Michael Wubbenhorst
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Explore the profile of Michael Wubbenhorst including associated specialties, affiliations and a list of published articles.
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36
Citations
125
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Recent Articles
1.
You J, Mangialetto J, Li B, Jia X, Wei R, Niu L, et al.
J Chem Phys
. 2024 Nov;
161(20).
PMID: 39575745
The glass transition dynamics and conductivity relaxation are studied for a series of non-stoichiometric protic ionic liquids (PILs) based on 2-aminoethyl hydrogen sulfate and triflic acid with varying molar ratios...
2.
Zhang K, Zhang Z, Pan H, Wang H, Zhao X, Qi J, et al.
Innovation (Camb)
. 2024 Feb;
5(2):100577.
PMID: 38379786
Heat is almost everywhere. Unlike electricity, which can be easily manipulated, the current ability to control heat is still highly limited owing to spontaneous thermal dissipation imposed by the second...
3.
You J, Li B, De Borggraeve W, Wubbenhorst M
J Chem Phys
. 2023 Oct;
159(16).
PMID: 37877495
Highly acidic protic ionic liquids (PILs) are promising materials for potential electrochemical applications due to their high proton conductivity and excellent thermal stability. Still, little is known about the correlation...
4.
Pan H, Cheng Z, Zhou Z, Xie S, Zhang W, Han N, et al.
Nanomicro Lett
. 2023 Jun;
15(1):165.
PMID: 37386313
Lithium-sulfur (Li-S) batteries have received widespread attention, and lean electrolyte Li-S batteries have attracted additional interest because of their higher energy densities. This review systematically analyzes the effect of the...
5.
Cheng Z, Pan H, Wu Z, Wubbenhorst M, Zhang Z
ACS Appl Mater Interfaces
. 2022 Oct;
14(40):45688-45696.
PMID: 36191265
High sulfur loading is essential for achieving high energy density lithium-sulfur (Li-S) batteries. However, serious issues such as low sulfur utilization, poor cycling stability, and sluggish rate performance have been...
6.
Yongabi D, Khorshid M, Losada-Perez P, Bakhshi Sichani S, Jooken S, Stilman W, et al.
Adv Sci (Weinh)
. 2022 Jul;
9(24):e2200459.
PMID: 35780480
Despite the importance of cell characterization and identification for diagnostic and therapeutic applications, developing fast and label-free methods without (bio)-chemical markers or surface-engineered receptors remains challenging. Here, we exploit the...
7.
Thayumanasundaram S, Raman Venkatesan T, Ousset A, Van Hollebeke K, Aerts L, Wubbenhorst M, et al.
Mol Pharm
. 2022 Jun;
19(7):2299-2315.
PMID: 35674392
Recently, glasses, a subset of amorphous solids, have gained attention in various fields, such as polymer chemistry, optical fibers, and pharmaceuticals. One of their characteristic features, the glass transition temperature...
8.
Rodriguez-Tinoco C, Simavilla D, Priestley R, Wubbenhorst M, Napolitano S
ACS Macro Lett
. 2022 Jun;
9(3):318-322.
PMID: 35648537
The translational diffusion of molecules dispersed into polymer matrices slows down tremendously when approaching a nonrepulsive interface. To unravel the origin of this phenomenon, we investigated the diffusion of molecular...
9.
Napolitano S, Rotella C, Wubbenhorst M
ACS Macro Lett
. 2022 May;
1(10):1189-1193.
PMID: 35607193
The behavior of polymers confined in ultrathin films (thickness < 200 nm) can sensitively differ from that observed in macroscopic samples. Based on the simple arguments of finite size and...
10.
Vanroy B, Wubbenhorst M, Napolitano S
ACS Macro Lett
. 2022 May;
2(2):168-172.
PMID: 35581781
Confined at the nanoscale level, polymers crystallize much slower than in bulk, and in some cases, the formation of ordered structure is inhibited within extremely long experimental time scales. Here,...