2019 · 2019-10-09 · 3 kwh--kwh p3 electrify more than 15 years of experience in the key...

ADVANCED LITHIUM BATTERIES FOR AUTOMOBILE APPLICATIONS

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6–9 OCTOBER

2019ULM l GERMANY

INTERNATIONAL CONFERENCE

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P3 ELECTRIFY � MORE THAN 15 YEARS OF EXPERIENCE IN THE KEY TECHNOLOGIES IN E�MOBILITY

P3 speaks technology and thinks strategically - we act as leading technology consultancy with about 120 consultants in all aspects of electric mobility.

With more than ten years of professional exper� se, we support our customers in a targeted manner and advise them in diff erent areas: cell & ba� ery technology, charging infrastructure and electric powertrain.

Inspired by our customer por� olio from suppliers to medium-sized companies to large corpora� ons in the automo� ve and energy industries we jointly explore the future prospects of a new form of mobility.

P3 � YOUR PARTNER IN

ELECTRIC MOBILITY

ARE YOU INTERESTED? CONTACT US

Robert [email protected]

+49 (0) 163 753 36 25

P3 automo� ve GmbH www.p3-group.com

3

kWh

--

kWh

kWh

P3 ELECTRIFY � MORE THAN 15 YEARS OF EXPERIENCE IN THE KEY TECHNOLOGIES IN E�MOBILITY

P3 speaks technology and thinks strategically - we act as leading technology consultancy with about 120 consultants in all aspects of electric mobility.

With more than ten years of professional exper� se, we support our customers in a targeted manner and advise them in diff erent areas: cell & ba� ery technology, charging infrastructure and electric powertrain.

Inspired by our customer por� olio from suppliers to medium-sized companies to large corpora� ons in the automo� ve and energy industries we jointly explore the future prospects of a new form of mobility.

P3 � YOUR PARTNER IN

ELECTRIC MOBILITY

ARE YOU INTERESTED? CONTACT US

Robert [email protected]

+49 (0) 163 753 36 25

P3 automo� ve GmbH www.p3-group.com

Table of conTenTs

Organisation and imprint .......................................................................................................... 4

Welcome note ........................................................................................................................... 5

Programme overview ................................................................................................................ 6

Scientific programme Monday, 7 October ...................................................................................................... 8 Tuesday, 8 October ....................................................................................................... 10 Wednesday, 9 October ................................................................................................. 12

Poster session • Monday, 7 October & Tuesday, 8 October .................................................... 14

Sponsors, exhibitors and media cooperations ......................................................................... 32

Room and exhibition map ......................................................................................................... 34

Social and cultural programme ................................................................................................. 36

General information .................................................................................................................. 38

Index of presenting authors and chairs .................................................................................... 42

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organisaTion and imprinT

Venue Maritim Hotel UlmBasteistraße 4089073 Ulm (DE)

conference websiTewww.abaa12.org

HosTing socieTyInternational Automotive Lithium Battery Association (IALB)Khalil AmineArgonne National Laboratory

conference cHairsDr. Margret Wohlfahrt-MehrensZentrum für Sonnenenergie- und Wasserstoff-ForschungBaden-Württemberg (ZSW)

Prof. Dr. Stefano PasseriniHelmholtz Institute Ulm (HIU)

local organising commiTTeeDr. Dominic BresserDr. Alberto VarziHelmholtz Institute Ulm (HIU)

Dr. Mario MarinaroDr. Thomas WaldmannZentrum für Sonnenenergie- und Wasserstoff-ForschungBaden-Württemberg (ZSW)

conference organisaTionConventus Congressmanagement & Marketing GmbHSandra Gottschalg/Katarina SingerCarl-Pulfrich-Straße 1 • 07745 Jena (DE)Phone +49 3641 31 16-350 • Fax +49 3641 31 [email protected]• www.conventus.de

design/layouTLayout krea.tif-studio UG (limited liability)Print Silber Druck oHGCirculation 500Editorial deadline 19.09.2019

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welcome noTe

A cordially welcome!

On behalf of the Helmholtz Institute Ulm (HIU) and the Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW), we would like to welcome you at the ABAA12 conference here in Ulm. We are proud to present you an outstanding programme including over 40 talks by top speakers from industry, science, and politics, as well as poster sessions that will cover the whole value chain for automotive Li-ion batteries. The scientific programme is accompanied by an industrial exhibition and social programme that will give you the opportunity to establish new contacts with experts from international automotive, material, and cell manufacturer industry and academia.

Here in Ulm, the birthplace of Albert Einstein, you should also take some time to climb the world’s highest church steeple and enjoy the view over the historic city of Ulm and the River Danube. A walk through the Fisherman’s quarter with it`s half-timbered houses and picturesque footbridges is also highly recommended.

We, the organizers wish you very interesting days and fruitful discussions.

Conference co-Organisers Local Organising CommitteeMargret Wohlfahrt-Mehrens Dominic BresserStefano Passerini Mario Marinaro Alberto Varzi Thomas Waldmann

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programme oVerView

Sunday, 6 Oct. Monday, 7 Oct. Wednesday, 9 Oct.

Laboratories of HIU and ZSW

Meeting Room Battery Quiz Lecture Hall Lecture Hall Ratskeller Lecture Hall

15:00–18:00 08:40–09:00 08:30–10:15 08:30–10:15Opening ceremony

09:00–11:05

10:45–12:25 10:45–12:00

11:35–12:25

18:30–19:30

13:30–15:40

14:00–15:40 14:00–15:15

15:45–17:00 15:40–16:0016:10–17:55 Closing remarks

17:00–19:00

20:00–23:00

Pre-Conference Event

Opening ceremonySymposiumPosterSocial programmeClosing ceremony

Morning Session 1

Morning Session 2

Afternoon Session 1

Tuesday, 8 Oct.

