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1. A review and outlook on anionic and cationic redox in Ni-, Li- and Mn-rich layered oxides LiMeO2 (Me = Li, Ni, Co, Mn)

Author

Ying, Bixian, Teng, Zhenjie, Day, Sarah, Porter, Dan, Winter, Martin, Jonas, Adrian, Frenzel, Katja, Mathies, Lena, Beckhoff, Burkhard, Nagel, Peter, Schuppler, Stefan, Merz, Michael, Pfeiffer, Felix, Weiling, Matthias, Baghernejad, Masoud, and Kleiner, Karin

Subjects
Condensed Matter - Materials Science
Abstract

The present work reviews the charge compensation in Ni based layered oxides (LiNi1-xMexO2 with x <= 0.2, Me = Co, Mn, space group R-3m) relating performance parameters to changes in the electronic and crystallographic structure of the cathode materials. Upon charge and discharge two fundamentally different redox mechanisms are observed: At low and medium states of charge (SOCs) charge compensation takes mainly place at oxygen sites while electron density is shifted from the oxygen lattice to nickel (formation of sigma bonds). At high SOCs the shift of electron density from the transition metals to oxygen (formation of pi bonds) enables an additional redox process but also oxygen release from the transition metal host structure and subsequent detrimental reactions. Depending on the Ni:Co:Mn content, both processes lead to characteristic features in the voltage profile of the cathode materials and performance parameters like the capacity, the cycling stability and the open cell voltage become a function of the composition.

Published
2023

6. Tracing the Cross‐Talk Phenomenon of Vinylethylene Carbonate to Unveil its Counterintuitive Influence as an Electrolyte Additive on High‐Voltage Lithium‐Ion Batteries.

Author

Pfeiffer, Felix, Griggio, Angela, Weiling, Matthias, Wang, Jian‐Fen, Reißig, Friederike, Peschel, Christoph, Pillatsch, Lex, Warrington, Stefan, Nowak, Sascha, Grimaudo, Valentine, Wright, Iain, and Baghernejad, Masoud

Subjects
SECONDARY ion mass spectrometry, INTERFACIAL reactions, FOCUSED ion beams, RAMAN spectroscopy, ELECTROLYTES
Abstract

The formation of effective interphases is crucial to enable high‐performance lithium‐ion batteries. This can be facilitated by the introduction of electrolyte additives, ensuring improved stability and transport properties. The identification of proper additives requires a comprehensive understanding of the fundamental mechanisms of interfacial reactions governing interphase formation. This study presents a detailed investigation of widely known and less conventional interphase‐forming additives in high‐voltage LiNi0.6Mn0.2Co0.2O2, NMC622||artificial graphite cells. The electrochemical characterization shows that cells containing vinylethylene carbonate (VEC) significantly outperform all other investigated electrolyte formulations. Surprisingly, gas chromatography‐mass spectroscopy measurements of the electrolyte composition after cycling indicate the formation of an ineffective solid‐electrolyte interphase (SEI) in the presence of VEC. A thorough analysis of the interfacial composition via operando shell‐isolated nanoparticle‐enhanced Raman spectroscopy (SHINERS) and surface‐enhanced Raman spectroscopy elucidates rather the formation of an effective cathode‐electrolyte interphase (CEI). This phenomenon results from the reductive reaction of VEC on the anode, followed by the product transfer and electro‐polymerization of reaction products on the cathode. Additionally, focused ion beam secondary ion mass spectrometry (FIB‐SIMS) with a time of flight (ToF)‐detector is used to analyze the elemental spatial distribution of Li‐species and Mn in the respective SEIs. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Fundamental Picture of the Conduction Mechanism in Solid-State Polymer Electrolytes Revealed by Terahertz Spectroscopy

