Beilstein J. Nanotechnol.2019,10, 930–940, doi:10.3762/bjnano.10.94
design, fabrication, and successful performance of a sealed AFM cell operating in a controlled atmosphere. Documentation of reversible physical processes on the cathode surface was performed on the example of a highly reactive lithium–oxygenbattery system at different water concentrations in the solvent
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Figure 1:
Schematic drawing of the AFM cell. Specially designed flanges on the sides of the glove box were us...
Beilstein J. Nanotechnol.2015,6, 1016–1055, doi:10.3762/bjnano.6.105
reconstruction and the corresponding formation of new interfaces.
The most appealing multielectron transfer systems are the lithium–sulfur battery and the lithium–air (or more precisely, the lithium–oxygenbattery) in which a non-metal is the redox-active element. Both batteries combine very high theoretical
and differences to the analogue Li/O2 cell are discussed. Li/S8 and Na/S8 batteries are discussed the same way in chapter 3. The section will end with a brief summary and outlook.
2.1 Operating principles and general remarks
The operating principle of a lithium–oxygenbattery is depicted in Figure 2b
lithium/oxygenbattery” [29]. This cell could be re-charged at room temperature at least three times at potentials as low as 3.8 V. In 2002, Read characterized a Li/O2 cell comprising different carbon materials and different electrolyte formulations [30]. This was the first work to analyze and correlate
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Figure 1:
Theoretical and (estimated) practical energy densities of different rechargeable batteries: Pb–acid...