Klaus Peppler
Overview
Explore the profile of Klaus Peppler including associated specialties, affiliations and a list of published articles.
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5
Citations
69
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0
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Recent Articles
1.
Fuchs T, Ortmann T, Becker J, Haslam C, Ziegler M, Singh V, et al.
Nat Mater
. 2024 Sep;
23(12):1678-1685.
PMID: 39313556
'Anode-free' or, more fittingly, metal reservoir-free cells could drastically improve current solid-state battery technology by achieving higher energy density, improving safety and simplifying manufacturing. Various strategies have been reported so...
2.
Ray S, Thormann U, Eichelroth M, Budak M, Biehl C, Rupp M, et al.
Biomaterials
. 2017 Dec;
157:1-16.
PMID: 29216500
The purpose of this work was to investigate new bone formation in macroporous iron foams coated with strontium (FeSr) or bisphosphonate (FeBiP) compared to plain iron foam (Fe) and empty...
3.
Bergner B, Hofmann C, Schurmann A, Schroder D, Peppler K, R Schreiner P, et al.
Phys Chem Chem Phys
. 2015 Nov;
17(47):31769-79.
PMID: 26563563
The development of aprotic lithium-oxygen (Li-O2) batteries suffers from high charging overvoltages. Dissolved redox mediators, like nitroxides, providing increased energy efficiency and longer lifetime are promising tools to overcome this...
4.
Bergner B, Schurmann A, Peppler K, Garsuch A, Janek J
J Am Chem Soc
. 2014 Sep;
136(42):15054-64.
PMID: 25255228
Nonaqueous Li-O2 batteries are an intensively studied future energy storage technology because of their high theoretical energy density. However, a number of barriers prevent a practical application, and one of...
5.
Xia C, Waletzko M, Chen L, Peppler K, Klar P, Janek J
ACS Appl Mater Interfaces
. 2014 Jul;
6(15):12083-92.
PMID: 25006701
Lithium peroxide (Li2O2), the solid and intrinsically electronic insulating discharge product of Li-O2 batteries strongly influences the discharge and charge kinetics. In a series of experiments, we investigated the growth...