Morning Session 1

Morning Session 2

Afternoon Session 1

Afternoon Session 2

Poster Session

Conference Banquet

Tour of HIU and ZSW laboratories

Battery Quiz

Morning Session 1

Morning Session 2

Afternoon Session 1

Afternoon Session 2

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P. 11

P. 11

P. 10

P. 10

P. 10

P. 9

P. 8

P. 8

P. 8

P. 8

P. 18

P. 18

P. 12

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P. 13

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wissenscHafTlicHes programm

8

Scientific programme • monday, 7 october

08:40–09:00 Opening ceremonyRoom Lecture Hall

09:00–11:05 Morning Session 1Room Lecture HallChairs Jud W. Virden (Pacific Northwest National Laboratory), Peter Lamp (BMW)

09:00 Enabling innovations from fundamentals to applications – the battery research strategy of the German Federal Ministry of Education and Research Peter Schroth (Federal Ministy of Education and Research Germany)

09:25 European Commission’s policiy priorities in batteries Julija Sakovica (EU Commission)

09:50 U.S. D.O.E. advanced automotive batteries research overview Peter Faguy (U.S. Department of Energy)

10:15 NEDO’s R&D strategies of next-generation batteries Kei Hosoi (NEDO)

10:40 Overview of China’s battery and EV activities Hong Li (Chinese Academy of Sciences)

11:35–12:25 Morning Session 2Room Lecture HallChair Jörg Huslage (Volkswagen AG), Venkat Srinivasan (Argonne National Laboratory)

11:35 Perspectives and challenges of next generation automotive Li-ion cells Peter Lamp (BMW)

12:00 Key aspects associated with the charging of lithium-ion batteries Mark Verbrugge (General Motors Company)

14:00–15:40 Afternoon Session 1Room Lecture HallChairs Mark Verbrugge (General Motors Company) Peter Schroth (Federal Ministy of Education and Research Germany)

14:00 From raw materials to high-voltage batteries – new materials and concepts for sustainable electric mobility Andreas Hintennach (Daimler AG)

14:25 Current status and challenges of high-capacity lithium-ion battery research at Nissan Atsushi Ohma (Nissan)

14:50 Battery development at Volkswagen Jörg Huslage (Volkswagen AG)

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Scientific programme • monday, 7 october

15:15 Battery research from Renault perspective Pierre Tran-Van (Renault)

16:10–17:55 Afternoon Session 2Room Lecture HallChairs Xiao-Qing Yang (Brookhaven National Laboratory) Kristina Edström (Uppsala University)

16:10 Plenary lecture: Lithium metal anodes – materials mesign, interface and characterization Yi Cui (Stanford University)

16:40 Battery500 Consortium – addressing the fundamental challenges to enable next-generation battery technologies Jie Xiao (Pacific Northwest National Laboratory)

17:05 All-solid-state batteries – from sulfide-based electrolyte to halide-based electrolyte Andy Sun (University of Western Ontario)

17:30 Maintaining a high energy density of the lithium-rich layered oxides (LLO) and new lithium diffusion model for LLO Kisuk Kang (Seoul National University)

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Scientific programme • tueSday, 8 october

08:30–10:15 Morning Session 1Room Lecture HallChairs Dominique Guyomard (CNRS - University of Nantes) Jang Wook Choi (Seoul National University)

08:30 Plenary lecture: Solid electrolytes vs. liquid electrolytes in batteries – a deeper look inside Jürgen Janek (Justus-Liebig-Universität Gießen)

09:00 Beyond dendrites, cycling Li-metal across garnet at high current densities Eric Wachsman (University of Maryland)

09:25 Designing interfaces in solid state batteries to minimize chemo-mechanical failure Venkat Srinivasan (Argonne National Laboratory)

09:50 How to prevent aging of commercial batteries for automotive applications? Kristina Edström (Uppsala University)

10:45–12:25 Morning Session 2Room Lecture HallChairs Eric Wachsman (University of Maryland) Jürgen Janek (Justus-Liebig-Universität Gießen)

10:45 Current R&D status of Northvolt AB Hwamyung Jang (Northvolt AB)

11:10 Ultra fast charging battery for EV application Wenjuan Mattis (Microvast Inc., China)

11:35 Development of lithium-ion batteries using TiNb2O7 anodes for automotive applications Norio Takami (Toshiba)

12:00 Solid state Li-metal batteries from materials to systems Karim Zaghib (Centre of Excellence in Transportation Electrification and Energy Storage Hydro-Québec)

14:00–15:15 Afternoon Session 1Room Lecture HallChairs Mario Marinaro (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg), Mark Copley (The University of Warwick)

14:00 BASF’s approach to improve cost performance of cathode materials for electromobility Andreas Fischer (Battery Research and Electrochemistry (BASF SE Ludwigshafen)

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Scientific programme • tueSday, 8 october

14:25 Innovative cathode materials for lithium-ion batteries Moon Ho Choi (ECOPRO Co. Ltd.)

14:50 Cathode material development enabling mass-market xEV’s – an Umicore perspective Paul Spurk (Umicore AG & Co. KG)

15:45–17:00 Afternoon Session 2Room Lecture HallChairs Nick Wu (National Taiwan University), Jie Xiao (Pacific Northwest National Laboratory)

15:45 Towards green and sustainable organic batteries for automotive applications Dominique Guyomard (CNRS - University of Nantes)

16:10 Structural water containing materials for post-lithium-ion batteries Jang Wook Choi (Seoul National University)

16:35 Magnesium and lithium metal anodes – Future battery technologies side-by-side? Martin Winter (Forschungszentrum Jülich GmbH)

17:00–19:00 Poster SessionRoom Lecture Hall

20:00–23:00 Conference BanquetRoom Ratskeller

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Scientific programme • WedneSday, 9 october

08:30–10:15 Morning Session 1Room Lecture HallChairs Yong Yang (Xiamen University), Christopher Johnson (Argonne National Laboratory)

08:30 Plenary lecture: What are the ultimate limitations of intercalation-based cathodes for lithium (or sodium) batteries? Stanley Whittingham (Binghamton University)

09:00 The evolving story of the UK’s transition to battery based electrification Mark Copley (The University of Warwick)

09:25 Facile synthesis and ehnahced performance of high-sulfur-content cathodes for Li-sulfur batteries Nick Wu (National Taiwan University)

09:50 From intercalation/insertion to conversion mechanism – efforts for increasing energy Hikari Sakaebe (National Institute of Advanced Industrial Science and Technology

10:45–12:00 Morning Session 2Room Lecture HallChairs Petr Novak (Paul Scherrer Institute), Nobuyuki Imanishi (Mie University)

10:45 Bulk-type all-solid-state batteries with sulfidic electrolytes – from materials selection to electrode processing Alberto Varzi (Helmholtz Institute Ulm)