Author

Weidelt, Johanna, primary, Nair, Jijeesh Ravi, additional, Diddens, Diddo, additional, Zhang, Wentao, additional, Pfeiffer, Felix, additional, de Oliveira Schneider, Tiago, additional, Meinert, Markus, additional, Hiraoka, Tomoki, additional, Nesterov, Linda, additional, Baghernejad, Masoud, additional, Turchinovich, Dmitry, additional, and Hafez, Hassan A., additional

Published
2024
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8. A quantum circuit rule for interference effects in single-molecule electrical junctions

Author

Manrique, David Zsolt, Huang, Cancan, Baghernejad, Masoud, Zhao, Xiaotao, Al-Owaedi, Oday A., Sadeghi, Hatef, Kaliginedi, Veerabhadrarao, Hong, Wenjing, Gulcur, Murat, Wandlowski, Thomas, Bryce, Martin R., and Lambert, Colin J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A quantum circuit rule for combining quantum interference (QI) effects in the conductive properties of oligo(phenyleneethynylene) (OPE)-type molecules possessing three aromatic rings was investigated both experimentally and theoretically. Molecules were of the type X-Y-X, where X represents pyridyl anchors with para (p), meta (m) or ortho (o) connectivities and Y represents a phenyl ring with p and m connectivities. The conductances GXmX (GXpX) of molecules of the form X-m-X (X-p-X), with meta (para) connections in the central ring were predominantly lower (higher), irrespective of the meta, para, or ortho nature of the anchor groups X, demonstrating that conductance is dominated by the nature of QI in the central ring Y. The single-molecule conductances were found to satisfy the quantum circuit rule Gppp/Gpmp = Gmpm/Gmmm. This demonstrates that the contribution to the conductance from the central ring is independent of the para versus meta nature of the anchor groups.

Published
2015
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13. Terahertz conductivity of polymer electrolytes

Author

Jarrahi, Mona, Preu, Sascha, Turchinovich, Dmitry, Hafez, Hassan A., Weidelt, Johanna, Nair, Jijeesh Ravi, Diddens, Diddo, Zhang, Wentao, Pfeiffer, Felix, de Oliveira Schneider, Tiago, Meinert, Markus, Hiraoka, Tomoki, Nesterov, Linda, Baghernejad, Masoud, and Turchinovich, Dmitry

Published
2024
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14. Blended Salt Electrolyte Design for Enhanced NMC811||Graphite Cell Performance.

Author

Yan, Peng, Shevchuk, Mykhailo, Wölke, Christian, Pfeiffer, Felix, Berghus, Debbie, Baghernejad, Masoud, Röschenthaler, Gerd‐Volker, Winter, Martin, and Cekic‐Laskovic, Isidora

Subjects
ELECTROLYTES, CYTOCHEMISTRY, SOLID electrolytes, ENERGY density, SALT, ELECTROCHEMICAL electrodes, POLYMER blends
Abstract

The high energy density, nickel‐rich layered cathode material LiNi0.8Mn0.1Co0.1O2 (NMC811) is recognized as a promising candidate for next‐generation battery chemistries. However, due to their structural and interfacial instability, nickel‐rich NMC cathodes still face a number of challenges in practical application. For this reason, the design and development of novel electrolyte formulations, able to stabilize the nickel‐rich cathode|electrolyte interface, are highly demanded. In this work, a novel electrolyte is developed using lithium (difluoromethanesulfonyl) (trifluoromethanesulfonyl)imide (LiDFTFSI) and lithium hexafluorophosphate (LiPF6) as salt blend in an organic carbonate‐solvent based solvent mixture. The presence of LiDFTFSI notably enhances the electrochemical performance of the resulting NMC811||graphite cells. Further advancement of the considered cell chemistry is achieved by introducing the well‐known functional electrolyte additive vinylene carbonate (VC), which was found to feature a synergistic effect with LiDFTFSI. The formation of a homogenous, effective, and robust solid electrolyte interphase (SEI) as well as cathode electrolyte interphase (CEI) on the corresponding electrodes resulted in superior electrochemical performance. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Molecular‐Cling‐Effect of Fluoroethylene Carbonate Characterized via Ethoxy(pentafluoro)cyclotriphosphazene on SiOx/C Anode Materials – A New Perspective for Formerly Sub‐Sufficient SEI Forming Additive Compounds (Small 44/2023)

