Johan Scheers

Forskarassistent at Chalmers, Physics, Condensed Matter Physics

Assistant Professor, Condensed Matter Physics, Department of Physics

Source: chalmers.se

Projects

2013–2017

Development of future battery systems by atomistic calculations

Johan Scheers Condensed Matter Physics
Swedish Energy Agency

2013–2013

Flampunktsbestämning av nitrilbaserade elektrolyter för säkrare litiumbatterier

Johan Scheers Condensed Matter Physics
Stiftelsen Olle Engkvist Byggmästare

2012–2014

Nya batterielektrolyter i ett svenskt-koreanskt samarbete

Johan Scheers Condensed Matter Physics
ÅForsk (Ångpanneföreningens Foundation for Research and Development)

2012–2016

Advanced European lithium sulphur cells for automotive applications (EUROLIS)

Patrik Johansson Condensed Matter Physics
Johan Scheers Condensed Matter Physics
European Commission (FP7)

There might be more projects where Johan Scheers participates, but you have to be logged in as a Chalmers employee to see them.

Publications

2017

Elevated Temperature Lithium-Ion Batteries Containing SnO2 Electrodes and LiTFSI-Pip(14)TFSI Ionic Liquid Electrolyte

S. Bohme, Manfred Kerner, Johan Scheers et al
Journal of the Electrochemical Society. Vol. 164 (4), p. A701-A708
Journal article
2017

Lithium-ion batteries based on SnO2 electrodes and a LiTFSI-Pip14TFSI ionic liquid electrolyte

Solveig Böhme, Manfred Kerner, Johan Scheers et al
Journal of the Electrochemical Society. Vol. 164, p. A701-A708
Journal article
2017

Towards Celiac-safe foods: Decreasing the affinity of transglutaminase 2 for gliadin by addition of ascorbyl palmitate and ZnCl2 as detoxifiers

Niklas Engström, Patricia Saenz-Mendez, Johan Scheers et al
Scientific Reports. Vol. 7 (77)
Journal article
2016

Master students learning TRIZ at the University: past experiences, future plans, and best practices

Lars Hellberg, Johan Scheers
12th MATRIZ TRIZfest-2016 International Conference, July 28-30, Beijing, People’s Republic of China
Paper in proceedings
2016

To Break or not to break: Mechanisms of DMSO decomposition in aprotic LiO2 battery electrolytes

Johan Scheers, K. Sodeyama, David Lidberg et al
Conference poster
2016

Life of superoxide in aprotic Li-O-2 battery electrolytes: simulated solvent and counter-ion effects

Johan Scheers, David Lidberg, K. Sodeyama et al
Physical Chemistry Chemical Physics. Vol. 18 (15), p. 9961-9968
Journal article
2016

Towards more thermally stable Li-ion battery electrolytes with salts and solvents sharing nitrile functionality

Manfred Kerner, Du Hyun Lim, Steffen Jeschke et al
Journal of Power Sources. Vol. 332, p. 204-212
Journal article
2016

Thermal stability and decomposition of lithium bis(fluorosulfonyl)imide (LiFSI) salts

Manfred Kerner, Nareerat Plylahan, Johan Scheers et al
RSC Advances. Vol. 6 (28), p. 23327-23334
Journal article
2016

Enhanced low-temperature ionic conductivity via different Li+ solvated clusters in organic solvent/ionic liquid mixed electrolytes

Luis Aguilera Medina, Johan Scheers, Aleksandar Matic
Physical Chemistry Chemical Physics. Vol. 18 (36), p. 25458-25464
Journal article
2015

Ionic liquid based lithium battery electrolytes: fundamental benefits of utilising both TFSI and FSI anions?

