Publikationen

Polis

Cover & Highlights

Ion mobility in crystalline battery materials

Mohsen Sotoudeh, Sebastian Baumgart, Manuel Dillenz, Johannes Döhn, Katrin Forster-Tonigold, Katharina Helmbrecht, Daniel Stottmeister, and Axel Groß

2024, Adv. Energy Mater.

3D Printing of Na1.3Al0.3Ti1.7(PO4)3 Solid Electrolyte via Fused Filament Fabrication for All-Solid-State Sodium-Ion Batteries 

Aycan C. Kutlu, Dr. Dorit Nötzel, Dr. Carlos Ziebert, Prof. Dr. Hans J. Seifert, Dr. Ijaz Ul Mohsin 

2024, Batteries & Supercaps

Molecular Modeling of Water-in-Salt Electrolytes: A Comprehensive Analysis of Polarization Effects and Force Field Parameters in Molecular Dynamics Simulations

Majid Rezaei, Sung Sakong, Axel Groß 

2023, JCTC Journal of Chemical Theory and Computation

On a high-capacity aluminium battery with a two-electron phenothiazine redox polymer as a positive electrode

Gauthier Studer, Alexei Schmidt, Jan Büttner, Maximilian Schmidt, Anna Fischer, Ingo Krossing, Birgit Esser 

2023, Energy & Environmental Science

A Structurally Flexible Halide Solid Electrolyte with High Ionic Conductivity and Air Processability

Guruprakash Karkera, Mervyn Soans, Ayça Akbaş, Raiker Witter, Holger Euchner, Thomas Diemant, Musa Ali Cambaz, Zhen Meng, Bosubabu Dasari, Shivaraju Guddehalli Chandrappa, Prashanth W. Menezes, Maximilian Fichtner

2023, Advanced Energy Materials

Cathode Materials and Chemistries for Magnesium Batteries: Challenges and Opportunities

Zhenyou Li, Joachim Häcker, Maximilian Fichtner, Zhirong Zhao-Karger

2023, Advanced Energy Materials

New Insights into Self-Discharge and Heat Generation in Magnesium Batteries

Dr. Ijaz Ul Mohsin, Dr. Sibylle Riedel, Dr. Yanlei Xiu, Dr. Zhirong Zhao-Karger, Dr. Carlos Ziebert

2023, Batteries & Supercaps

P3 type layered oxide frameworks: An appealing family of insertion materials for K-ion batteries

Pawan Kumar Jha, Valérie Pralong, Maximilian Fichtner, Prabeer Barpanda

2023, Current Opinion in Electrochemistry

Eldfellite NaV(SO4)2 as a versatile cathode insertion host for Li-ion and Na-ion batteries

Shashwat Singh, Deobrat Singh, Rajeev Ahuja, Maximilian Fichtner, Prabeer Barpanda

2023, Journal of Materials Chemistry A

Robotic cell assembly to accelerate battery research 

Bojing Zhang, Leon Merker, Alexey Sanin, Helge S. Stein

2022, Digital Discovery

A combined XPS and computational study of the chemical reduction of BMP-TFSI by lithium

Katrin Forster-Tonigold, Florian Buchner, Joachim Bansmann, R. Jürgen Behm, Axel Groß

2022, Batteries & Supercaps

Initial Stages of Sodium Deposition onto Au(111) from [MPPip][TFSI]: An in-situ STM Study for Sodium-Ion Battery Electrolytes

Maren-Kathrin Heubach, Fabian M. Schuett, Dr. Ludwig A. Kibler, Dr. Areeg Abdelrahman, Prof. Dr. Timo Jacob

2022, ChemElectroChem

Tungsten Oxytetrachloride as a Positive Electrode for Chloride-Ion Batteries

Guruprakash Karkera, Mervyn Soans, Bosubabu Dasari, Ediga Umeshbabu, Musa Ali Cambaz, Zhen Meng, Thomas Diemant, Maximilian Fichtner

2022, Energy Technology

Reversible vs. standard hydrogen electrode scale in interfacial electrochemistry from a theoretician's atomistic point of view

Axel Groß

2022, J. Phys. Chem.

Unravelling charge carrier mobility in d0-metal-based spinels

Manuel Dillenz, Mohsen Sotoudeh, Clarissa Glaser, Jürgen Janek, Axel Groß, Holger Euchner,

2022, Batteries & Supercaps

Ab initio simulations of water/metal interfaces


Axel Groß & Sung Sakong


2022. Chemical Reviews

Interaction of Mg with the ionic liquid 1-butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)imide—An experimental and computational model study of the electrode–electrolyte interface in post-lithium batteries


Buchner, F.; Forster-Tonigold, K.; Bolter, T.; Rampf, A.; Klein, J.; Groß, A.; Behm, R. J.


2022. Journal of vacuum science & technology

Descriptor and scaling relations for ion mobility in crystalline solids

Mohsen Sotoudeh and Axel Groß,

JACS Au 2, 463–471 (2022), Open Access

Mechanism of magnesium transport in spinel chalcogenides.
Mohsen Sotoudeh, Manuel Dillenz, and Axel Groß
2021, Adv. Energy Sustainability Res. 2. Open Access.

An alternative charge storage mechanism for high-performance sodium-ion and potassium-ion anodes.
Yanjiao Ma, Yuan Ma, Holger Euchner, Xu Liu, Huang Zhang, Bingsheng Qin, Dorin Geiger, Johannes Biskupek, Anna Carlsson, Ute Kaiser, Axel Groß,  Stefano Passerini, and Dominic Bresser
2021, ACS Energy Lett. 6.

Performance Study of MXene/Carbon Nanotube Composites for Current Collector- and Binder-Free Mg–S Batteries.
Henning Kaland, Frode Håskjold Fagerli, Jacob Hadler-Jacobsen, Dr. Zhirong Zhao-Karger, Prof. Maximilian Fichtner, Prof. Kjell Wiik, Dr. Nils P. Wagner
2021, ChemSusChem.

Polyoxometalate Modified Separator for Performance Enhancement of Magnesium–Sulfur Batteries.
Yuanchun Ji, Xinyang Liu-Théato, Yanlei Xiu, Sylvio Indris, Christian Njel, Julia Maibach, Helmut Ehrenberg, Maximilian Fichtner, and Zhirong Zhao-Karger
2021, Adv. Funct. Mater.

Cover

Thermophysical Characterization of a Layered P2 Type Structure Na₀.₅₃MnO₂Cathode Material for Sodium Ion Batteries.
Mohsin, I. U.; Ziebert, C.; Rohde, M.; Seifert, H. J.
2021. Batteries

Rechargeable Calcium–Sulfur Batteries Enabled by an Efficient Borate-Based Electrolyte
Li, Z.; Vinayan, B. P.; Diemant, T.; Behm, R. J.; Fichtner, M.; Zhao-Karger, Z.
2020. Small

Strain Dependence of Metal Anode Surface Properties.
Stottmeister, Daniel & Groß, Axel
2020. ChemSusChem.

Surface Science and Electrochemical Model Studies on the Interaction of Graphite and Li‐Containing Ionic Liquids.
Weber, Isabella; Kim, Jihyun; Buchner, Florian; Schnaidt, Johannes; Behm, R. Jürgen
2020. ChemSusChem.

Towards stable and efficient electrolytes for room-temperature rechargeable calcium batteries.
Li, Z.; Fuhr, O.; Fichtner, M.; Zhao-Karger, Z.
2019. Energy & environmental science, 12 (12), 3496–3501.

