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Markus Joos
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Conductivity mechanism in ionic 2D carbon nitrides: from hydrated ion motion to enhanced photocatalysis
J Kröger, F Podjaski, G Savasci, I Moudrakovski, A Jiménez‐Solano, ...
Advanced Materials 34 (7), 2107061, 2022
612022
Impact of hydration on ion transport in Li 2 Sn 2 S 5ˇ x H 2 O
M Joos, C Schneider, A Münchinger, I Moudrakovski, R Usiskin, J Maier, ...
Journal of Materials Chemistry A 9 (30), 16532-16544, 2021
152021
Spark Plasma Sintering (SPS)-Assisted Synthesis and Thermoelectric Characterization of Magnéli Phase V6O11
M Joos, G Cerretti, I Veremchuk, P Hofmann, H Frerichs, DH Anjum, ...
Inorganic Chemistry 57 (3), 1259-1268, 2018
132018
Synthesis, characterization and thermal behaviour of solid phases in the quasi-ternary system Mg (SCN) 2–H 2 O–THF
M Joos, M Conrad, R Merkle, T Schleid, J Maier, RE Dinnebier, S Bette
Dalton Transactions 50 (20), 6949-6961, 2021
82021
Fast water-assisted lithium ion conduction in restacked lithium tin sulfide nanosheets
AK Hatz, I Moudrakovski, S Bette, MW Terban, M Etter, M Joos, ...
Chemistry of Materials 33 (18), 7337-7349, 2021
72021
Ion transport mechanism in anhydrous lithium thiocyanate LiSCN part II: frequency dependence and slow jump relaxation
M Joos, M Conrad, I Moudrakovski, MW Terban, A Rad, P Kaghazchi, ...
Physical Chemistry Chemical Physics 24 (34), 20198-20209, 2022
52022
On the crystal structures of lithium thiocyanate monohydrate LiSCN⋅ 1 H2O and the phase diagram LiSCN–H2O
M Joos, M Conrad, S Bette, R Merkle, RE Dinnebier, T Schleid, J Maier
Journal of Physics and Chemistry of Solids 160, 110299, 2022
42022
Synthesis and characterisation of two lithium-thiocyanate solvates with tetrahydrofuran: Li [SCN]ˇ THF and Li [SCN]ˇ 2THF
M Conrad, M Joos, S Bette, RE Dinnebier, J Maier, T Schleid
Dalton Transactions 50 (35), 12292-12300, 2021
42021
Lattice Modification and Morphological Control of Halide-Substituted yqt-Type Zeolitic Imidazolate Frameworks Zn3mim5X, with X = F, Br, Cl, or OH
S Glante, D Wisser, M Hartmann, M Joos, RE Dinnebier, S Bette
Crystal Growth & Design 22 (6), 3795-3807, 2022
32022
Ion transport mechanism in anhydrous lithium thiocyanate LiSCN Part I: ionic conductivity and defect chemistry
M Joos, M Conrad, A Rad, P Kaghazchi, S Bette, R Merkle, RE Dinnebier, ...
Physical Chemistry Chemical Physics 24 (34), 20189-20197, 2022
22022
Hydration effects on defect chemistry of LiSCN and LiSnS
M Joos
12022
An approach to overcome challenges prior to the actual peg-in-hole problem for the lithium-ion battery pack assembly
M Böker, T Hufnagel, M Joos
www. robotix. academy, 1, 2021
12021
Lithium ion transport in water-containing Li (SCN) over a wide compositional range: From water doping to hydration
M Joos, M Conrad, A Münchinger, S Bette, I Moudrakovski, R Merkle, ...
Solid State Ionics 394, 116130, 2023
2023
An Advanced Human-inspired Compliant Peg-in-hole Solution for the Industrial Assembly of Almost Arbitrarily Shaped Lithium-ion Battery Packs
M Böker, M Joos, T Hufnagel
2022 10th International Conference on Control, Mechatronics and Automation …, 2022
2022
Ion transport mechanism in anhydrous lithium thiocyanate LiSCN part III: charge carrier interactions in the premelting regime
M Joos, M Conrad, S Bette, R Merkle, RE Dinnebier, T Schleid, J Maier
Physical Chemistry Chemical Physics 24 (34), 20210-20218, 2022
2022
Impact of hydration on ion transport in Li₂Sn₂S₅ˇ xH₂O
M Joos, C Schneider, A Münchinger, I Moudrakovski, R Usiskin, J Maier, ...
2021
Conductivity mechanism in ionic 2D carbon nitrides: from hydrated ion motion to enhanced photocatalysis
MW Terban, S Bette, V Duppel, M Joos, A Senocrate, R Dinnebier, ...
SPS-assisted synthesis and thermoelectric characterization of the Magnéli phase V6O11
M Joos, G Cerretti, I Veremchuk, P Hofmann, H Frerichs, DH Anjum, ...
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