Author

Ghaur, Adjmal, primary, Pfeiffer, Felix, additional, Diddens, Diddo, additional, Peschel, Christoph, additional, Dienwiebel, Iris, additional, Du, Leilei, additional, Profanter, Laurin, additional, Weiling, Matthias, additional, Winter, Martin, additional, Placke, Tobias, additional, Nowak, Sascha, additional, and Baghernejad, Masoud, additional

Published
2023
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16. Rethinking the Role of Formerly Sub-Sufficient Industrial/Synthesized SEI Additive Compounds - a New Perspective

Author

Ghaur, Adjmal, primary, Pfeiffer, Felix, additional, Diddens, Diddo, additional, Peschel, Christoph, additional, Dienwiebel, Iris, additional, Du, Leilei, additional, Profanter, Laurin, additional, Weiling, Matthias, additional, Winter, Martin, additional, Placke, Tobias, additional, Nowak, Sascha, additional, and Baghernejad, Masoud, additional

Published
2023
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18. Mechanistic Understanding of Additive Reductive Degradation and SEI Formation in High‐Voltage NMC811||SiOx‐Containing Cells via Operando ATR‐FTIR Spectroscopy.

Author

Weiling, Matthias, Lechtenfeld, Christian, Pfeiffer, Felix, Frankenstein, Lars, Diddens, Diddo, Wang, Jian‐Fen, Nowak, Sascha, and Baghernejad, Masoud

Abstract

The implementation of silicon (Si)‐containing negative electrodes is widely discussed as an approach to increase the specific capacity of lithium‐ion batteries. However, challenges caused by severe volume changes and continuous (re‐)formation of the solid‐electrolyte interphase (SEI) on Si need to be overcome. The volume changes lead to electrolyte consumption and active lithium loss, decaying the cell performance and cycle life. Herein, the additive 2‐sulfobenzoic acid anhydride (2‐SBA) is utilized as an SEI‐forming electrolyte additive for SiOx‐containing anodes. The addition of 2‐SBA to a state‐of‐the‐art carbonate‐based electrolyte in high‐voltage LiNi0.8Mn0.1Co0.1O2, NMC811||artificial graphite +20% SiOx pouch cells leads to improved electrochemical performance, resulting in a doubled cell cycle life. The origin of the enhanced cell performance is mechanistically investigated by developing an advanced experimental technique based on operando attenuated total reflection Fourier‐transform infrared (ATR‐FTIR) spectroscopy. The operando ATR‐FTIR spectroscopy results elucidate the degradation mechanism via anhydride ring‐opening reactions after electrochemical reduction on the anode surface. Additionally, ion chromatography conductivity detection mass spectrometry, scanning electron microscopy, energy dispersive X‐ray analysis, and quantum chemistry calculations are employed to further elucidate the working mechanisms of the additive and its degradation products. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Quadrupled Cycle Life of High‐Voltage Nickel‐Rich Cathodes: Understanding the Effective Thiophene‐Boronic Acid‐Based CEI via Operando SHINERS

Author

Pfeiffer, Felix, Diddens, Diddo, Weiling, Matthias, Frankenstein, Lars, Kühn, Sebastian, Cekic-Laskovic, Isidora, and Baghernejad, Masoud

Subjects
ddc:050, Renewable Energy, Sustainability and the Environment, General Materials Science
Abstract