  

2024

MgO coated P2-Na 0.67Mn0.75Ni0.25O2 layered oxide cathode for Na-Ion batteries
Gauckler, C.; Kucinskis, G.; Pfeiffer, L. F.; Abdellatif, A. A.; Tang, Y.; Kübel, C.; Maroni, F.; Gong, R.; Wohlfahrt-Mehrens, M.; Axmann, P.; Marinaro, M.
2024. Journal of Power Sources Advances, 25, 100135. doi:10.1016/j.powera.2024.100135Full textFull text of the publication as PDF document
Exploration of the Lithium Storage Mechanism in Monoclinic NbO as a Function of the Degree of Lithiation
Xue, X.; Asenbauer, J.; Eisenmann, T.; Lepore, G. O.; d’Acapito, F.; Xing, S.; Tübke, J.; Mullaliu, A.; Li, Y.; Geiger, D.; Biskupek, J.; Kaiser, U.; Steinle, D.; Birrozzi, A.; Bresser, D.
2024. Small Structures, Art.-Nr.: 2300545. doi:10.1002/sstr.202300545Full textFull text of the publication as PDF document

2023

Exploring the influence of FIB processing and SEM imaging on solid-state electrolytes
Ding, Z.; Tang, Y.; Chakravadhanula, V. S. K.; Ma, Q.; Tietz, F.; Dai, Y.; Scherer, T.; Kübel, C.
2023. Microscopy, 72 (4), 326–335. doi:10.1093/jmicro/dfac064VolltextVolltext der Publikation als PDF-Dokument
Closing gaps in LCA of lithium-ion batteries: LCA of lab-scale cell production with new primary data
Erakca, M.; Pinto Bautista, S.; Moghaddas, S.; Baumann, M.; Bauer, W.; Leuthner, L.; Weil, M.
2023. Journal of Cleaner Production, 384, Art.-Nr.: 135510. doi:10.1016/j.jclepro.2022.135510VolltextVolltext der Publikation als PDF-Dokument
Reactive Metals as Energy Storage and Carrier Media
Ersoy, H.; Baumann, M.; Weil, M.; Barelli, L.; Passerini, S.
2023. Sustainable Energy Storage in the Scope of Circular Economy – Advanced Materials and Device Design. Ed.: C. Costa, 17–41, John Wiley and Sons. doi:10.1002/9781119817741.ch2
Development of a Mg/O ReaxFF Potential to describe the Passivation Processes in Magnesium‐Ion Batteries
Fiesinger, F.; Gaissmaier, D.; van den Borg, M.; Beßner, J.; van Duin, A. C. T.; Jacob, T.
2023. ChemSusChem, 16 (3), Art.-Nr.: e202201821. doi:10.1002/cssc.202201821VolltextVolltext der Publikation als PDF-Dokument
Guest Ion-Dependent Reaction Mechanisms of New Pseudocapacitive MgV(PO)/Carbon Composite as Negative Electrode for Monovalent-Ion Batteries
Fu, Q.; Schwarz, B.; Ding, Z.; Sarapulova, A.; Weidler, P. G.; Missyul, A.; Etter, M.; Welter, E.; Hua, W.; Knapp, M.; Dsoke, S.; Ehrenberg, H.
2023. Advanced Science, 10 (11), Art.-Nr.: 2207283. doi:10.1002/advs.202207283VolltextVolltext der Publikation als PDF-Dokument
Asymptotic properties of one-layer artificial neural networks with sparse connectivity
Hirsch, C.; Neumann, M.; Schmidt, V.
2023. Statistics & Probability Letters, 193, Art.-Nr.: 109698. doi:10.1016/j.spl.2022.109698
Dynamic inconsistency between electrochemical reaction and phase transition in Na-deficient layered cathode materials
Hua, W.; Yang, X.; Wang, S.; Li, H.; Senyshyn, A.; Tayal, A.; Baran, V.; Chen, Z.; Avdeev, M.; Knapp, M.; Ehrenberg, H.; Saadoune, I.; Chou, S.; Indris, S.; Guo, X.
2023. Energy Storage Materials, 61, Article no: 102906. doi:10.1016/j.ensm.2023.102906
Multivalent Cation Transport in Polymer Electrolytes – Reflections on an Old Problem
Jeschull, F.; Hub, C.; Kolesnikov, T. I.; Sundermann, D.; Hernández, G.; Voll, D.; Mindemark, J.; Théato, P.
2023. Advanced Energy Materials. doi:10.1002/aenm.202302745VolltextVolltext der Publikation als PDF-Dokument
P3 type layered oxide frameworks: An appealing family of insertion materials for K-ion batteries
Jha, P. K.; Pralong, V.; Fichtner, M.; Barpanda, P.
2023. Current Opinion in Electrochemistry, 38, Art.-Nr.: 101216. doi:10.1016/j.coelec.2023.101216
From lithium to potassium: Comparison of cations in poly(ethylene oxide)-based block copolymer electrolytes for solid-state alkali metal batteries
Khudyshkina, A. D.; Butzelaar, A. J.; Guo, Y.; Hoffmann, M.; Bergfeldt, T.; Schaller, M.; Indris, S.; Wilhelm, M.; Théato, P.; Jeschull, F.
2023. Electrochimica Acta, 454, Article no: 142421. doi:10.1016/j.electacta.2023.142421VolltextVolltext der Publikation als PDF-Dokument
Drying of Compact and Porous NCM Cathode Electrodes in Different Multilayer Architectures: Influence of Layer Configuration and Drying Rate on Electrode Properties
Klemens, J.; Burger, D.; Schneider, L.; Spiegel, S.; Müller, M.; Bohn, N.; Bauer, W.; Ehrenberg, H.; Scharfer, P.; Schabel, W.
2023. Energy Technology, 11 (8), Art.Nr.: 2300267. doi:10.1002/ente.202300267VolltextVolltext der Publikation als PDF-Dokument
Challenges and Opportunities for Large‐Scale Electrode Processing for Sodium‐Ion and Lithium‐Ion Battery
Klemens, J.; Wurba, A.-K.; Burger, D.; Müller, M.; Bauer, W.; Büchele, S.; Leonet, O.; Blázquez, J. A.; Boyano, I.; Ayerbe, E.; Ehrenberg, H.; Fleischer, J.; Smith, A.; Scharfer, P.; Schabel, W.
2023. Batteries & Supercaps, 6 (11), Art.Nr.: e202300291. doi:10.1002/batt.202300291VolltextVolltext der Publikation als PDF-Dokument
Investigation of SnS₂‐rGO Sandwich Structures as Negative Electrode for Sodium‐ion and Potassium‐ion Batteries
Li, C.; Pfeifer, K.; Luo, X.; Melinte, G.; Wang, J.; Zhang, Z.; Zhang, Y.; Dong, P.; Sarapulova, A.; Ehrenberg, H.; Dsoke, S.