11:10 Diagnosis of Li inventory and pre-lithiation methods for Si-containing Li-ion batteries Christopher Johnson (Argonne National Laboratory)

11:35 Toward a durable SEI film for Li-ion batteries with high energy density Yong Yang (Xiamen University)

13:30–15:40 Afternoon Session 1Room Lecture HallChairs Dominic Bresser (Helmholtz Institute Ulm) Hikari Sakaebe (National Institute of Advanced Industrial Science and Technology

13:30 Plenary lecture – comparing performance, costs, and environmental impact of Li-ion and Na-ion batteries Petr Novak (Paul Scherrer Institute)

14:00 Exploring sodium layered oxide cathodes – designing tailored materials Teofilo Rojo (University of the Basque Country)

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Scientific programme • WedneSday, 9 october

14:25 Large scale cell manufacturing in Europe – chances and risks for integrated supply chains and success factors for new entrants in the automotive battery cell industry Markus Hackmann (P3 automotive)

14:50 Lithium plating as side reaction in lithium-ion batteries Thomas Waldmann (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg)

15:15 Lithium metal anode coated with crosslinked polymer membrane Nobuyuki Imanishi (Mie University)

15:40–16:00 Closing remarks (MWM, KA, SP)Room Lecture Hall

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poSter SeSSion • monday, 7 october & tueSday, 8 october

18:00–20:00 Monday, 7 October | Poster Session17:00–19:00 Tuesday, 8 October | Poster SessionRoom Foyer Ground Floor

id Title2 Specific energy and fast-charging capability – a comparison between 18650 and the new 21700 format Thomas Waldmann (Zentrum für Sonnenenergie- und Wasserstoff- Forschung Baden-Württemberg (ZSW))

3 Chemical intercalation of Li deposition into graphite electrodes – influences on aging and safety Thomas Waldmann (Zentrum für Sonnenenergie- und Wasserstoff- Forschung Baden-Württemberg (ZSW))

4 Gas evolution in high voltage lithium-ion batteries – online mass spectrometric studies Abdelaziz Abdellatif (Zentrum für Sonnenenergie- und Wasserstoff- Forschung Baden-Württemberg (ZSW))

5 Improving the electrochemical performance of layered structured cathode materials for Li-ion batteries applications Moustafa Sanad (Central Metallurgical R and D Institute)

6 Optimization of the electrochemical performance, the aging and the volume expansion of next generation Si-composite lithium-ion battery cells by applying a mechanical pressure Verena Müller (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg)

7 Probing the effects of CO2 and H2O on Nickle-rich LiNixCoyMnzO2 (x+y+z=1) cathode material surface during storage using Synchrotron-based Ambient Pressure-XPS Xiao-Qing Yang (Brookhaven National Lab.)

8 The energy loss due to interconnections in paralleled cell configurations of lithium-ion batteries in electric vehicles Mohamed Ahmeid (Newcastle University)

9 Li- vs. Zn-ion storage in metal sulfides using aqueous electrolytes Yaolin Xu (Helmholtz-Zentrum Berlin für Materialien und Energie)

10 Polymer/liquid electrolyte and BaTiO3 electrodes for magnesium batteries Eslam Sheha (Benha University)

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id Title11 Growth modes of SEI – a theory-based analysis Birger Horstmann (Helmholtz Institute Ulm)

12 Three concepts of initial irreversible loss compensation Nicola Jobst (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

13 Ultrahigh rate performance of SiO2 coated LiNi0.5Mn1.5O4 for lithium-ion batteries Umair Nisar (Qatar University)

14 Multilayer film formation in Si/C composite electrodes – a GD-OES depth profiling study Karsten Richter (Zentrum für Sonnenenergie und Wasserstoffforschung)

15 Elucidating the lithiation and sodiation process of hard carbon anodes by a detailed electrochemical impedance study Magdalena Mandl (Helmholtz Institute Ulm)

16 Electrochemical tuning and bottom-up fabrication of metal-functionalized molecular vanadium oxide composites for high-energy lithium-ion batteries Montaha H. Anjass, Simon Greiner (Helmholtz Institute Ulm)

17 Experimental analysis of different heat paths during thermal propagation in lithium-ion battery packs Daniel Becher (Helmholtz Institute Ulm)

18 Inhibiting/delaying thermal runaway of Li-ion batteries Surya Moganty (NOHMs Technologies)

19 MOF-derived Carbon/CNT nanocomposite cathode for lithium air batteries Hien Thie-Thu Pham (Kyung Hee University)

20 Nanosized titanium niobium oxide/carbon for lithium-ion battery anodes Hwirim Shim (INM-Leibniz Institute for New Materials)

21 How to make safe lithium-ion batteries with high energy density Yuping Wu (Nanjing Tech University)

22 Tailoring the architecture and transport properties of ultra-thick NMC 622 cathodes for high-energy Li-ion batteries Lea Sophie Kremer (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

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id Title23 Implementation of hybrid polymer electrolytes in infiltrated polymer cathodes for solid-state lithium batteries Mario Weller (Julius-Maximilians-University, Department of Chemistry and Pharmacy)

24 Impact of volume changes on lithium-ion battery cycling and aging Philip Daubinger (Fraunhofer ISC)

25 Simple and scalable approaches towards nanostructured host materials for highly efficient sulfur cathodes Silvia Bodoardo (Politecnico di Torino)

26 Fluorinated covalent organic polymers for high performance sulfur cathodes in lithium–sulfur batteries Hyuksoo Shin (Seoul National University)

27 A circular economy insight – from spent Li-ion batteries to Na-ion battery. a green second life opportunity Emanuele Gucciardi (CIC Energigune)

28 Improving the cycling stability of caesium phosphotungstate as electrode material for Li-ion battery Georg-Maximilian Bosch (Karlsruher Institut für Technologie)

29 Nanostructured carbon fiber electrodes based on carbon nanotubes for Li-ion batteries J Mauricio Rosolen (University of Sao Paulo)

30 Sustainable development of Al-stabilized garnet/polymer nanocomposite electrolytes and cathode nanomaterials for LIBs and ASSBs George P Demopoulos (McGill University)