Advanced energy materials 13(25), 2300827 (2023). doi:10.1002/aenm.202300827, Increasing the cell voltage of lithium-ion batteries (LIBs) is a straightforward approach to increasing their capacity and energy density. However, state-of-the-art cathode materials like LiNixMnyCo1-x-yO2 (NMC) suffer from severe failure mechanisms at high operating voltages, significantly degrading the performance and cycle life of the cells. Notably, an effective cathode electrolyte interphase (CEI) mitigates these failure mechanisms. Nevertheless, a deep understanding of the formation mechanisms and properties of the CEI is necessary to tailor effective interphases. This study introduces a promising electrolyte additive for high operating voltage NMC811||graphite cells. Implementing an optimized concentration of 3-thiophene boronic acid (3-Thp-BOH) significantly enhances the cells' performance and reduces capacity fading, resulting in a quadrupled cycle life and a six-times higher accumulated specific energy. Operando shell-isolated nanoparticle-enhanced Raman spectroscopy (SHINERS) is employed to shed light on the formation mechanism and molecular composition of CEI during cell operation, proving that the presence of the additive results in the formation of a complex 3-Thp-BOH-based polymeric CEI on the NMC811 surface. The CEI investigation is additionally supported by scanning electron microscopy and energy dispersive X-ray analysis and highly accurate quantum chemistry modeling of the suggested polymerization mechanisms., Published by Wiley-VCH, Weinheim

Published
2023
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34. Constructive Quantum Interference in Single‐Molecule Benzodichalcogenophene Junctions

Author

Baghernejad, Masoud, primary, Yang, Yang, additional, Al‐Owaedi, Oday A., additional, Aeschi, Yves, additional, Zeng, Biao‐Feng, additional, Abd Dawood, Zahra Murtada, additional, Li, Xiaohui, additional, Liu, Junyang, additional, Shi, Jia, additional, Decurtins, Silvio, additional, Liu, Shi‐Xia, additional, Hong, Wenjing, additional, and Lambert, Colin J., additional

Published
2020
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38. Single-molecule detection of dihydroazulene photo-thermal reaction using break junction technique

Author

Huang, Cancan, Jevric, Martyn, Borges, Anders, Olsen, Stine T., Hamill, Joseph M., Zheng, Jue-Ting, Yang, Yang, Rudnev, Alexander, Baghernejad, Masoud, Broekmann, Peter, Petersen, Anne Ugleholdt, Wandlowski, Thomas, Mikkelsen, Kurt V., Solomon, Gemma C., Nielsen, Mogens Brøndsted, Hong, Wenjing, Huang, Cancan, Jevric, Martyn, Borges, Anders, Olsen, Stine T., Hamill, Joseph M., Zheng, Jue-Ting, Yang, Yang, Rudnev, Alexander, Baghernejad, Masoud, Broekmann, Peter, Petersen, Anne Ugleholdt, Wandlowski, Thomas, Mikkelsen, Kurt V., Solomon, Gemma C., Nielsen, Mogens Brøndsted, and Hong, Wenjing

Abstract

Charge transport by tunnelling is one of the most ubiquitous elementary processes in nature. Small structural changes in a molecular junction can lead to significant difference in the single-molecule electronic properties, offering a tremendous opportunity to examine a reaction on the single-molecule scale by monitoring the conductance changes. Here, we explore the potential of the single-molecule break junction technique in the detection of photo-thermal reaction processes of a photochromic dihydroazulene/vinylheptafulvene system. Statistical analysis of the break junction experiments provides a quantitative approach for probing the reaction kinetics and reversibility, including the occurrence of isomerization during the reaction. The product ratios observed when switching the system in the junction does not follow those observed in solution studies (both experiment and theory), suggesting that the junction environment was perturbing the process significantly. This study opens the possibility of using nano-structured environments like molecular junctions to tailor product ratios in chemical reactions.