2023. ChemSusChem, 16 (7), e202202281. doi:10.1002/cssc.202202281VolltextVolltext der Publikation als PDF-Dokument
Chemistry, electrochemistry, and electrochemical applications of magnesium
Li, Z.; Wang, L.; Bautista, S. P.; Weil, M.
2023. Reference Module in Chemistry, Molecular Sciences and Chemical Engineering. Ed.: J. Reedijk, Elsevier. doi:10.1016/B978-0-323-96022-9.00066-9
ToF-SIMS in battery research: Advantages, limitations, and best practices
Lombardo, T.; Walther, F.; Kern, C.; Moryson, Y.; Weintraut, T.; Henss, A.; Rohnke, M.
2023. Journal of Vacuum Science & Technology A, 41 (5), Article no: 053207. doi:10.1116/6.0002850VolltextVolltext der Publikation als PDF-Dokument
Sodium Insertion into Fe[Fe(CN) 6 ] Framework Prepared by Microwave‐Assisted Co‐Precipitation
Maroni, F.; Li, M.; Dongmo, S.; Gauckler, C.; Wohlfahrt-Mehrens, M.; Giorgetti, M.; Marinaro, M.
2023. ChemElectroChem, 10 (8), e202201070. doi:10.1002/celc.202201070VolltextVolltext der Publikation als PDF-Dokument
New insights into Self‐discharge and Heat Generation in Magnesium Batteries
Mohsin, I. U.; Riedel, S.; Xiu, Y.; Zhao-Karger, Z.; Ziebert, C.
2023. Batteries & Supercaps, 6 (7), Art.Nr.: e202300137. doi:10.1002/batt.202300137VolltextVolltext der Publikation als PDF-Dokument
Enabling the Electrochemical Performance of Maricite-NaMnPO4 and Maricite-NaFePO4 Cathode Materials in Sodium-Ion Batteries
Mohsin, I. U.; Schneider, L.; Yu, Z.; Cai, W.; Ziebert, C.
2023. (A. Arunachalam, Hrsg.) International Journal of Electrochemistry, 2023, Artlk. ID.: 6054452. doi:10.1155/2023/6054452VolltextVolltext der Publikation als PDF-Dokument
Effect of self and extrinsic encapsulation on electron resilience of porous 2D polymer nanosheets
Mücke, D.; Linck, M.; Guzzinati, G.; Müller, H.; Levin, B. D. A.; Bammes, B. E.; Brouwer, R. G.; Jelezko, F.; Qi, H.; Kaiser, U.
2023. Micron, 174, Article no: 103525. doi:10.1016/j.micron.2023.103525
Influences on Reliable Capacity Measurements of Hard Carbon in Highly Loaded Electrodes
Müller, C.; Wang, Z.; Hofmann, A.; Stueble, P.; Liu-Théato, X.; Klemens, J.; Smith, A.
2023. Batteries & Supercaps, 6 (11), Art.Nr.: e202300322. doi:10.1002/batt.202300322VolltextVolltext der Publikation als PDF-Dokument
A data-driven modeling approach to quantify morphology effects on transport properties in nanostructured NMC particles
Neumann, M.; Wetterauer, S. E.; Osenberg, M.; Hilger, A.; Gräfensteiner, P.; Wagner, A.; Bohn, N.; Binder, J. R.; Manke, I.; Carraro, T.; Schmidt, V.
2023. International Journal of Solids and Structures, 280, Article no: 112394. doi:10.1016/j.ijsolstr.2023.112394VolltextVolltext der Publikation als PDF-Dokument
Open Challenges on Aluminum Triflate-Based Electrolytes for Aluminum Batteries
Rahide, F.; Zemlyanushin, E.; Bosch, G.-M.; Dsoke, S.
2023. Journal of The Electrochemical Society, 170 (3), Article no: 030546. doi:10.1149/1945-7111/acc762VolltextVolltext der Publikation als PDF-Dokument
Conductivity experiments for electrolyte formulations and their automated analysis
Rahmanian, F.; Vogler, M.; Wölke, C.; Yan, P.; Fuchs, S.; Winter, M.; Cekic-Laskovic, I.; Stein, H. S.
2023. Scientific Data, 10 (1), Art.-Nr.: 43. doi:10.1038/s41597-023-01936-3VolltextVolltext der Publikation als PDF-Dokument
Unraveling Propylene Oxide Formation in Alkali Metal Batteries
Stottmeister, D.; Wildersinn, L.; Maibach, J.; Hofmann, A.; Jeschull, F.; Groß, A.
2023. ChemSusChem, 17 (3), Art.Nr.: e202300995. doi:10.1002/cssc.202300995VolltextVolltext der Publikation als PDF-Dokument
New Insights into Self‐Discharge and Heat Generation in Magnesium Batteries
Ul Mohsin, I.; Riedel, S.; Xiu, Y.; Zhao-Karger, Z.; Ziebert, C.
2023. Batteries & Supercaps, 6 (7), Art.-Nr.: e202300251. doi:10.1002/batt.202300251
Brokering between tenants for an international materials acceleration platform
Vogler, M.; Busk, J.; Hajiyani, H.; Jørgensen, P. B.; Safaei, N.; Castelli, I. E.; Ramirez, F. F.; Carlsson, J.; Pizzi, G.; Clark, S.; Hanke, F.; Bhowmik, A.; Stein, H. S.
2023. Matter, 6 (9), 2647–2665. doi:10.1016/j.matt.2023.07.016VolltextVolltext der Publikation als PDF-Dokument
Synergy of cations in high entropy oxide lithium ion battery anode
Wang, K.; Hua, W.; Huang, X.; Stenzel, D.; Wang, J.; Ding, Z.; Cui, Y.; Wang, Q.; Ehrenberg, H.; Breitung, B.; Kübel, C.; Mu, X.
2023. Nature Communications, 14, Art.-Nr.: 1487. doi:10.1038/s41467-023-37034-6VolltextVolltext der Publikation als PDF-Dokument
Segmentation and morphological analysis of amyloid fibrils from cryo-EM image data
Weber, M.; Neumann, M.; Schmidt, M.; Pfeiffer, P. B.; Bansal, A.; Fändrich, M.; Schmidt, V.
2023. Journal of Mathematics in Industry, 13 (2). doi:10.1186/s13362-023-00131-8VolltextVolltext der Publikation als PDF-Dokument
Anion Storage Chemistry of Organic Cathodes for High‐Energy and High‐Power Density Divalent Metal Batteries
Xiu, Y.; Mauri, A.; Dinda, S.; Pramudya, Y.; Ding, Z.; Diemant, T.; Sarkar, A.; Wang, L.; Li, Z.; Wenzel, W.; Fichtner, M.; Zhao-Karger, Z.
2023. Angewandte Chemie International Edition, 62 (2), Art.: e202212339. doi:10.1002/anie.202212339VolltextVolltext der Publikation als PDF-Dokument