31 Garnet-Peo composite solid electrolytes – a multiscale view on Li+ transport Jakub Zagorski (CIC EnerGigune)

33 Anomalous small angle X-Ray scattering combined with X-Ray absorption spectroscopy – full characterization set-up for operando measurements on batteries Giorgia Greco (Helmholtz-Zentrum Berlin für Materialien und Energie GmbH)

34 3D imaging techniques for Li-ion batteries Zhao Liu (Thermo Fisher Scientific)

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id Title35 Preparation of silicon-graphite composites for lithium-ion batteries by fluidized bed granulation Jannes Müller (TU Braunschweig)

36 Recovered and resynthesized compounds from cathode material of spent Li-ion batteries Jair Scarminio (Londrina State University)

38 Exploring high energy density lithium batteries with improved safety Hong Li (Institute of Physics, CAS)

39 A novel cell architecture for lithium-ion cell provides greatly improved safety performance and offers lower weight and lower cost – cells with this architecture survive a nail penetration test and continue functioning afterwards Juergen Kellner (Soteria Battery Innovation Group)

40 CeO2 nanoparticles-loaded P-doped graphene nanosheets as efficient sulfur supporters for lithium–sulfur batteries Jeongyeon Lee (The Hong Kong Polytechnic University)

41 Electrochemical impedance spectroscopy – a multi-diagnostic tool for LiB electrodes characterization Gilberto Carbonari (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

42 Effect of carbon on FeS-based electrode for lithium-ion batteries Chengping Li (Karlsruher Institut für Technologie)

43 Improvement of ultra-thick NCM622 cathodes by simultaneous multilayer coating with potential for production cost reduction Emanuel Heider (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

44 Advanced EIS characterization of lithium-ion battery in non-steady state or operando condition Xinhua Zhu (Vrije Universiteit Brussel)

48 A high-energy density Li metal dual-ion battery with lithium nitrate- modified carbonate-based electrolyte Ling Huang (Xiamen University)

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id Title50 Lithium sulphur for safe road electrification (LISA) Luis Santos (Leitat)

51 Recent developments for lithium-sulfur prototype cells Susanne Doerfler (Fraunhofer IWS)

53 Analysis of carboxylic-acid-treated Si particles by online electrochemical mass spectrometry and photoelectron spectroscopy Fabian Jeschull (Karlsruher Institut für Technologie)

54 TEESMAT – open innovation test bed for electrochemical energy storage materials Thomas Waldmann (Zentrum für Sonnenenergie- und Wasserstoff- Forschung Baden-Württemberg (ZSW))

55 Electrospun hexagonal boron nitride/polyacrylonitrile nanofibers for lithiumion battery application Sevim Unugur Celik (University of Freiburg)

57 Thin, flexible lithium-ion battery based on ternary gel polymer binder Ling Ding (IFW Dresden)

60 Safety improvement of Li-ion battery by using low-flammable electrolytes and CO2-reactive flame-retardants Zhengqi Wang (Karlsruher Institut für Technologie)

62 Challenges and advances in water-based electrode manufacturing with advanced Li-ion battery materials Aitor Eguia-Barrio, Iratxe de Meatza, Idoia Urdampilleta (CIDETEC Energy Storage)

63 Polycaprolactone based network as new electrolyte for all solid-state batteries Adrien Lassagne (CEA/LITEN)

64 Functionalized Cu current collector by Laser Induced Periodic Surface Structure (LIPSS) to enhance the rate performance of Li-electrodes Maider Zarrabeitia (CIC EnerGigune)

65 Nonflammable, fluorinated cyclic phosphorus containing electrolytes for advanced Li-based battery performance Natascha von Aspern (Forschungszentrum Jülich)

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id Title66 Towards safer application of lithium-ion-batteries – production-induced defect recognition through computed tomography Miriam Keppeler (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

67 Implementing an innovative cell architecture for formation of silicon electrodes in multilayer systems Nina Zensen (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

68 Silicon-graphite anodes enabled by self-assembly for lithium-ion batteries Shu-Jui Chang (National Taiwan University)

69 Structure and ion dynamics of lithium-argyrodites Li6PS5X (X: Cl, Br, I) Isabel Hanghofer (AVL List GmbH)

70 Structural stabilization of VS4 by the addition to foreign elements Yuki Umemura (National Institute of Advanced Industrial Science and Technology (AIST))

71 Physico-chemical and electrochemical characterization of spheroidized natural and synthetic graphite as anode active material for LiBs Jan Martin (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

73 The coaxial fiber-type lithium-ion battery with high volumetric energy density Hyeonjun Soong (Soongsil University)

74 Ammonium- and imidazolium-based ionic liquids as safer electrolyte components for lithium battery systems Giovanni Battista Appetecchi (ENEA)

75 Quantification of lithium plating - a multi-method approach Patrick Münster (University of Münster)

76 Model based parametrization of advanced fast charging procedures Benjamin Hauck (Karlsruher Institut für Technologie (KIT))

77 Electrochemical analysis of conversion reaction process of FeF3 electrode material using GITT Takeshi Miyazaki (National Institute of Advanced Industrial Science and Technology)

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id Title78 Batteries for electric vehicles – cathode microstructure design Julian Wegener (Volkswagen AG)

79 Olivine iron phosphate for improved counter electrodes for the characterization of state of the art cathodes in lithium-ion batteries Lukas Schick (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

80 Synthesis of layered NaxMnyNi1-yO2 cathode material with controlled morphology Lukas Schick (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

81 Electrode materials for all solid state lithium-ion batteries: Li-In and MoS2 as case studies Nazia Sainudeen Nazer (Friedrich Schiller University Jena)

82 Structural evolution of lithium manganate cathodes during charge/discharge cycles Rahul Parmar (Camerino University)

83 Structural, morphological and electrochemical evaluation of lithium-titanium oxide for high-power lithium-ion cells Michal Krajewski (University of Warsaw)

84 Synthesis and characterization of TiO2@SnO2 nanocomposite as viable anode for lithium-ion batteries Antunes Staffolani (University of Camerino)

85 Investigating the effect of electrode structuring on fast charging applications Vittorio De Lauri (DLR at HIU)

86 Synthesis and characterization of high-performance and stability SnO2/C composite anode for Li-ion batteries Francesco Nobili, Antunes Staffolani (University of Camerino)

87 Effect of silicon surface chemical oxidation on the electrochemical behavior as a negative electrode for Li-ion battery Bartosz Hamankiewicz (University of Warsaw)

88 Electrolyte additives for LNMO based Li-ion cells Andreas Hofmann (Karlsruher Institut für Technologie)

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id Title89 Electrospun CuxO/C nanocomposite material as anode material for lithiumion batteries Fabio Maroni (University Of Chieti-Pescara)

90 The full gradient design in Li-rich cathode for high performance lithium-ion batteries with reduced voltage decay Xiaokang Ju (Helmholtz-Institute Münster)

91 Electrochemical performance of antiperovskites Li2Fe1-xMxSO as cathodes for lithium-ion batteries Mikhail Gorbunov (Leibniz Institute for Solid State and Materials Research (IFW) Dresden e.V.)