Published
2017

39. Single-molecule detection of dihydroazulene photo-thermal reaction using break junction technique

Author

Huang, Cancan, primary, Jevric, Martyn, additional, Borges, Anders, additional, Olsen, Stine T., additional, Hamill, Joseph M., additional, Zheng, Jue-Ting, additional, Yang, Yang, additional, Rudnev, Alexander, additional, Baghernejad, Masoud, additional, Broekmann, Peter, additional, Petersen, Anne Ugleholdt, additional, Wandlowski, Thomas, additional, Mikkelsen, Kurt V., additional, Solomon, Gemma C., additional, Brøndsted Nielsen, Mogens, additional, and Hong, Wenjing, additional

Published
2017
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42. Synthesis and Single‐Molecule Conductance Study of Redox‐Active Ruthenium Complexes with Pyridyl and Dihydrobenzo[b]thiophene Anchoring Groups

Author

Ozawa, Hiroaki, primary, Baghernejad, Masoud, additional, Al‐Owaedi, Oday A., additional, Kaliginedi, Veerabhadrarao, additional, Nagashima, Takumi, additional, Ferrer, Jaime, additional, Wandlowski, Thomas, additional, García‐Suárez, Víctor M., additional, Broekmann, Peter, additional, Lambert, Colin J., additional, and Haga, Masa‐aki, additional

Published
2016
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43. Charge Transport in C60-Based Dumbbell-type Molecules: Mechanically Induced Switching between Two Distinct Conductance States

Author

Moreno García, Pavel, La Rosa, Andrea, Kolivoska, Viliam, Bermejo, Daniel, Hong, Wenjing, Yoshida, Koji, Baghernejad, Masoud, Filippone, Salvatore, Broekmann, Peter, Wandlowski, Thomas, Martín, Nazario, Moreno García, Pavel, La Rosa, Andrea, Kolivoska, Viliam, Bermejo, Daniel, Hong, Wenjing, Yoshida, Koji, Baghernejad, Masoud, Filippone, Salvatore, Broekmann, Peter, Wandlowski, Thomas, and Martín, Nazario

Abstract

Single molecule charge transport characteristics of buckminsterfullerene-capped symmetric fluorene-based dumbbell-type compound 1 were investigated by scanning tunneling microscopy break junction (STM-BJ), current sensing atomic force microscopy break junction (CS-AFM-BJ), and mechanically controlled break junction (MCBJ) techniques, under ambient conditions. We also show that compound 1 is able to form highly organized defect-free surface adlayers, allowing the molecules on the surface to be addressed specifically. Two distinct single molecule conductance states (called high GH1 and low GL1) were observed, depending on the pressure exerted by the probe on the junction, thus allowing molecule 1 to function as a mechanically driven molecular switch. These two distinct conductance states were attributed to the electron tunneling through the buckminsterfullerene anchoring group and fully extended molecule 1, respectively. The assignment of conductance features to these configurations was further confirmed by control experiments with asymmetrically designed buckminsterfullerene derivative 2 as well as pristine buckminsterfullerene 3, both lacking the GL feature., Unión Europea. FP7, European Commission, Ministerio de Economía y Competitividad (MINECO), Swiss National Science Foundation, German Science Foundation, UK EPSRC, CONACyT, Mexico, SCIEX, Grant Agency of the Czech Republic, Alexander von Humboldt Foundation, Depto. de Química Orgánica, Fac. de Ciencias Químicas, TRUE, pub

Published
2015

44. Three-state single-molecule naphthalenediimide switch:integration of a pendant redox unit for conductance tuning

Author

Li, Yonghai, Baghernejad, Masoud, Al Galiby, Qusiy, Manrique, David Zsolt, Zhang, Guanxin, Hamill, Joseph, Fu, Yongchun, Broekmann, Peter, Hong, Wenjing, Wandlowski, Thomas, Zhang, Deqing, Lambert, Colin, Li, Yonghai, Baghernejad, Masoud, Al Galiby, Qusiy, Manrique, David Zsolt, Zhang, Guanxin, Hamill, Joseph, Fu, Yongchun, Broekmann, Peter, Hong, Wenjing, Wandlowski, Thomas, Zhang, Deqing, and Lambert, Colin

Abstract

We studied charge transport through core-substituted naphthalenediimide (NDI) single-molecule junctions using the electrochemical STM-based break-junction technique in combination with DFT calculations. Conductance switching among three well-defined states was demonstrated by electrochemically controlling the redox state of the pendent diimide unit of the molecule in an ionic liquid. The electrical conductances of the dianion and neutral states differ by more than one order of magnitude. The potential-dependence of the charge-transport characteristics of the NDI molecules was confirmed by DFT calculations, which account for electrochemical double-layer effects on the conductance of the NDI junctions. This study suggests that integration of a pendant redox unit with strong coupling to a molecular backbone enables the tuning of charge transport through single-molecule devices by controlling their redox states.