Manfred Kerner, Nareerat Plylahan, Johan Scheers et al
Physical Chemistry Chemical Physics. Vol. 17 (29), p. 19569-19581
Journal article
2015

The Quest for Polysulfides in Lithium-Sulfur Battery Electrolytes: An Operando Confocal Raman Spectroscopy Study

J. Hannauer, Johan Scheers, J. Fullenwarth et al
ChemPhysChem. Vol. 16 (13), p. 2755-2759
Journal article
2015

Role of organic solvent addition to ionic liquid electrolytes for lithium-sulphur batteries

Shizhao Xiong, Johan Scheers, Luis Aguilera Medina et al
RSC Advances. Vol. 5 (3), p. 2122-2128
Journal article
2015

Superior Ion-Conducting Hybrid Solid Electrolyte for All-Solid-State Batteries

Jae-Kwang Kim, Johan Scheers, T. J. Park et al
ChemSusChem. Vol. 8 (4), p. 636-641
Journal article
2015

A structural study of LiTFSI-tetraglyme mixtures: From diluted solutions to solvated ionic liquids

Luis Aguilera Medina, Shizhao Xiong, Johan Scheers et al
Journal of Molecular Liquids. Vol. 210, p. 238-242
Journal article
2015

Characterization of the Mass-Transport Phenomena in a Superconcentrated LiTFSI:Acetonitrile Electrolyte

H. Lundgren, Johan Scheers, Mårten Behm et al
Journal of the Electrochemical Society. Vol. 162 (7), p. A1334-A1340
Journal article
2015

Ionic Liquids in Lithium Battery Electrolytes: Composition versus Safety and Physical Properties

Susanne Wilken, Shizhao Xiong, Johan Scheers et al
Journal of Power Sources. Vol. 275, p. 935-942
Journal article
2014

Prediction of Electrolyte and Additive Electrochemical Stabilities

Johan Scheers, Patrik Johansson
Electrolytes for Lithium and Lithium-ion Batteries, p. 403-443
Chapter in monograph, book - peer reviewed
2014

All fluorine-free lithium battery electrolytes Dedications: In memoriam of Prof. per Jacobsson.

Johan Scheers, D. H. Lim, Jae-Kwang Kim et al
Journal of Power Sources. Vol. 251, p. 451-458
Journal article
2014

A layer-built rechargeable lithium ribbon-type battery for high energy density textile battery applications

Jae-Kwang Kim, Johan Scheers, H. S. Ryu et al
Journal of Materials Chemistry A. Vol. 2 (6), p. 1774-1780
Journal article
2014

A review of electrolytes for lithium-sulphur batteries

Johan Scheers, S. Fantini, Patrik Johansson
Journal of Power Sources. Vol. 255, p. 204-218
Journal article
2013

Initial stages of thermal decomposition of LiPF6-based lithium ion battery electrolytes by detailed Raman and NMR spectroscopy

Susanne Wilken, Marcel Treskow, Johan Scheers et al
RSC Advances. Vol. 3 (37), p. 16359-16364
Journal article
2013

Initial stages of thermal decomposition of LiPF6-based lithium ion battery electrolytes by detailed Raman and NMR spectroscopy

Susanne Wilken, Marcel Treskow, Johan Scheers et al
RSC Advances. Vol. 3 (37), p. 16359-16364
Journal article
2013

Facile preparation of nanoporous and nanocrystalline LiFePO4 with excellent electrochemical properties

Jae-Kwang Kim, Johan Scheers, Y. J. Choi et al
RSC Advances. Vol. 3 (43), p. 20836-20842
Journal article
2013

Nano-fibrous polymer films for organic rechargeable batteries

Jae-Kwang Kim, Johan Scheers, J. H. Ahn et al
Journal of Materials Chemistry A. Vol. 1 (7), p. 2426-2430
Journal article
2013

Role of lithium precursor in the structure and electrochemical performance of LiFePO4

Jae-Kwang Kim, Johan Scheers, G. C. Hwang et al
Scripta Materialia. Vol. 69 (10), p. 716-719
Journal article
2013

Physical Properties, Ion-Ion Interactions, and Conformational States of Ionic Liquids with Alkyl-Phosphonate Anions