2022

A Roadmap for Transforming Research to Invent the Batteries of the Future Designed within the European Large Scale Research Initiative BATTERY 2030+
Amici, J.; Asinari, P.; Ayerbe, E.; Barboux, P.; Bayle-Guillemaud, P.; Behm, R. J.; Berecibar, M.; Berg, E.; Bhowmik, A.; Bodoardo, S.; Castelli, I. E.; Cekic-Laskovic, I.; Christensen, R.; Clark, S.; Diehm, R.; Dominko, R.; Fichtner, M.; Franco, A. A.; Grimaud, A.; Guillet, N.; Hahlin, M.; Hartmann, S.; Heiries, V.; Hermansson, K.; Heuer, A.; Jana, S.; Jabbour, L.; Kallo, J.; Latz, A.; Lorrmann, H.; Løvvik, O. M.; Lyonnard, S.; Meeus, M.; Paillard, E.; Perraud, S.; Placke, T.; Punckt, C.; Raccurt, O.; Ruhland, J.; Sheridan, E.; Stein, H.; Tarascon, J.-M.; Trapp, V.; Vegge, T.; Weil, M.; Wenzel, W.; Winter, M.; Wolf, A.; Edström, K.
2022. Advanced Energy Materials, 12 (17), Art.-Nr.: 2102785. doi:10.1002/aenm.202102785VolltextVolltext der Publikation als PDF-Dokument
Comprehensive Approach to Investigate the De‐/Lithiation Mechanism of Fe‐Doped SnO₂ as Lithium‐Ion Anode Material
Asenbauer, J.; Wirsching, A.-L.; Lang, M.; Indris, S.; Eisenmann, T.; Mullaliu, A.; Birrozzi, A.; Hoefling, A.; Geiger, D.; Kaiser, U.; Schuster, R.; Bresser, D.
2022. Advanced Sustainable Systems, 6 (8), Artkl. Nr.: 2200102. doi:10.1002/adsu.202200102VolltextVolltext der Publikation als PDF-Dokument
Charging sustainable batteries
Bauer, C.; Burkhardt, S.; Dasgupta, N. P.; Ellingsen, L. A.-W.; Gaines, L. L.; Hao, H.; Hischier, R.; Hu, L.; Huang, Y.; Janek, J.; Liang, C.; Li, H.; Li, J.; Li, Y.; Lu, Y.-C.; Luo, W.; Nazar, L. F.; Olivetti, E. A.; Peters, J. F.; Rupp, J. L. M.; Weil, M.; Whitacre, J. F.; Xu, S.
2022. Nature Sustainability, 5 (3), 176–178. doi:10.1038/s41893-022-00864-1
High-Throughput Experimentation and Computational Freeway Lanes for Accelerated Battery Electrolyte and Interface Development Research
Benayad, A.; Diddens, D.; Heuer, A.; Krishnamoorthy, A. N.; Maiti, M.; Cras, F. L.; Legallais, M.; Rahmanian, F.; Shin, Y.; Stein, H.; Winter, M.; Wölke, C.; Yan, P.; Cekic-Laskovic, I.
2022. Advanced Energy Materials, 12 (17), Art.Nr.: 2102678. doi:10.1002/aenm.202102678VolltextVolltext der Publikation als PDF-Dokument
Managing FAIR Tribological Data Using Kadi4Mat
Brandt, N.; Garabedian, N. T.; Schoof, E.; Schreiber, P. J.; Zschumme, P.; Greiner, C.; Selzer, M.
2022. Data, 7 (2), Art.-Nr. 15. doi:10.3390/data7020015VolltextVolltext der Publikation als PDF-Dokument
Autonomous visual detection of defects from battery electrode manufacturing
Choudhary, N.; Clever, H.; Ludwigs, R.; Rath, M.; Gannouni, A.; Schmetz, A.; Hülsmann, T.; Sawodny, J.; Fischer, L.; Kampker, A.; Fleischer, J.; Stein, H. S.
2022. American Chemical Society (ACS). doi:10.26434/chemrxiv-2022-pvwj3VolltextVolltext der Publikation als PDF-Dokument
From high‐pressure β‐V 2 O 5 to κ‐Na x V 2 O 5 (x = 0.4 – 0.55): a structural, chemical and kinetic insight into a sodiated phase with a large interlayer space
Córdoba, R.; Goclon, J.; Sarapulova, A.; Fu, Q.; Maibach, J.; Dsoke, S.; Fauth, F.; Kuhn, A.; García-Alvarado, F.
2022. Applied Research, 2 (1), Art.Nr. e202200052. doi:10.1002/appl.202200052
Unravelling Charge Carrier Mobility in d₀ ‐Metal‐based Spinels
Dillenz, M.; Sotoudeh, M.; Glaser, C.; Janek, J.; Groß, A.; Euchner, H.
2022. Batteries & Supercaps, 5 (7), Art.-Nr. e202200164. doi:10.1002/batt.202200164VolltextVolltext der Publikation als PDF-Dokument
Atomistic modeling of Li- and post-Li-ion batteries
Euchner, H.; Groß, A.
2022. Physical Review Materials, 6 (4), Article no: 040302. doi:10.1103/PhysRevMaterials.6.040302
Rechargeable Batteries of the Future—The State of the Art from a BATTERY 2030+ Perspective
Fichtner, M.; Edström, K.; Ayerbe, E.; Berecibar, M.; Bhowmik, A.; Castelli, I. E.; Clark, S.; Dominko, R.; Erakca, M.; Franco, A. A.; Grimaud, A.; Horstmann, B.; Latz, A.; Lorrmann, H.; Meeus, M.; Narayan, R.; Pammer, F.; Ruhland, J.; Stein, H.; Vegge, T.; Weil, M.
2022. Advanced Energy Materials, 12 (17), 2102904. doi:10.1002/aenm.202102904VolltextVolltext der Publikation als PDF-Dokument
A Combined XPS and Computational Study of the Chemical Reduction of BMP‐TFSI by Lithium
Forster-Tonigold, K.; Buchner, F.; Bansmann, J.; Behm, R. J.; Groß, A.
2022. Batteries & Supercaps, 5 (12), Art._Nr: e202200484. doi:10.1002/batt.202200484
A Combined XPS and Computational Study of the Chemical Reduction of BMP‐TFSI by Lithium
Forster-Tonigold, K.; Buchner, F.; Bansmann, J.; Behm, R. J.; Groß, A.
2022. Batteries and Supercaps, 5 (12), Art.Nr. e202200307. doi:10.1002/batt.202200307VolltextVolltext der Publikation als PDF-Dokument
Preferred Site Occupation of Doping Cation and Its Impact on the Local Structure of V₂O₅
Fu, Q.; Hansen, A.-L.; Schwarz, B.; Sarapulova, A.; Zhu, L.; Tian, G.; Etter, M.; Missyul, A.; Welter, E.; Murzin, V.; Indris, S.; Azmi, R.; Knapp, M.; Dsoke, S.; Ehrenberg, H.
2022. Chemistry of Materials, 34 (22), 9844–9853. doi:10.1021/acs.chemmater.2c01695VolltextVolltext der Publikation als PDF-Dokument
High‐Voltage Aqueous Mg‐Ion Batteries Enabled by Solvation Structure Reorganization
Fu, Q.; Wu, X.; Luo, X.; Indris, S.; Sarapulova, A.; Bauer, M.; Wang, Z.; Knapp, M.; Ehrenberg, H.; Wei, Y.; Dsoke, S.
2022. Advanced functional materials, 32 (16), Art.Nr.: 2110674. doi:10.1002/adfm.202110674VolltextVolltext der Publikation als PDF-Dokument
Detailed Structural and Electrochemical Comparison between High Potential Layered P2-NaMnNi and Doped P2-NaMnNiMg Oxides
Gauckler, C.; Dillenz, M.; Maroni, F.; Pfeiffer, L. F.; Biskupek, J.; Sotoudeh, M.; Fu, Q.; Kaiser, U.; Dsoke, S.; Euchner, H.; Axmann, P.; Wohlfahrt-Mehrens, M.; Groß, A.; Marinaro, M.
2022. ACS Applied Energy Materials, 5 (11), 13735–13750. doi:10.1021/acsaem.2c02402
Novel Phosphonium-Based Ionic Liquid Electrolytes for Battery Applications
Hofmann, A.; Rauber, D.; Wang, T.-M.; Hempelmann, R.; Kay, C. W. M.; Hanemann, T.
2022. Molecules, 27 (15), Art.Nr.: 4729. doi:10.3390/molecules27154729VolltextVolltext der Publikation als PDF-Dokument
Dataset of propylene carbonate based liquid electrolyte mixtures for sodium-ion cells
Hofmann, A.; Wang, Z.; Bautista, S. P.; Weil, M.; Müller, F.; Löwe, R.; Schneider, L.; Mohsin, I. U.; Hanemann, T.
2022. Data in Brief, 40, Article no: 107775. doi:10.1016/j.dib.2021.107775VolltextVolltext der Publikation als PDF-Dokument
Advancing the Sustainability of Batteries. A Tongji University/Nature Sustainability Expert Panel Report
Huang, Y.; Bauer, C.; Burkhardt, S.; Dasgupta, N. P.; Ellingsen, L. A.-W.; Gaines, L. L.; Hao, H.; Hischier, R.; Hu, L.; Huang, Y.-M.; Janek, J.; Liang, C.; Li, H.; Li, J.; Li, Y.; Lu, Y.-C.; Luo, W.; Nazar, L. F.; Olivetti, E. A.; Peters, J. F.; Rupp, J. L. M.; Weil, M.; Whitacre, J. F.; Xu, S.
2022. Tongji University 
Development of Magnesium Borate Electrolytes: Explaining the Success of Mg[B(hfip)4]2 Salt
Jankowski, P.; Li, Z.; Zhao-Karger, Z.; Diemant, T.; Fichtner, M.; Vegge, T.; Lastra, J. M. G.