92 Liquid synthesis method of producing pure and halide-doped lithium argyrodites as electrolytes for all-solid-state batteries Dominika Buchberger (University of Warsaw)

93 In-situ determination of electrochemically active surface area variations during lithiation of Li-ion electrodes Maciej Ratynski (University of Warsaw)

94 Transition metal doped carbon composites derived from metal-organic frameworks and gels materials as sulfur hosts for Li-S batteries Qiongqiong Lu (Leibniz IFW Dresden)

95 A quasi-solid electrolyte based on MOF-74 for high energy Li-metal batteries Cristina Tealdi (University of Pavia)

96 Assessing electrochemical stability window of polymer electrolytes and their interactions with Li-salts from a first-principles molecular approach for allsolid-sate batteries Cleber Marchiori (Uppsala University)

97 A post-mortem study of commercial 18650 cells comprising NCM532/ Graphite after long-term cycling with low c-rates Christian Weisenberger, Volker Knoblauch (Aalen University – Materials Research Institute Aalen (IMFAA))

98 Toward high-voltage lithium-ion batteries – new challenges for ARMOR coated aluminium current collectors Chloé Bizot (Institut des Matériaux Jean Rouxel)

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id Title99 Nanostructured Ag-Ag2O -encapsulated PPy composites on partially exfoliated graphite electrode for supercapacitor Erhan Karaca (Hacettepe University)

100 Fast charging of lithium-ion batteries – phase change materials as an alternative thermal management approach Veit Steinbauer (Aalen University)

101 Thermal properties of phosphate based solid electrolytes for sodium-ion cells Andre Borchers (Karlsruher Institut für Technologie)

102 Synthetic route to create a high-voltage NMC material for Li-ion batteries Maciej Boczar (University of Warsaw)

104 Prototype rechargeable magnesium batteries using ionic liquid electrolytes Xinpei Gao (Karlsruhe Institute of Technology)

105 Versatile protection approach on layered lithium transition metal oxide cathode materials Khalil Amine (Argonne National Laboratory)

106 MPOx-coated high-voltage LiNi0.5Mn1.5O4 with tailored morphology for high-power lithium-ion full-cells Matthias Kuenzel (Karlsruhe Institute of Technology (KIT))

107 Chasing protons in lithium batteries Khalil Amine (Argonne National Laboratory)

108 Insertion-type anodes for alkali-ion batteries – enhancing the energy density by introducing highly redox-active atomic centers Yanjiao Ma (Helmholtz Institute Ulm / Karlsruhe Institute of Technology)

109 Elucidating the effect of iron doping on the electrochemical performance of cobalt-free lithium-rich layered cathode materials Fanglin Wu (Helmholtz Institute Ulm)

110 Innovations in scalable electrode processing for sulfide-based all-solid-state- batteries Holger Althues (Fraunhofer IWS)

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id Title112 The environmental sustainability of Li-ion batteries for electric vehicles: update of the datasets in the database ecoinvent Eleonora Crenna (EMPA)

113 Selecting cyclic carbonate for high voltage lithium metal batteries Khalil Amine (Argonne National Laboratory)

114 Improvement of cycle capability of Fe-substituted Li2S-based positive electrode material (Li8FeS5) for Li-S battery Tomonari Takeuchi (National Institute of Advanced Industrial Science and Technology (AIST))

115 Enhancing electrochemical performance of PVDF-HFP gel polymer electrolytes with NanO-ceramic fillers Mustafa Celik (Sakarya University)

116 Synergistic electrolyte additives for stabilized electrode/electrolyte interfaces in high-voltage Li-ion batteries Arefeh Kazzazi (Karlsruhe Institute of Technology)

117 Scalable processing of all-solid-state cathodes with different polymer electrolytes Laura Helmers (TU Braunschweig)

118 The influence of porosity and tortuosity on the ionic diffusivity in structured ultra-thick NCM 622 positive electrodes for high energy lithium-ion batteries Sonja Radloff (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

119 High mass loading CuS based composite cathodes for all-solid-state lithium sulfur batteries enables high areal capacity Seyed Milad Hosseini (Helmholtz Institute Ulm)

120 Laser-based surface modification to improve the rate capability of NMC- based cathodes for lithium-ion batteries Volker Knoblauch (Aalen University of Applied Sciences)

121 Interfacial optimization via spatial atomic layer deposition for next- generation lithium-ion batteries Bihag Anothumakkool (TNO-Holst Centre)

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id Title122 Improvement of structural and electrochemical properties of NMC cathode materials by combined doping and coating Hamideh Darjazi (UNICAM University)

123 Influences of various binders on electrochemical performances of biowaste derived hard carbon negative electrode materials for Li-/ Na-ion batteries Hamideh Darjazi (UNICAM University)

124 Development of a single step-process of extrusion coating and calendaring for high viscous electrode pastes Eike Wiegmann (TU Braunschweig)

125 From lithium to zinc-ion batteries: electroactive cathode materials Guozhong Cao (University of Washington)

127 Slurry-coating processing of cathodes for all-solid-state lithium battery: influence of electrode composition and processing conditions Tugce Ates (Helmholtz Institute Ulm)

128 Highly conductive sulfide based solid electrolyte for lithium-sulfur batteries Dongping Lu (Pacific Northwest National Laboratory)

129 Electrochemically primed functional redox mediator generator from the decomposition of solid state electrolyte Matthew Li (Argonne National Laboratory)

