Christopher L Soles
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Explore the profile of Christopher L Soles including associated specialties, affiliations and a list of published articles.
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34
Citations
195
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Recent Articles
1.
Centellas P, Mehringer K, Bowman A, Evans K, Vagholkar P, Thornell T, et al.
Nat Commun
. 2024 Oct;
15(1):8596.
PMID: 39375357
Understanding the physical and chemical response of materials to impulsive deformation is crucial for applications ranging from soft robotic locomotion to space exploration to seismology. However, investigating material properties at...
2.
Witherspoon V, Ito K, Snyder C, Tyagi M, Martin T, Beaucage P, et al.
J Memb Sci
. 2023 Jul;
678.
PMID: 37465550
We systematically reduce the cross-link density of a PA network based on m-phenylene diamine by substituting a fraction of the trifunctional trimesoyl chloride cross-linking agent with a difunctional isophthaloyl analog...
3.
Evans K, Chen S, Souna A, Stranick S, Soles C, Chan E
ACS Appl Mater Interfaces
. 2023 Jun;
15(27):32916-32925.
PMID: 37384826
From drug delivery to ballistic impact, the ability to control or mitigate the puncture of a fast-moving projectile through a material is critical. While puncture is a common occurrence, which...
4.
Evans K, Soles C, Chan E
Soft Matter
. 2022 Dec;
19(2):276-281.
PMID: 36515130
Cavitation is a phenomenon that occurs when the internal pressure of a material exceeds the resistance to deformation provided by the surrounding medium. Several measurements, such as the blister test,...
5.
Chan E, Xie W, Orski S, Lee J, Soles C
ACS Macro Lett
. 2022 May;
8(7):806-811.
PMID: 35619502
The fracture behavior of glassy polymers is strongly coupled to molecular parameters such as entanglement density as well as extrinsic parameters such as strain rate and test temperature. Here we...
6.
Simmonds A, Griebel J, Park J, Kim K, Chung W, Oleshko V, et al.
ACS Macro Lett
. 2022 May;
3(3):229-232.
PMID: 35590512
Sulfur-rich copolymers based on poly(sulfur-1,3-diisopropenylbenzene) (poly(S--DIB)) were synthesized via inverse vulcanization to create cathode materials for lithium-sulfur battery applications. These materials exhibit enhanced capacity retention (1005 mAh/g at 100 cycles)...
7.
Reyes-Martinez M, Chan E, Soles C, Han E, Murphy K, Jaeger H, et al.
Soft Matter
. 2022 Feb;
18(10):2039-2045.
PMID: 35194630
Disordered-Network Mechanical Materials (DNMM), comprised of random arrangements of bonds and nodes, have emerged as mechanical metamaterials with the potential for achieving fine control over their mechanical properties. Recent computational...
8.
Chen S, Souna A, Stranick S, Jhalaria M, Kumar S, Soles C, et al.
Soft Matter
. 2021 Dec;
18(2):256-261.
PMID: 34931215
Toughness in an entangled polymer network is typically controlled by the number of load-bearing topological constraints per unit volume. In this work, we demonstrate a new paradigm for controlling toughness...
9.
Sunday D, Chang A, Liman C, Gann E, DeLongchamp D, Thomsen L, et al.
Macromolecules
. 2020 Oct;
51(18).
PMID: 33033416
Bottlebrush block copolymers offer rich opportunities for the design of complex hierarchical materials. As consequences of the densely grafted molecular architecture, bottlebrush polymers can adopt highly extended backbone conformations and...
10.
Chen S, Souna A, Soles C, Stranick S, Chan E
Soft Matter
. 2020 Apr;
16(16):3886-3890.
PMID: 32285897
The dynamic impact between a particle and a planar material is important in many high impact events, and there is a growing need to characterize the mechanical properties of light-weight...