2022. Energy storage materials, 45, 1133–1143. doi:10.1016/j.ensm.2021.11.012VolltextVolltext der Publikation als PDF-Dokument
Poly(ethylene oxide)-Based Electrolytes for Solid-State Potassium Metal Batteries with a Prussian Blue Positive Electrode
Khudyshkina, A. D.; Morozova, P. A.; Butzelaar, A. J.; Hoffmann, M.; Wilhelm, M.; Theato, P.; Fedotov, S. S.; Jeschull, F.
2022. ACS Applied Polymer Materials, 4 (4), 2734–2746. doi:10.1021/acsapm.2c00014VolltextVolltext der Publikation als PDF-Dokument
Resolving the Role of Configurational Entropy in Improving Cycling Performance of Multicomponent Hexacyanoferrate Cathodes for Sodium‐Ion Batteries
Ma, Y.; Hu, Y.; Pramudya, Y.; Diemant, T.; Wang, Q.; Goonetilleke, D.; Tang, Y.; Zhou, B.; Hahn, H.; Wenzel, W.; Fichtner, M.; Ma, Y.; Breitung, B.; Brezesinski, T.
2022. Advanced Functional Materials, 32 (34), Art.Nr. 2202372. doi:10.1002/adfm.202202372VolltextVolltext der Publikation als PDF-Dokument
Sodiation of hard carbon: how separating enthalpy and entropy contributions can find transitions hidden in the voltage profile
Mercer, M.; Affleck, S.; Gavilan-Arriazu, E. M.; Zulke, A. A.; Maughan, P. A.; Trivedi, S.; Fichtner, M.; Reddy Munnangi, A.; Leiva, E. P. M.; Hoster, H. E.
2022. ChemPhysChem, 23 (5), e202100748. doi:10.1002/cphc.202100748
Heat generation and degradation mechanisms studied on Na₃V₂(PO₄)₃/C positive electrode material in full pouch / coin cell assembly
Mohsin, I. U.; Schneider, L.; Häringer, M.; Ziebert, C.; Rohde, M.; Bauer, W.; Ehrenberg, H.; Seifert, H. J.
2022. Journal of Power Sources, 545, Art.-Nr.: 231901. doi:10.1016/j.jpowsour.2022.231901VolltextVolltext der Publikation als PDF-Dokument
3D microstructure characterization of polymer battery electrodes by statistical image analysis based on synchrotron X-ray tomography
Neumann, M.; Ademmer, M.; Osenberg, M.; Hilger, A.; Wilde, F.; Muench, S.; Hager, M. D.; Schubert, U. S.; Manke, I.; Schmidt, V.
2022. Journal of Power Sources, 542, 231783. doi:10.1016/j.jpowsour.2022.231783VolltextVolltext der Publikation als PDF-Dokument
Layered P2-NaMnNiO Cathode Materials For Sodium-Ion Batteries: Synthesis, Electrochemistry and Influence of Ambient Storage
Pfeiffer, L. F.; Jobst, N.; Gauckler, C.; Lindén, M.; Marinaro, M.; Passerini, S.; Wohlfahrt-Mehrens, M.; Axmann, P.
2022. Frontiers in Energy Research, 10, Art.-Nr.: 910842. doi:10.3389/fenrg.2022.910842VolltextVolltext der Publikation als PDF-Dokument
Visualization of structural changes and degradation of porphyrin-based battery electrodes
Philipp, T.; Neusser, G.; Abouzari-Lotf, E.; Shakouri, S.; Wilke, F. D. H.; Fichtner, M.; Ruben, M.; Mundszinger, M.; Biskupek, J.; Kaiser, U.; Scheitenberger, P.; Lindén, M.; Kranz, C.
2022. Journal of Power Sources, 522, Art.-Nr.: 231002. doi:10.1016/j.jpowsour.2022.231002
Quantitative Comparison of Different Approaches for Reconstructing the Carbon‐Binder Domain from Tomographic Image Data of Cathodes in Lithium‐Ion Batteries and Its Influence on Electrochemical Properties
Prifling, B.; Neumann, M.; Hein, S.; Danner, T.; Heider, E.; Hoffmann, A.; Rieder, P.; Hilger, A.; Osenberg, M.; Manke, I.; Wohlfahrt-Mehrens, M.; Latz, A.; Schmidt, V.
2022. Energy Technology, Art.-Nr.: 2200784. doi:10.1002/ente.202200784VolltextVolltext der Publikation als PDF-Dokument
Enabling Modular Autonomous Feedback-Loops in Materials Science through Hierarchical Experimental Laboratory Automation and Orchestration
Rahmanian, F.; Flowers, J.; Guevarra, D.; Richter, M.; Fichtner, M.; Donnely, P.; Gregoire, J. M.; Stein, H. S.
2022. Advanced Materials Interfaces, 8 (9), 2101987. doi:10.1002/admi.202101987VolltextVolltext der Publikation als PDF-Dokument
One-shot active learning for globally optimal battery electrolyte conductivity
Rahmanian, F.; Vogler, M.; Wölke, C.; Yan, P.; Winter, M.; Cekic-Laskovic, I.; Stein, H. S.
2022. American Chemical Society (ACS). doi:10.26434/chemrxiv-2022-1z8gnVolltextVolltext der Publikation als PDF-Dokument
Investigation of the Anode-Electrolyte Interface in a Magnesium Full-Cell with Fluorinated Alkoxyborate-Based Electrolyte
Roy, A.; Bhagavathi Parambath, V.; Diemant, T.; Neusser, G.; Kranz, C.; Behm, R. J.; Li, Z.; Zhao-Karger, Z.; Fichtner, M.
2022. Batteries and Supercaps, 5 (4), Art.-Nr.: e202100305. doi:10.1002/batt.202100305VolltextVolltext der Publikation als PDF-Dokument
Transport Properties in Electrodes for Lithium-Ion Batteries: Comparison of Compact versus Porous NCM Particles
Schneider, L.; Klemens, J.; Herbst, E. C.; Müller, M.; Scharfer, P.; Schabel, W.; Bauer, W.; Ehrenberg, H.
2022. Journal of The Electrochemical Society, 169 (10), Art.-Nr.: 100553. doi:10.1149/1945-7111/ac9c37VolltextVolltext der Publikation als PDF-Dokument
Suitability of Carbazolyl Hauser and Turbo‐Hauser Bases as Magnesium‐Based Electrolytes
Schüler, P.; Sengupta, S.; Zaubitzer, S.; Fiesinger, F.; Dongmo, S.; Görls, H.; Wohlfahrt-Mehrens, M.; Borg, M.; Gaissmaier, D.; Krieck, S.; Marinaro, M.; Jacob, T.; Westerhausen, M.
2022. European Journal of Inorganic Chemistry, 2022 (17), Art.-Nr.: e202200149. doi:10.1002/ejic.202200149VolltextVolltext der Publikation als PDF-Dokument
From materials discovery to system optimization by integrating combinatorial electrochemistry and data science
Stein, H. S.; Sanin, A.; Rahmanian, F.; Zhang, B.; Vogler, M.; Flowers, J. K.; Fischer, L.; Fuchs, S.; Choudhary, N.; Schroeder, L.
2022. Current Opinion in Electrochemistry, 35, Art.-Nr.: 101053. doi:10.1016/j.coelec.2022.101053
Brokering between tenants for an international materials acceleration platform
Vogler, M.; Busk, J.; Hajiyani, H.; Jørgensen, P. B.; Safaei, N.; Castelli, I.; Ramírez, F. F.; Carlsson, J.; Pizzi, G.; Clark, S.; Hanke, F.; Bhowmik, A.; Stein, H. S.
2022. American Chemical Society (ACS). doi:10.26434/chemrxiv-2022-grgrdVolltextVolltext der Publikation als PDF-Dokument
P2-type layered high-entropy oxides as sodium-ion cathode materials
Wang, J.; Dreyer, S. L.; Wang, K.; Ding, Z.; Diemant, T.; Karkera, G.; Ma, Y.; Sarkar, A.; Zhou, B.; Gorbunov, M. V.; Omar, A.; Mikhailova, D.; Presser, V.; Fichtner, M.; Hahn, H.; Brezesinski, T.; Breitung, B.; Wang, Q.
2022. Materials Futures, 1 (3), Art.Nr. 035104. doi:10.1088/2752-5724/ac8ab9VolltextVolltext der Publikation als PDF-Dokument
A Novel and Highly Efficient Indolyl‐Based Electrolyte for Mg Batteries
Zaubitzer, S.; Dongmo, S.; Schüler, P.; Krieck, S.; Fiesinger, F.; Gaissmaier, D.; van den Borg, M.; Jacob, T.; Westerhausen, M.; Wohlfahrt-Mehrens, M.; Marinaro, M.
2022. Energy Technology, 10 (8), Art.-Nr.: 2200440. doi:10.1002/ente.202200440
Study on Na₂V₀₆₇Mn₀₃₃Ti(PO₄)₃ electrodes with ultralow voltage hysteresis for high performance sodium-ion batteries
Zhao, Z.; Darma, M. S. D.; Tian, G.; Luo, X.; Zhao, E.; Wang, B.-T.; Zhao, J.; Hua, W.; Zhao, X.; Wang, Y.; Ehrenberg, H.; Dsoke, S.
2022. Chemical Engineering Journal, 444, Article no: 136608. doi:10.1016/j.cej.2022.136608