130 In-situ quantification of interphasial chemistry in Li-ion battery Tongchao Liu (Argonne National Laboratory)

131 High-performance lithium batteries based on single-ion conducting polymer electrolytes and Ni-rich NCM cathodes Zhen Chen (Helmholtz Institute Ulm)

134 Influences of charging strategy on the performances of lithium-ion batteries Xiankun Huang (Xi\’an Jiaotong University)

135 Calcium vanadate as cathode material for aqueous zinc metal batteries Xu Liu (Helmholtz Institute Ulm)

136 In-situ generated Li2S@C nanocomposite for high performance all-solid- state Li-S battery Zhengliang Gong (Xiamen University)

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id Title137 Nickel-rich lithium nickel cobalt aluminium oxide-nanocarbon core-shell cathode for high-performance Li-ion batteries Montree Sawangphruk (Vidyasirimedhi Institute of Science and Technology)

140 Olive leave-derived hard carbon materials for Li/Na-ion battery and supercapacitor applications. Hamideh Darjazi (UNICAM University)

141 Solid-state dendrite-free lithium-metal battery with improved electrode interphase and ion conductivity enhanced by bifunctional solid plasticizer Jun Peng (Xiamen University)

142 New electrolyte formulations for magnesium and calcium batteries Steve Zaubitzer (Zentrum für Sonnenergie-und Wasserstoff-Forschung Baden-Württemberg)

143 Silicon nanowires/graphite composite as high-performance anode for lithium-ion batteries Mayokun Olutogun (Karlsruhe Institute of Technology)

144 Design and engineering of interfaces/interphases for stable Li anodes Donghai Wang (The Pennsylvania State University)

145 Design and preparation of Li-rich layered oxides as cathodes for high voltage and high power Li-ion battery German Lener (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

146 Electrolyte additives effect on NMC532 surface film formation at high cut-off voltage in half and full cell configuration Maral Hekmatfar (Helmholtz Institute Ulm)

147 The Research Production Line (FPL) – the german standard for production research on large Li-Ion cells Stefan Roessler (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

150 High energy Li metal batteries enabled by a localized high concentration electrolyte using fluorinated orthoformate solvent Ji-Guang Zhang (Pacific Northwest National Laboratory)

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id Title151 A special enabler for boosting cyclic life and rate capability of LiNi0.8Co0.1Mn0.1O2 – green and simple additive Chenguang Shi (Xiamen University)

152 Post-mortem analysis of yolk-shell structured silicon/Rgo/Mwcnt anode Gizem Hatipoglu (Sakarya University)

153 High energy density and high efficiency cycling of lithium metal in phosphonium based ionic liquid electrolytes Thushan Pathirana (Institute for Frontier Materials)

154 Thermal characterization of endothermal barrier materials for the prevention of thermal propagation in lithium-ion battery packs Fabian Menz (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

155 The performance effect of temperature gradients in lithium-ion battery cells and packs Teddy Szemberg O’Connor (Imperial College London)

156 Highly cyclable deposition-type Li metal anode for all-solid-state Li batteries Naoki Suzuki (Samsung R&D Institute Japan)

157 Advanced electron microscopy as powerful characterization technique for next-generation Li-ion battery materials Dorin Geiger (Ulm University)

158 Role of surface coatings to improve the electrochemical performance of advanced materials Umair Nisar (Qatar University)

159 Electrochemical properties of high-capacity graphite/SiO mixture negative electrode for lithium-ion batteries Haebeen Kim (Korea Polytechnic University)

160 Synthesis of graphene aerogel/zinc oxide nanocomposites as anode materials for lithium-ion batteries

Malek Naderi (Amirkabir University of Technology)

161 Investigating electrolyte additives for Si containing negative electrodes under commercial relevant conditions Roman Nölle (University of Münster)

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id Title162 Effect of Li-salt concentration on Li/Li+ redox potential in DMSO based electrolytes Pranay Kumar reddy Kottam (Zentrum für Sonnenenergie- und Wasserstoff- Forschung Baden-Württemberg (ZSW))

163 Self-discharge analysis and evaluation of graphite/NMC made cells in lithium-ion batteries Gopinath Sh (TVS Motor Company Limited)

164 Enhancing the energy efficiency of Zn0.9Fe0.1O-C conversion/alloying type anodes by combining fundamental understanding and advanced materials development Jakob Asenbauer (Helmholtz Institute Ulm)

166 Facile and scalable synthesis of TiO2@LiTi2 (PO4)3 nanocomposites for enhanced lithium-ion batteries Xu Hou (Forschungszentrum Juelich GmbH Helmholtz-Institut Münster)

167 Fast ionic conductivity in the most lithium-rich phosphidosilicate Li14SiP6 Stefan Strangmüller (Technical University of Munich)

168 Study of the mechanical stress build-up in all-solid-state lithium batteries Marta Cazorla Soult (Vrije Universiteit Brussel)

169 Li-ion diffusion and phase transition in layered oxides Katja Fröhlich (AIT Austrian Institute of Technology GmbH)

170 Neocarbonix electrodes for high performance ultracapacitors and batteries Tatyana Movchan (Nanoramic Laboratories)

171 High-performance lithium-sulfur batteries based on nanostructured metallic iron-nickel sulfide /graphene composites as highly efficient sulphur host Ruidie Tang (University of Manchester)

174 Lithium-electrolyte interface stabilization in all-solid-state sulfide type lithiumion Nicolas Cachot (UHasselt University)

176 Revealing the pre-lithiation behavior of Si/C composite materials for lithium-ion batteries with regard to the silicon particle size Peer Bärmann (Münster Electrochemical Energy Technology)

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id Title177 Study on different water-based binders and their performance for LTO electrodes Christina Toigo (University of Bologna)

178 Sulfur infiltrated ultra-microporous carbon aerogel as cathode for lithium- sulfur battery Maryam Nojabaee (German Aerospace Center (DLR))

179 Towards a new silicon anode material for lithium-ion batteries – copper zinc alloy electrodeposition and dealloying Sébastien Vivegnis (Universities of Namur & Hasselt)

180 BETTERY – an innovative Italian startup for lithium oxygen battery knowledge transfer Francesca Soavi (BETTERY srl)

181 A cell safety test and verification method for the EV battery pack with a cooling and heating system Jaesik Chung (PCTEST Engineering)

