanocomposite gel mechanochromic. The results not only provide new structural insights for hierarchical natural and synthetic gels, but also demonstrate that our new green-fluorescing nanoprobes provide a viable alternative to custom fluorophore labelling for reporting the internal gel environment and its changes.
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Accepted/In Press date: 30 April 2019
Published date: 1 May 2019
Identifiers
Local EPrints ID: 497824
URI: http://eprints.soton.ac.uk/id/eprint/497824
ISSN: 2040-3372
PURE UUID: 572212d4-1d5f-4d67-ad3c-b3736776074b
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Date deposited: 31 Jan 2025 18:25
Last modified: 20 Jun 2025 02:14
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Author:
M. Zhu
Author:
D. Lu
Author:
Q. Lian
Author:
W. Wang
Author:
L.A. Lyon
Author:
W. Wang
Author:
Paulo Jorge Da Silva Bartolo
Author:
Brian Saunders
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