2021

A Self-Conditioned Metalloporphyrin as a Highly Stable Cathode for Fast Rechargeable Magnesium Batteries
Abouzari-Lotf, E.; Azmi, R.; Li, Z.; Shakouri, S.; Chen, Z.; Zhao-Karger, Z.; Klyatskaya, S.; Maibach, J.; Ruben, M.; Fichtner, M.
2021. ChemSusChem, 14 (8), 1840–1846. doi:10.1002/cssc.202100340VolltextVolltext der Publikation als PDF-Dokument
Na₃V₂(PO₄)₃ - A Highly Promising Anode and Cathode Material for Sodium-Ion Batteries
Akçay, T.; Häringer, M.; Pfeifer, K.; Anhalt, J.; Binder, J. R.; Dsoke, S.; Kramer, D.; Mönig, R.
2021. ACS applied energy materials, 4 (11), 12688–12695. doi:10.1021/acsaem.1c02413VolltextVolltext der Publikation als PDF-Dokument
A Brief review of supercapacitors as a novel energy storage device
Bahmei, F.; Bahramifar, N.; Ghasemi, S.; Younesi, H.; Weil, M.
2021. Fuel, Elsevier 
Comparative patent analysis for the identification of global research trends for the case of battery storage, hydrogen and bioenergy
Baumann, M.; Domnik, T.; Haase, M.; Wulf, C.; Emmerich, P.; Rösch, C.; Zapp, P.; Naegler, T.; Weil, M.
2021. Technological forecasting and social change, 165, Art.-Nr.: 120505. doi:10.1016/j.techfore.2020.120505VolltextVolltext der Publikation als PDF-Dokument
Prospective Life Cycle Assessment of a Model Magnesium Battery
Bautista, S. P.; Weil, M.; Baumann, M.; Tomasini Montenegro, C.
2021. Energy technology, 9 (4), Art.-Nr. 2000964. doi:10.1002/ente.202000964VolltextVolltext der Publikation als PDF-Dokument
Sodium Cyclopentadienide as a New Type of Electrolyte for Sodium Batteries
Binder, M.; Mandl, M.; Zaubitzer, S.; Wohlfahrt-Mehrens, M.; Passerini, S.; Böse, O.; Danzer, M. A.; Marinaro, M.
2021. ChemElectroChem, 8 (2), 365–369. doi:10.1002/celc.202001290VolltextVolltext der Publikation als PDF-Dokument
Theoretical studies on the initial oxidation of metallic lithium anodes
Borg, M. van den; Gaissmaier, D.; Knobbe, E.; Fantauzzi, D.; Jacob, T.
2021. Applied Surface Science, 555, Art.-Nr.: 149447. doi:10.1016/j.apsusc.2021.149447
Kadi4Mat : A Research Data Infrastructure for Materials Science
Brandt, N.; Griem, L.; Herrmann, C.; Schoof, E.; Tosato, G.; Zhao, Y.; Zschumme, P.; Selzer, M.
2021. Data science journal, 20 (1), Art.-Nr.: 8. doi:10.5334/dsj-2021-008VolltextVolltext der Publikation als PDF-Dokument
Multiphase-field modeling of spinodal decomposition during intercalation in an Allen-Cahn framework
Daubner, S.; Kubendran Amos, P. G.; Schoof, E.; Santoki, J.; Schneider, D.; Nestler, B.
2021. Physical review materials, 5 (3), Article no: 035406. doi:10.1103/PhysRevMaterials.5.035406VolltextVolltext der Publikation als PDF-Dokument
On the Electrochemical Insertion of Mg2+in Na7V4(P2O7)4(PO4) and Na3V2(PO4)3 Host Materials
Dongmo, S.; Maroni, F.; Gauckler, C.; Marinaro, M.; Wohlfahrt-Mehrens, M.
2021. Journal of the Electrochemical Society, 168 (12), Art. Nr.: 120541. doi:10.1149/1945-7111/ac412b
Modeling of Electron‐Transfer Kinetics in Magnesium Electrolytes: Influence of the Solvent on the Battery Performance
Drews, J.; Jankowski, P.; Häcker, J.; Li, Z.; Danner, T.; García Lastra, J. M.; Vegge, T.; Wagner, N.; Friedrich, K. A.; Zhao-Karger, Z.; Fichtner, M.; Latz, A.
2021. ChemSusChem, 14 (21), 4820–4835. doi:10.1002/cssc.202101498VolltextVolltext der Publikation als PDF-Dokument
Energy Flow Analysis of Laboratory Scale Lithium-Ion Battery Cell Production
Erakca, M.; Baumann, M.; Bauer, W.; Biasi, L. de; Hofmann, J.; Bold, B.; Weil, M.
2021. iScience, 24 (5), Article: 102437. doi:10.1016/j.isci.2021.102437VolltextVolltext der Publikation als PDF-Dokument
Energieflussanalyse der Produktion von Lithium-Ionen Batteriezellen im Labormaßstab mit Vergleich verschiedener Produktionsskalen
Erakca, M.; Baumann, M.; Bauer, W.; Biasi, L. de; Ruhland, J.; Bold, B.; Weil, M.
2021. STORENERGY Congress (2021), Online, 17.–18. November 2021 
Challenges and Pitfalls of Conducting Prospective LCA for Emerging Technologies: The Example of Metal-Free Organic Batteries
Erakca, M.; Weil, M.; Bresser, D.; Bautista, S. P.
2021. 15th Conference Society And Materials (EcoSD 2021), Online, 10.–11. Mai 2021 
In operando study of orthorhombic V₂O₅ as positive electrode materials for K-ion batteries
Fu, Q.; Sarapulova, A.; Zhu, L.; Melinte, G.; Missyul, A.; Welter, E.; Luo, X.; Knapp, M.; Ehrenberg, H.; Dsoke, S.
2021. Journal of Energy Chemistry, 62, 627–636. doi:10.1016/j.jechem.2021.04.027VolltextVolltext der Publikation als PDF-Dokument
Electrochemical performance and reaction mechanism investigation of V₂O₅ positive electrode material for aqueous rechargeable zinc batteries
Fu, Q.; Wang, J.; Sarapulova, A.; Zhu, L.; Missyul, A.; Welter, E.; Luo, X.; Ding, Z.; Knapp, M.; Ehrenberg, H.; Dsoke, S.
2021. Journal of materials chemistry / A, 9 (31), 16776–16786. doi:10.1039/D1TA03518EVolltextVolltext der Publikation als PDF-Dokument
Accelerated Kinetics Revealing Metastable Pathways of Magnesiation-Induced Transformations in MnO Polymorphs
Hatakeyama, T.; Li, H.; Okamoto, N. L.; Shimokawa, K.; Kawaguchi, T.; Tanimura, H.; Imashuku, S.; Fichtner, M.; Ichitsubo, T.
2021. Chemistry of Materials, 33 (17), 6983–6996. doi:10.1021/acs.chemmater.1c02011VolltextVolltext der Publikation als PDF-Dokument
Multiphase-field model for surface diffusion and attachment kinetics in the grand-potential framework
Hoffrogge, P. W.; Mukherjee, A.; Nani, E. S.; Amos, P. G. K.; Wang, F.; Schneider, D.; Nestler, B.
2021. Physical review / E, 103 (3), Article no: 033307. doi:10.1103/PhysRevE.103.033307VolltextVolltext der Publikation als PDF-Dokument
Comprehensive characterization of propylene carbonate based liquid electrolyte mixtures for sodium-ion cells
Hofmann, A.; Wang, Z.; Bautista, S. P.; Weil, M.; Müller, F.; Löwe, R.; Schneider, L.; Mohsin, I. U.; Hanemann, T.
2021. Electrochimica acta, 403, Art.Nr.: 139670. doi:10.1016/j.electacta.2021.139670VolltextVolltext der Publikation als PDF-Dokument
Investigation of Parameters Influencing the Producibility of Anodes for Sodium-Ion Battery Cells
Hofmann, J.; Wurba, A.-K.; Bold, B.; Maliha, S.; Schollmeyer, P.; Fleischer, J.; Klemens, J.; Scharfer, P.; Schabel, W.
2021. Production at the leading edge of technology – Proceedings of the 10th Congress of the German Academic Association for Production Technology (WGP), Dresden, 23-24 September 2020. Ed.: B.-A. Behrens, 171–181, Springer. doi:10.1007/978-3-662-62138-7_18
Polyoxometalate Modified Separator for Performance Enhancement of Magnesium–Sulfur Batteries
Ji, Y.; Liu-Théato, X.; Xiu, Y.; Indris, S.; Njel, C.; Maibach, J.; Ehrenberg, H.; Fichtner, M.; Zhao-Karger, Z.
2021. Advanced Functional Materials, 31 (26), Art.-Nr.: 2100868. doi:10.1002/adfm.202100868VolltextVolltext der Publikation als PDF-Dokument
Online adaptive quantum characterization of a nuclear spin
Joas, T.; Schmitt, S.; Santagati, R.; Gentile, A. A.; Bonato, C.; Laing, A.; McGuinness, L. P.; Jelezko, F.
2021. npj Quantum information, 7 (1), 56. doi:10.1038/s41534-021-00389-zVolltextVolltext der Publikation als PDF-Dokument
Performance Study of MXene/Carbon Nanotube Composites for Current Collector‐ and Binder‐Free Mg–S Batteries
Kaland, H.; Håskjold Fagerli, F.; Hadler-Jacobsen, J.; Zhao-Karger, Z.; Fichtner, M.; Wiik, K.; Wagner, N. P.