Published
2015

45. Controlling Electrical Conductance through a π‐Conjugated Cruciform Molecule by Selective Anchoring to Gold Electrodes

Author

Huang, Cancan, primary, Chen, Songjie, additional, Baruël Ørnsø, Kristian, additional, Reber, David, additional, Baghernejad, Masoud, additional, Fu, Yongchun, additional, Wandlowski, Thomas, additional, Decurtins, Silvio, additional, Hong, Wenjing, additional, Thygesen, Kristian Sommer, additional, and Liu, Shi‐Xia, additional

Published
2015
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46. Three-State Single-Molecule Naphthalenediimide Switch: Integration of a Pendant Redox Unit for Conductance Tuning

Author

Li, Yonghai, primary, Baghernejad, Masoud, additional, Qusiy, Al-Galiby, additional, Zsolt Manrique, David, additional, Zhang, Guanxin, additional, Hamill, Joseph, additional, Fu, Yongchun, additional, Broekmann, Peter, additional, Hong, Wenjing, additional, Wandlowski, Thomas, additional, Zhang, Deqing, additional, and Lambert, Colin, additional

Published
2015
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48. A quantum circuit rule for interference effects in single-molecule electrical junctions

Author

Manrique, David Zsolt, primary, Huang, Cancan, additional, Baghernejad, Masoud, additional, Zhao, Xiaotao, additional, Al-Owaedi, Oday A., additional, Sadeghi, Hatef, additional, Kaliginedi, Veerabhadrarao, additional, Hong, Wenjing, additional, Gulcur, Murat, additional, Wandlowski, Thomas, additional, Bryce, Martin R., additional, and Lambert, Colin J., additional

Published
2015
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49. Charge Transport in C60-Based Dumbbell-type Molecules: Mechanically Induced Switching between Two Distinct Conductance States

Author

Moreno-García, Pavel, primary, La Rosa, Andrea, additional, Kolivoška, Viliam, additional, Bermejo, Daniel, additional, Hong, Wenjing, additional, Yoshida, Koji, additional, Baghernejad, Masoud, additional, Filippone, Salvatore, additional, Broekmann, Peter, additional, Wandlowski, Thomas, additional, and Martín, Nazario, additional

Published
2015
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50. Highly-effective gating of single-molecule junctions:an electrochemical approach

Author

Baghernejad, Masoud, Manrique, David Zsolt, Li, Chen, Pope, Thomas, Zhumaev, Ulmas, Pobelov, Ilya, Moreno-Garcia, Pavel, Kaliginedi, Veerabhadrarao, Huang, Cancan, Hong, Wenjing, Lambert, Colin, Wandlowski, Thomas, Baghernejad, Masoud, Manrique, David Zsolt, Li, Chen, Pope, Thomas, Zhumaev, Ulmas, Pobelov, Ilya, Moreno-Garcia, Pavel, Kaliginedi, Veerabhadrarao, Huang, Cancan, Hong, Wenjing, Lambert, Colin, and Wandlowski, Thomas

Abstract

We report an electrochemical gating approach with similar to 100% efficiency to tune the conductance of single-molecule 4,40' bipyridine junctions using scanning-tunnelling-microscopy break junction technique. Density functional theory calculation suggests that electrochemical gating aligns molecular frontier orbitals relative to the electrode Fermi level, switching the molecule from an off resonance state to "partial'' resonance.

Published
2014

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