Gordon G Wallace
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Explore the profile of Gordon G Wallace including associated specialties, affiliations and a list of published articles.
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303
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4643
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Recent Articles
1.
Chen Z, Chao Y, Xu Y, Liu H, Wallace G, Ding J, et al.
ACS Appl Mater Interfaces
. 2025 Jan;
17(2):3289-3297.
PMID: 39757791
Textile-based lithium-ion batteries (LIBs) are in great demand to power wearable electronics. They currently face a key safety challenge, particularly concerning mechanical abuse that could trigger thermal runaway, causing harm...
2.
Hodges A, Hoang A, Tsekouras G, Wagner K, Lee C, Swiegers G, et al.
Nat Commun
. 2024 Sep;
15(1):7959.
PMID: 39261495
No abstract available.
3.
Bustillo J, Paino J, Barnes M, Cayley J, de Rover V, Cameron M, et al.
Phys Med Biol
. 2024 Jun;
69(14).
PMID: 38914107
This study aims to design, manufacture, and test 3D printed quality assurance (QA) dosimetry phantoms for synchrotron brain cancer radiation therapy at the Australian synchrotron.Fabricated 3D printed phantoms from simple...
4.
Abeywardena S, Yue Z, Wallace G, Innis P
Electrophoresis
. 2024 Jun;
45(13-14):1171-1181.
PMID: 38837441
The integration of microfluidics with electric field control, commonly referred to as electrofluidics, has led to new opportunities for biomedical analysis. The requirement for closed microcapillary channels in microfluidics, typically...
5.
Abeywardena S, Yue Z, Wallace G, Innis P
Electrophoresis
. 2024 Jun;
45(13-14):1182-1197.
PMID: 38837242
Electric field-driven microfluidics, known as electrofluidics, is a novel attractive analytical tool when it is integrated with low-cost textile substrate. Textile-based electrofluidics, primarily explored on yarn substrates, is in its...
6.
Shoushtari Zadeh Naseri A, Fay C, Nattestad A, Ryder G, Sayyar S, Yue Z, et al.
3D Print Addit Manuf
. 2024 May;
11(2):447-459.
PMID: 38689898
In the field of tissue engineering and regenerative medicine, developing cytocompatible 3D conductive scaffolds that mimic the native extracellular matrix is crucial for the engineering of excitable cells and tissues....
7.
Xu Y, Zhao Y, Kochubei A, Lee C, Wagner P, Chen Z, et al.
ChemSusChem
. 2024 Apr;
17(19):e202400209.
PMID: 38688856
Polyaniline (PANI) provides an attractive organic platform for CO electrochemical reduction due to the ability to adsorb CO molecules and in providing means to interact with metal nanostructures. In this...
8.
Lin L, Huang L, Wu C, Gao Y, Miao N, Wu C, et al.
Angew Chem Int Ed Engl
. 2023 Oct;
62(49):e202315182.
PMID: 37872352
The exploration of inexpensive and efficient catalysts for oxygen reduction reaction (ORR) is crucial for chemical and energy industries. Carbon materials have been proved promising with different catalysts enabling 2...
9.
Kang L, Zhou Y, Chen X, Yue Z, Liu X, Baker C, et al.
Macromol Biosci
. 2023 Aug;
23(12):e2300220.
PMID: 37589999
The development of biomimetic structures with integrated extracellular matrix (ECM) components represents a promising approach to biomaterial fabrication. Here, an artificial ECM, comprising the structural protein collagen I and elastin...
10.
Montoya G, Wagner K, Ryder G, Shoushtari Zadeh Naseri A, Faisal S, Sencadas V, et al.
ACS Appl Mater Interfaces
. 2023 Aug;
15(32):38833-38845.
PMID: 37537952
The design of neural electrodes has changed in the past decade, driven mainly by the development of new materials that open the possibility of manufacturing electrodes with adaptable mechanical properties...