182 Origin of the high Li-ion conductivity of Li7P2S8X (X= I, Br) solid electrolyte and its application in all-solid-state Li batteries Yoon-Cheol Ha (Korea Electrotechnology Research Institute)

183 Composite polymer electrolyte with high inorganic additive contents to enable metallic lithium anode Julia Amici (Politecnico di Torino)

184 Surface reconstruction limited conductivity in block-copolymer Li battery electrolytes Preston Sutton (AMI - University of Fribourg)

185 Degradation effects on Li(Ni0.33Mn0.33Co0.33)O2 in the recovery of lithium battery cathodes Jörg Acker (Brandenburg Technical University Cottbus-Senftenberg)

186 Design of prelithiated silicon/hard carbon composite electrodes for Si–S batteries Dong-hwan Yoon (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

29


id Title187 Structure and electrochemistry of new thiophosphate- and sulfide-based lithium solid electrolytes Maximilian A. Plaß (Max-Planck-Institut für Festkörperforschung)

188 Impact of the calandering process on the cell quality – experimental vs. theory by means of machine learning Hai Yen Tran (Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW))

189 Design and characterization of silicon-based composites in lithium-ion batteries – an overview of material structures and corresponding wet- chemical routes Gilles Bonneux (Hasselt University)

190 Spatial resolution of current and temperature distributions in lithium-ion pouch cells – tools for advanced battery diagnostics Lisa Beran, Pascal Koch (Trier University of Applied Sciences)

191 Ionic conductivity of the solid solution Li8Si1-xGexP4 David Müller (Technische Universität München)

192 Aqueous binder-free secondary Li-ion battery based on commercial LMO CNT cathode Constantin Bubulinca (Centre of Polymer Systems)

193 The Energy Materials In-Situ Laboratory Berlin (EMIL) enable state-of-the-art sample production and in-system synchrotron photoelectron spectroscopy of full solid state thin film batteries Sébastien Cap (HZB)

194 Investigation of binary-mixed electrolyte salts for the application in dual- graphite batteries Lukas Haneke (Westfälische Wilhelms-Universität Münster)

195 Silicon thin films deposited by low pressure chemical vapor deposition on planar current collectors as model system for lithium-ion batteries Sébastien Cap (HZB)

196 Carbonaceous anodes for potassium-ion batteries – impact of the graphitization degree on the electrochemical perfomance Jens Wrogemann (MEET Battery Research Center)

30


id Title197 EnergyVille – advanced synthesis, cell design and characterization for batteries Thomas Vranken (Hasselt University (UHasselt))

198 On-line investigation of the stability of electrode materials in lithium-ion batteries by means of a scanning flow cell Susanne J. Wachs (Forschungszentrum Jülich GmbH, Helmholtz Institute Erlangen-Nürnberg (IEK-11))

199 Optimization of the microstructure and interfaces in composite cathodes for all-solid-state batteries Thomas Beuse (University of Münster)

200 Capacity fading mechanism of TiS4 positive electrode toward the improvement of cycle properties Hikari Sakebe (National Institute of Advanced Industrial Science and Technology (AIST))

201 Highly porous silicon embedded in a ceramic matrix: a stable high-capacity electrode for Li-ion batteries Dragoljub Vrankovic (Technische Universität Darmstadt)

202 Carbon-rich silicon-oxycarbide, a promising anode material for Li-ion battery application – correlation between electrochemical and microstructural features Magdalena Graczyk-Zajac (Technische Universität Darmstadt)

31


“Isolating high capacity cells like Arbin’s Multi-Chamberdesign is the best way to maintain uniform temperatureand ensure a safe testing environment.”

Cell Test Equipment24-bit Resolution

Built-in Mini-Chambers EIS Option for All Test Channels Robust SQL Data Management

Pack Test Equipment Regenerative Circuitry (1000V+) Use CANBus to Fully Control Tester Temperature Chamber Interface High-Speed EV Drive Profile Simulation

+49 (0)170 5242022 | www.arbin.com | [email protected] | ABAA12 Booth

32

SponSorS, exhibitorS and media cooperationS

We thank the following companies for their friendly support:

abaa 12 sponsors Booth No.gold sponsorsCoperion GmbH 12

Hohsen Corp. 10

Manz AG 6

Nanoramic Laboratories

P3 automotive GmbH 9

silver sponsorsArbin Instruments 1

Elsevier Limited

Hydro-Québec

Material Mates Italia Srl 3

bronze sponsorsAMETEK/Solartron Analytical 15

Angelantoni Test Technologies S.r.l. 16

C3 Prozess- und Analysetechnik GmbH 4

Custom Cells Itzehoe GmbH 17

Delft IMP B.V. 14

Deutsches Zentrum für Luft- und Raumfahrt e.V. – 5 Institut für Technische Thermodynamik

Laminar Co., Ltd. 18

Neware Technology Limited 13

Pfeiffer Vacuum GmbH 8

rhd instruments GmbH & Co. KG 7

33

SponSorS, exhibitorS and media cooperationS

other sponsors SOLVIONIC S.A.

besT sTudenT posTer awardISE – International Society of Electrochemistry

sponsors ialb Booth No.gold sponsorsECOPRO 11

Maccor 2

silver sponsorPEC

media cooperaTionsDe Gruyter OldenbourgZeitschrift für Physikalische Chemie

Mustard Seed Publishing LtdBatteries International

Shmuel De-Leon Energy Ltd

Springer Verlag GmbHJournal of Applied ElectrochemistryIONICS

Wiley-VCH Verlag GmbH & Col. KGaABatteries & Supercaps

cooperaTion parTnerFachgruppe Elektrochemie

GDCh

State at printing

34

room and exhibition map

35

room and exhibition map

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17

18

36

social and culTural programme

guided Tours aT Hiu and ZswFor registered attendees guided visits to the lab at HIU and the cell production line and cell safety test lab at ZSW are offered. These three tours will be offered by the ECS student chapter of Ulm and the HIU PhD club. Each visit will last 45 minutes. So, registered attendees have the chance to visit all three facilities. Following the visits, from 18:00–19:00, an exchange between PhD students/Post-docs with senior scientists at the Maritim, a Battery Quiz, is planned.