2021. ChemSusChem, 14 (8), 1864–1873. doi:10.1002/cssc.202100173VolltextVolltext der Publikation als PDF-Dokument
Recent developments and future perspectives of anionic batteries
Karkera, G.; Reddy, M. A.; Fichtner, M.
2021. Journal of power sources, 481, Art.-Nr. 228877. doi:10.1016/j.jpowsour.2020.228877
Establishing a Stable Anode–Electrolyte Interface in Mg Batteries by Electrolyte Additive
Li, Z.; Diemant, T.; Meng, Z.; Xiu, Y.; Reupert, A.; Wang, L.; Fichtner, M.; Zhao-Karger, Z.
2021. ACS applied materials & interfaces, 13 (28), 33123–33132. doi:10.1021/acsami.1c08476VolltextVolltext der Publikation als PDF-Dokument
Simulating mechanical wave propagation within the framework of phase-field modelling
Liu, X.; Schneider, D.; Daubner, S.; Nestler, B.
2021. Computer methods in applied mechanics and engineering, 381, Article: 113842. doi:10.1016/j.cma.2021.113842VolltextVolltext der Publikation als PDF-Dokument
An Alternative Charge-Storage Mechanism for High-Performance Sodium-Ion and Potassium-Ion Anodes
Ma, Y.; Ma, Y.; Euchner, H.; Liu, X.; Zhang, H.; Qin, B.; Geiger, D.; Biskupek, J.; Carlsson, A.; Kaiser, U.; Groß, A.; Indris, S.; Passerini, S.; Bresser, D.
2021. ACS Energy Letters, 6 (3), 915–924. doi:10.1021/acsenergylett.0c02365
Perspective on ultramicroporous carbon as sulphur host for Li–S batteries
Maria Joseph, H.; Fichtner, M.; Munnangi, A. R.
2021. Journal of Energy Chemistry, 59, 242–256. doi:10.1016/j.jechem.2020.11.001
Surface Engineering of a Mg Electrode via a New Additive to Reduce Overpotential
Meng, Z.; Li, Z.; Wang, L.; Diemant, T.; Bosubabu, D.; Tang, Y.; Berthelot, R.; Zhao-Karger, Z.; Fichtner, M.
2021. ACS applied materials & interfaces, 13 (31), 37044–37051. doi:10.1021/acsami.1c07648VolltextVolltext der Publikation als PDF-Dokument
The metamorphosis of rechargeable magnesium batteries
Mohtadi, R.; Tutusaus, O.; Arthur, T. S.; Zhao-Karger, Z.; Fichtner, M.
2021. Joule, 5 (3), 581–617. doi:10.1016/j.joule.2020.12.021
Structural evolution of a PtRu catalyst in the oxidation of an organic molecule
Mueller, J. E.; Hoffmannová, H.; Hiratoko, T.; Krtil, P.; Jacob, T.
2021. Journal of Catalysis, 398, 89–101. doi:10.1016/j.jcat.2021.04.001
Structure-Property Relation of Trimethyl Ammonium Ionic Liquids for Battery Applications
Rauber, D.; Hofmann, A.; Philippi, F.; Kay, C. W. M.; Zinkevich, T.; Hanemann, T.; Hempelmann, R.
2021. Applied Sciences, 11 (12), 5679. doi:10.3390/app11125679VolltextVolltext der Publikation als PDF-Dokument
Degradation Effects in Metal-Sulfur Batteries
Richter, R.; Häcker, J.; Zhao-Karger, Z.; Danner, T.; Wagner, N.; Fichtner, M.; Friedrich, K. A.; Latz, A.
2021. ACS Applied Energy Materials, 4 (3), 2365–2376. doi:10.1021/acsaem.0c02888
Ionic and Thermal Transport in Na-Ion-Conducting Ceramic Electrolytes
Rohde, M.; Mohsin, I. U. I.; Ziebert, C.; Seifert, H. J.
2021. International journal of thermophysics, 42 (10), Art.-Nr.: 136. doi:10.1007/s10765-021-02886-xVolltextVolltext der Publikation als PDF-Dokument
Investigation of “NaCoTiO” as a multi-phase positive electrode material for sodium batteries
Sabi, N.; Sarapulova, A.; Indris, S.; Dsoke, S.; Trouillet, V.; Mereacre, L.; Ehrenberg, H.; Saadoune, I.
2021. Journal of power sources, 481, Article: 229120. doi:10.1016/j.jpowsour.2020.229120
Effect of tortuosity, porosity, and particle size on phase-separation dynamics of ellipsoid-like particles of porous electrodes: Cahn-Hilliard-type phase-field simulations
Santoki, J.; Daubner, S.; Schneider, D.; Kamlah, M.; Nestler, B.
2021. Modelling and simulation in materials science and engineering, 29 (6), Art.Nr. 065010. doi:10.1088/1361-651X/ac11bc
Mechanism of Magnesium Transport in Spinel Chalcogenides
Sotoudeh, M.; Dillenz, M.; Groß, A.
2021. Advanced Energy and Sustainability Research, 2 (12), Article no: 2100113. doi:10.1002/aesr.202100113VolltextVolltext der Publikation als PDF-Dokument
Phase-sensitive quantum spectroscopy with high-frequency resolution
Staudenmaier, N.; Schmitt, S.; McGuinness, L. P.; Jelezko, F.
2021. Physical Review A, 104 (2), Art.-Nr.: L020602. doi:10.1103/PhysRevA.104.L020602
High Entropy and Low Symmetry: Triclinic High-Entropy Molybdates
Stenzel, D.; Issac, I.; Wang, K.; Azmi, R.; Singh, R.; Jeong, J.; Najib, S.; Bhattacharya, S. S.; Hahn, H.; Brezesinski, T.; Schweidler, S.; Breitung, B.
2021. Inorganic chemistry, 60 (1), 115–123. doi:10.1021/acs.inorgchem.0c02501VolltextVolltext der Publikation als PDF-Dokument
ZnS nanoparticles embedded in N-doped porous carbon xerogel as electrode materials for sodium-ion batteries
Tian, G.; Song, Y.; Luo, X.; Zhao, Z.; Han, F.; Chen, J.; Huang, H.; Tang, N.; Dsoke, S.
2021. Journal of alloys and compounds, 877, Art.-Nr.: 160299. doi:10.1016/j.jallcom.2021.160299
Environmental assessment of a new generation battery: The magnesium-sulfur system
Tomasini Montenegro, C.; Peters, J. F.; Baumann, M.; Zhao-Karger, Z.; Wolter, C.; Weil, M.
2021. Journal of energy storage, 35, 102053. doi:10.1016/j.est.2020.102053
Preparation of intergrown P/O-type biphasic layered oxides as high-performance cathodes for sodium ion batteries
Wang, K.; Wu, Z.-G.; Melinte, G.; Yang, Z.-G.; Sarkar, A.; Hua, W.; Mu, X.; Yin, Z.-W.; Li, J.-T.; Guo, X.-D.; Zhong, B.-H.; Kübel, C.
2021. Journal of Materials Chemistry A, 9 (22), 13151–13160. doi:10.1039/d1ta00627dVolltextVolltext der Publikation als PDF-Dokument
Prospective sustainability analysis of present and future battery systems
Weil, M.; Baumann, M.; Peters, J.; Erakca, M.; Ersoy, H.; Jasper, F.; Liu, H.; Bautista, S.
2021. Cambridge University Energy Technology Society : Term Cards - Michaelmas (CUETS 2021), Cambridge, Vereinigtes Königreich, 9. November 2021 
Recycling von Li-Ionen Batterien – Heute und Morgen
Weil, M.; Erakca, M.; Peters, J.; Baumann, M.; Bautista, S.; Liu, H.; Ersoy, H.; Mandade, P.; Yang, J.; Jasper, F.; Emmerich, P.; Grunwald, A.
2021. STORENERGY Congress (2021), Online, 17.–18. November 2021 
Recycling of Different Battery Types: A First LCA-Based Sustainability Perspective
Weil, M.; Peters, J.; Baumann, M.; Erakca, M.; Bautista, S.; Liu, H.; Ersoy, H.
2021. 11th Advanced automotive battery conference Europe (AABC 2021 2021), Online, 19.–20. Januar 2021 
Batteries Europe - Task Force SUSTAINABILITY POSITION PAPER
Wiesner, E.; Bardé, F.; Weil, M.; Borbujo, Y. C.; Edström, K.; Kiuru, J.; Rizo-Martin, J.; Metz, P. de; Pettit, C.; Poliscanova, J.; Ramon, N. G.; Santos, C.
2021. Sustainability Task Force 
Nanodiamond Theranostic for Light-Controlled Intracellular Heating and Nanoscale Temperature Sensing
Wu, Y.; Alam, M. N. A.; Balasubramanian, P.; Ermakova, A.; Fischer, S.; Barth, H.; Wagner, M.; Raabe, M.; Jelezko, F.; Weil, T.
2021. Nano letters, 21 (9), 3780–3788. doi:10.1021/acs.nanolett.1c00043VolltextVolltext der Publikation als PDF-Dokument
Enhanced Potassium Storage Capability of Two-Dimensional Transition-Metal Chalcogenides Enabled by a Collective Strategy
Wu, Y.; Zhang, Q.; Xu, Y.; Xu, R.; Li, L.; Li, Y.; Zhang, C.; Zhao, H.; Wang, S.; Kaiser, U.; Lei, Y.
2021. ACS applied materials & interfaces, 13 (16), 18838–18848. doi:10.1021/acsami.1c01891