Jagath Pitawala, Johan Scheers, Per Jacobsson et al
Journal of Physical Chemistry B. Vol. 117 (27), p. 8172-8179
Journal article
2013

Characterization of N-butyl-N-methyl-pyrrolidinium bis(trifluoromethanesulfonyl)imide-based polymer electrolytes for high safety lithium batteries

Jae-Kwang Kim, L. Niedzicki, Johan Scheers et al
Journal of Power Sources. Vol. 224 (15 Feb. 2013), p. 93-98
Journal article
2013

Structural supercapacitor electrolytes based on bicontinuous ionic liquid-epoxy resin systems

N. Shirshova, A. Bismarck, S. Carreyette et al
Journal of Materials Chemistry A. Vol. 1 (48), p. 15300-15309
Journal article
2012

Ether Based Electrolyte, LiB(CN)(4) Salt and Binder Degradation in the Li-O-2 Battery Studied by Hard X-ray Photoelectron Spectroscopy (HAXPES)

S. R. Younesi, M. Hahlin, Marcel Treskow et al
Journal of Physical Chemistry C. Vol. 116 (35), p. 18597-18604
Magazine article
2012

Novel Lithium Imides; Effects of -F, -CF(3), and -C N Substituents on Lithium Battery Salt Stability and Dissociation

Johan Scheers, Erlendur Jonsson, Per Jacobsson et al
Electrochemistry. Vol. 80 (1), p. 18-25
Journal article
2012

Towards flexible secondary lithium batteries: polypyrrole-LiFePO4 thin electrodes with polymer electrolytes

Jae-Kwang Kim, J. Manuel, M. H. Lee et al
Journal of Materials Chemistry. Vol. 22 (30), p. 15045-15049
Journal article
2011

Ionic liquids and oligomer electrolytes based on the B(CN)(4)(-) anion; ion association, physical and electrochemical propertiesw

Johan Scheers, Jagath Pitawala, Frederic Thebault et al
Physical Chemistry Chemical Physics. Vol. 13 (33), p. 14953-14959
Journal article
2011

Ion-ion and ion-solvent interactions in lithium imidazolide electrolytes studied by Raman spectroscopy and DFT models

Johan Scheers, L. Niedzicki, G. Z. Zukowska et al
Physical Chemistry Chemical Physics. Vol. 13 (23), p. 11136-11147
Journal article
2011

New anions for lithium battery electrolytes

Johan Scheers
Doctoral thesis
2011

Properties of N-butyl-N-methyl-pyrrolidinium Bis(trifluoromethanesulfonyl)Imide based electrolytes as a function of Lithium Bis(trifluoromethanesulfonyl)Imide doping

Jae-Kwang Kim, Johan Scheers, Jagath Pitawala et al
Journal of Korean Electrochemical Society. Vol. 14, p. 92-97
Journal article
2011

Ion-ion and ion-solvent interactions in lithium imidazolide electrolytes studied by Raman spectroscopy and DFT models

Johan Scheers, L. Niedzicki, G. Z. Zukowska et al
Physical Chemistry Chemical Physics. Vol. 13 (23), p. 11136-11147
Journal article
2010

Benzimidazole and imidazole lithium salts for battery electrolytes

Johan Scheers, Patrik Johansson, P. Szczecinski et al
Journal of Power Sources. Vol. 195 (18), p. 6081-6087
Paper in proceedings
2009

Anion-Additive Interactions Studied by Ab Initio Calculations and Raman Spectroscopy.

Johan Scheers, M Kalita, Patrik Johansson et al
Journal of the Electrochemical Society. Vol. 156 (4), p. A305-A308
Journal article
2008

Anions for lithium battery electrolytes: A spectroscopic and theoretical study of the B(CN)4- anion of the ionic liquid C2mim[B(CN)4]

Johan Scheers, Patrik Johansson, Per Jacobsson
Journal of the Electrochemical Society. Vol. 155 (9), p. A628-A634
Journal article
2008

Anions and Additives for Lithium Battery Electrolytes

Johan Scheers
Licentiate thesis