Date Sunday, 6 October 2019Time 15:00–18:00Location Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW), Lise-Meitner-Straße 24, 89081 Ulm (DE) Battery Research Center in Germany – Helmholtz Institute Ulm Helmholtzstraße 11, 89081 Ulm (DE)Registration binding registration beforehandFee for participants included in the conference fee

conference banqueTExperience a wonderful evening in the historic Rastkeller Ulm.

The Ratskeller provides light-flooded rooms in warm colours and provide a comfortable atmosphere. The copper-colored images along the walls showing episodes and prominent personalities of Ulm are of special character.According to the region, the cuisine of Ratskeller offers culinary Swabian delicacies.

Date Tuesday, 8 October 2019Time 20:00Location Ratskeller Ulm, Marktplatz 1, 89073 Ulm (DE)Walking distance appr. 1 km, 15 minutesRegistration binding registration beforehandFee for participants included in the conference fee

© Ratskeller Ulm

37


38

general informaTion

regisTraTion fees Regular 600 EURStudent 380 EURIndustry 650 EUR

general Terms and condiTionsPlease find our general terms and conditions at www.abaa12.org.

cerTificaTe of aTTendance Certificates of attendance will first be made available on the last day of the conference at the check-in desk.

name badgeAttendants and registered accompanying persons will receive a name badge after registra-tion. Admittance to the congress and industrial exhibition is only allowed for those with a name badge. Name badges should be worn at all times.

TraVel Ulm is a central city in Europe!Between Frankfurt, Stuttgart and Munich airports, Ulm is easily reachable by ICE and TGV fast trains. Frankfurt Airport, one of the major airports worldwide, can be reached directly by ICE-trains within 135 minutes! Two other major airports (Stuttgart 85 km and Munich 155 km) allow a fast and comfortable journey. The motorways A7 (Würzburg-Füssen) and A8 (Stuttgart-Munich) meet here granting excellent access by car.

public TransporTaTion from THe main sTaTion To THe Venue From the main train station, the bus line number 6 goes directly to the Maritim Hotel. Further information on the public transport in Ulm can be found online at www.swu.de.

posTer sessionDuring our poster session abstract authors gain the possibility to present their poster. The poster session is taking place in the foyer of the ground floor of the conference center.

Poster session Monday, 7 October 18:00–20:00Poster session Tuesday, 8 October 17:00–19:00

http://www.abaa12.org

39

Pfei� er Vacuum provides dry and oil-sealed standard and ATEX pumps for drying processes (coils) under vacuum or pre-evacuation prior to electrolyte fi lling. We also o� er leak testing systems with air and tracer gases for components (e. g. cell covers), cells, modules, packs and coolant circuits.

Pfeiffer Vacuum offers solutions for the following process steps: ■ Filling under vacuum ■ Drying ■ Leak testing in various processes

VACUUM SOLUTIONS FOR BATTERY MANUFACTURING

Are you looking for a specific vacuum solution? Please contact us:Pfeiffer Vacuum GmbH · Headquarters/Germany · T +49 6441 802-0 · www.pfeiffer-vacuum.com

40

general informaTion

accommodaTionThe following hotels have a reserved contingent of rooms at special rates.

Maritim UlmBasteistraße 40, 89073 Ulm (DE)

ibis Ulm CityNeutorstraße 12, 89073 Ulm (DE)

Ulmer StubenAdolph-Kolping-Platz 11, 89073 Ulm (DE)

Lago Hotel & Restaurant am SeeFriedrichsau 50, 89073 Ulm (DE)

Best Western Plus Atrium HotelEberhard-Finckh-Straße 17, 89075 Ulm (DE)

[email protected]

For test cell equipment, impedance data analysis soft-ware or seminars and trainings, please contact us!

Expertise in Electrochemistry.

41

general informaTion

conference appWe offer an ABAA-App for iPhone, iPad, Android smart phones and tablets.

The ABAA-App includes:• Conference programme which is easily sorted with a search function• Daily conference updates • Floorplans• An overview of all exhibitors • All abstracts• Book mark function for easily creating your personal conference schedule• and much more

@

inTerneTVouchers for Wireless-Lan are available for a fee at the hotel registration of the Maritim.Overnight guests of the Maritim can use the wifi of the hotel.

42

index of preSenting authorS and chairS

bBresser, D. 12

cChoi, J. W. 10, 11Choi, M. H. 11Copley, M. 10, 12Cui, Y. 9

eEdström, K. 9, 10

fFaguy, P. 8Fischer, A. 10

gGuyomard, D. 10, 11

HHackmann, M. 13Hintennach, A. 8Hosoi, K. 8Huslage, J. 8

iImanishi, N. 12, 13

JJanek, J. 10Jang, H. 10Johnson, C. 12

KKang, K. 9

lLamp, P. 8Li, H. 8

mMarinaro, M. 10Mattis, W. 10

nNovak, P. 12

oOhma, A. 8

rRojo, T. 12

sSakaebe, H. 12Sakovica, J. 8Schroth, P. 8Spurk, P. 11Srinivasan, V. 8, 10Sun, A. 9

TTakami, N. 10Tran-Van, P. 9

VVarzi, A. 12Verbrugge, M. 8Virden, J. W. 8

wWachsman, E. 10Waldmann, T. 13Whittingham, S. 12Winter, M. 11Wu, N. 11, 12

xXiao, J. 9, 11

yYang, X.-Q. 9Yang, Y. 12

ZZaghib, K. 10

43

PIONEERING THE MOBILITY OF TOMORROW

“Our innovative research in solid-state battery materials will make it easier than ever to drive electric.”

– Karim Zaghib, General Director

REINVENTING ENERGY FOR THE FUTUREHydro-Québec’s Center of Excellence in Transportation Electrification and Energy Storage

hydro.quebec/center-excellence

DOSSIER CL IENT CAMPAGNE VERSION STUDIO/CONSE IL

FHYP19-032 Hydro-Québec Centre d’excellence Ang MB / MTPUBL ICAT ION FORMAT COULEUR L IVRA ISON RÉV IS ION

Programme ABAA 5,83” x 8,27” (148mm X 210mm) 4C 26 August 0

FHYP19-032 Adaptation Annonce ECS.indd 1 2019-08-26 11:56 AM

44

noTes

45

Manz AG | www.manz.com

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For over 30 years, our customers have relied on our experience in the development and manufacture of systems and integrated production lines for lithium-ion battery cells, modules and packs, as well as for the automated assembly of cell contact systems.

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