 

2020

Nanoscale Dynamic Readout of a Chemical Redox Process Using Radicals Coupled with Nitrogen-Vacancy Centers in Nanodiamonds
Barton, J.; Gulka, M.; Tarabek, J.; Mindarava, Y.; Wang, Z.; Schimer, J.; Raabova, H.; Bednar, J.; Plenio, M. B.; Jelezko, F.; Nesladek, M.; Cigler, P.
2020. ACS Nano, 14 (10), 12938–12950. doi:10.1021/acsnano.0c04010
Investigation on the formation of Mg metal anode/electrolyte interfaces in Mg/S batteries with electrolyte additives
Bhaghavathi Parambath, V.; Zhao-Karger, Z.; Diemant, T.; Jäckle, M.; Li, Z.; Scherer, T.; Gross, A.; Behm, R. J.; Fichtner, M.
2020. Journal of materials chemistry / A, 8 (43), 22998–23010. doi:10.1039/d0ta05762b
Stripping and Plating a Magnesium Metal Anode in Bromide‐Based Non‐Nucleophilic Electrolytes
Dongmo, S.; Zaubitzer, S.; Schüler, P.; Krieck, S.; Jörissen, L.; Wohlfahrt-Mehrens, M.; Westerhausen, M.; Marinaro, M.
2020. ChemSusChem, 13 (13), 3530–3538. doi:10.1002/cssc.202000249
Modeling of Ion Agglomeration in Magnesium Electrolytes and its Impacts on Battery Performance
Drews, J.; Danner, T.; Jankowski, P.; Vegge, T.; García Lastra, J. M.; Liu, R.; Zhao-Karger, Z.; Fichtner, M.; Latz, A.
2020. ChemSusChem, 13 (14), 3599–3604. doi:10.1002/cssc.202001034Full textFull text of the publication as PDF document
First results from in situ transmission electron microscopy studies of all-solid-state fluoride ion batteries
Fawey, M. H.; Chakravadhanula, V. S. K.; Munnangi, A. R.; Rongeat, C.; Hahn, H.; Fichtner, M.; Kübel, C.
2020. Journal of power sources, 466, Article: 228283. doi:10.1016/j.jpowsour.2020.228283
Phase transformation, charge transfer, and ionic diffusion of NaMnV(PO) in sodium-ion batteries: a combined first-principles and experimental study
Gao, X.; Lian, R.; He, L.; Fu, Q.; Indris, S.; Schwarz, B.; Wang, X.; Chen, G.; Ehrenberg, H.; Wei, Y.
2020. Journal of materials chemistry / A, 8 (34), 17477–17486. doi:10.1039/d0ta05929c
Dynamics of porous and amorphous magnesium borohydride to understand solid state Mg-ion-conductors
Heere, M.; Hansen, A.-L.; Payandeh, S. H.; Aslan, N.; Gizer, G.; Sørby, M. H.; Hauback, B. C.; Pistidda, C.; Dornheim, M.; Lohstroh, W.
2020. Scientific reports, 10 (1), Article No. 9080. doi:10.1038/s41598-020-65857-6Full textFull text of the publication as PDF document
Investigation of N and S Co-doped Porous Carbon for Sodium-Ion Battery, Synthesized by Using Ammonium Sulphate for Simultaneous Activation and Heteroatom Doping
Ikram, S.; Dsoke, S.; Sarapulova, A.; Müller, M.; Rana, U. A.; Siddiqi, H. M.
2020. Journal of the Electrochemical Society, 167 (10), Article: 100531. doi:10.1149/1945-7111/ab9a01
Multi‐Electron Reactions enabled by Anion‐Based Redox Chemistry for High‐Energy Multivalent Rechargeable Batteries
Li, Z.; Vinayan, B. P.; Jankowski, P.; Njel, C.; Roy, A.; Vegge, T.; Maibach, J.; Lastra, J. M. G.; Fichtner, M.; Zhao-Karger, Z.
2020. Angewandte Chemie / International edition, 59 (28), 11483–11490. doi:10.1002/anie.202002560Full textFull text of the publication as PDF document
A 3d-printed composite electrode for sustained electrocatalytic oxygen evolution
Liu, S.; Liu, R.; Gao, D.; Trentin, I.; Streb, C.
2020. Chemical communications, 56 (60), 8476–8479. doi:10.1039/D0CC03579C
Copper Porphyrin as a Stable Cathode for High‐Performance Rechargeable Potassium Organic Batteries
Lv, S.; Yuan, J.; Chen, Z.; Gao, P.; Shu, H.; Yang, X.; Liu, E.; Tan, S.; Ruben, M.; Zhao-Karger, Z.; Fichtner, M.
2020. ChemSusChem, 13 (9), 2286–2294. doi:10.1002/cssc.202000425
Understanding the mechanism of byproduct formation within operandosynchrotron techniques and its effects on the electrochemical performance of VO(B) nanoflakes in aqueous rechargeable zinc batteries
Pang, Q.; Zhao, H.; Lian, R.; Fu, Q.; Wei, Y.; Sarapulova, A.; Sun, J.; Wang, C.; Chen, G.; Ehrenberg, H.
2020. Journal of materials chemistry / A, 8 (19), 9567–9578. doi:10.1039/d0ta00858c
New maximally disordered – High entropy intermetallic phases (MD-HEIP) of the GdLaSnSbM (M=Li, Na, Mg): Synthesis, structure and some properties
Pavlyuk, V.; Balińska, A.; Rożdżyńska-Kiełbik, B.; Pavlyuk, N.; Dmytriv, G.; Stetskiv, A.; Indris, S.; Schwarz, B.; Ehrenberg, H.
2020. Journal of alloys and compounds, 838, Art. Nr.: 155643. doi:10.1016/j.jallcom.2020.155643
Choosing the right carbon additive is of vital importance for high-performance Sb-based Na-ion batteries
Pfeifer, K.; Arnold, S.; Budak, Ö.; Luo, X.; Presser, V.; Ehrenberg, H.; Dsoke, S.
2020. Journal of materials chemistry / A, 2020 (8), 6092–6104. doi:10.1039/D0TA00254BFull textFull text of the publication as PDF document
Controlled‐Atmosphere Flame Fusion Single‐Crystal Growth of Non‐Noble fcc, hcp, and bcc Metals Using Copper, Cobalt, and Iron
Schuett, F. M.; Esau, D.; Varvaris, K. L.; Gelman, S.; Björk, J.; Rosen, J.; Jerkiewicz, G.; Jacob, T.
2020. Angewandte Chemie / International edition, 59 (32), 13246–13252. doi:10.1002/anie.201915389Full textFull text of the publication as PDF document
A digital workflow for learning the reduced-order structure-property linkages for permeability of porous membranes
Yabansu, Y. C.; Altschuh, P.; Hötzer, J.; Selzer, M.; Nestler, B.; Kalidindi, S. R.
2020. Acta materialia, 195, 668–680. doi:10.1016/j.actamat.2020.06.003

 

2019

A Lithium‐Free Energy‐Storage Device Based on an Alkyne‐Substituted‐Porphyrin Complex
Chen, Z.; Gao, P.; Wang, W.; Klyatskaya, S.; Zhao-Karger, Z.; Wang, D.; Kübel, C.; Fuhr, O.; Fichtner, M.; Ruben, M.
2019. ChemSusChem, 12 (16), 3737–3741. doi:10.1002/CSSC.201901541Full textFull text of the publication as PDF document
Exploits, advances and challenges benefiting beyond Li-ion battery technologies
El Kharbachi, A.; Zavorotynska, O.; Latroche, M.; Cuevas, F.; Yartys, V.; Fichtner, M.
2019. Journal of alloys and compounds, 817, Article no: 153261. doi:10.1016/j.jallcom.2019.153261
Hetero-layered MoS/C composites enabling ultrafast and durable Na storage
Li, Z.; Liu, S.; Vinayan, B. P.; Zhao-Karger, Z.; Diemant, T.; Wang, K.; Behm, R. J.; Kübel, C.; Klingeler, R.; Fichtner, M.
2019. Energy storage materials, 21, 115–123. doi:10.1016/j.ensm.2019.05.042
Direct Conversion of CO₂ to Multi-Layer Graphene using Cu–Pd Alloys
Molina-Jirón, C.; Chellali, M. R.; Kumar, C. N. S.; Kübel, C.; Velasco, L.; Hahn, H.; Moreno-Pineda, E.; Ruben, M.
2019. ChemSusChem, 12 (15), 3509–3514. doi:10.1002/cssc.201901404
NiTiOPO phosphate: Sodium insertion mechanism and electrochemical performance in sodium-ion batteries
Nassiri, A.; Sabi, N.; Sarapulova, A.; Dahbi, M.; Indris, S.; Ehrenberg, H.; Saadoune, I.
2019. Journal of power sources, 418, 211–217. doi:10.1016/j.jpowsour.2019.02.038
Interface in Solid-State Lithium Battery: Challenges, Progress, and Outlook
Pervez, S. A.; Cambaz, M. A.; Thangadurai, V.; Fichtner, M.
2019. ACS applied materials & interfaces, 11 (25), 22029–22050. doi:10.1021/acsami.9b02675
A review of hard carbon anode materials for sodium-ion batteries and their environmental assessment
Peters, J. F.; Abdelbaky, M.; Baumann, M.; Weil, M.
2019. Matériaux & techniques, 107 (5), Article No. 503. doi:10.1051/mattech/2019029
Electromigration in Lithium Whisker Formation Plays Insignificant Role during Electroplating
Rulev, A. A.; Sergeev, A. V.; Yashina, L. V.; Jacob, T.; Itkis, D. M.
2019. ChemElectroChem, 6 (5), 1324–1328. doi:10.1002/celc.201801652
Insights into the electrochemical processes of rechargeable magnesium–sulfur batteries with a new cathode design
Vinayan, B. P.; Euchner, H.; Zhao-Karger, Z.; Cambaz, M. A.; Li, Z.; Diemant, T.; Behm, R. J.; Gross, A.; Fichtner, M.
2019. Journal of materials chemistry / A, 7 (44), 25490–25502. doi:10.1039/c9ta09155f
MgScSe - A Magnesium Solid Ionic Conductor for All-Solid-State Mg Batteries?
Wang, L.-P.; Zhao-Karger, Z.; Klein, F.; Chable, J.; Braun, T.; Schür, A. R.; Wang, C.-R.; Guo, Y.-G.; Fichtner, M.
2019. ChemSusChem, 12 (10), 2286–2293. doi:10.1002/cssc.201900225

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