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Christian Koczwara
Christian Koczwara
Institute of Physics, Montanuniversität Leoben
Verified email at unileoben.ac.at
Title
Cited by
Cited by
Year
Quantification of ion confinement and desolvation in nanoporous carbon supercapacitors with modelling and in situ X-ray scattering
C Prehal, C Koczwara, N Jäckel, A Schreiber, M Burian, H Amenitsch, ...
Nature Energy 2 (3), 1-8, 2017
2342017
Nanoporous activated carbon cloth as a versatile material for hydrogen adsorption, selective gas separation and electrochemical energy storage
N Kostoglou, C Koczwara, C Prehal, V Terziyska, B Babic, B Matovic, ...
Nano Energy 40, 49-64, 2017
1182017
Salt concentration and charging velocity determine ion charge storage mechanism in nanoporous supercapacitors
C Prehal, C Koczwara, H Amenitsch, V Presser, O Paris
Nature communications 9 (1), 4145, 2018
932018
A carbon nanopore model to quantify structure and kinetics of ion electrosorption with in situ small-angle X-ray scattering
C Prehal, C Koczwara, N Jäckel, H Amenitsch, V Presser, O Paris
Physical Chemistry Chemical Physics 19 (23), 15549-15561, 2017
472017
Nanoporous polymer-derived activated carbon for hydrogen adsorption and electrochemical energy storage
N Kostoglou, C Koczwara, S Stock, C Tampaxis, G Charalambopoulou, ...
Chemical Engineering Journal 427, 131730, 2022
412022
In situ measurement of electrosorption-induced deformation reveals the importance of micropores in hierarchical carbons
C Koczwara, S Rumswinkel, C Prehal, N Jäckel, MS Elsässer, ...
ACS applied materials & interfaces 9 (28), 23319-23324, 2017
372017
Nanofibers versus Nanopores: a comparison of the electrochemical performance of hierarchically ordered porous carbons
C Koczwara, S Rumswinkel, L Hammerschmidt, M Salihovic, ...
ACS Applied Energy Materials 2 (7), 5279-5291, 2019
182019
Plasma-derived graphene-based materials for water purification and energy storage
N Natter, N Kostoglou, C Koczwara, C Tampaxis, T Steriotis, R Gupta, ...
C 5 (2), 16, 2019
182019
Towards real-time ion-specific structural sensitivity in nanoporous carbon electrodes using in situ anomalous small-angle X-ray scattering
C Koczwara, C Prehal, S Haas, P Boesecke, N Huesing, O Paris
ACS applied materials & interfaces 11 (45), 42214-42220, 2019
142019
Investigating the impact of E-mobility on the electrical power grid using a simplified grid modelling approach
J Vopava, C Koczwara, A Traupmann, T Kienberger
Energies 13 (1), 39, 2019
132019
Assessment and recommendations for a fossil free future for track work machinery
M Zeiner, M Landgraf, D Knabl, B Antony, V Barrena Cárdenas, ...
Sustainability 13 (20), 11444, 2021
102021
A Facile One‐Pot Synthesis of Hierarchically Organized Carbon/TiO2 Monoliths with Ordered Mesopores
J Schoiber, C Koczwara, S Rumswinkel, L Whitmore, C Prehal, F Putz, ...
ChemPlusChem 86 (2), 275-283, 2021
32021
A Methodology Linking Tamping Processes and Railway Track Behaviour
S Offenbacher, C Koczwara, M Landgraf, S Marschnig
Applied Sciences 13 (4), 2137, 2023
22023
Performance evaluation and in situ X-ray scattering of ordered mesoporous carbons for electrochemical energy storage applications
C Koczwara
22019
OD PIJUKA DO BEZEMISIJSKE MEHANIZACIJE ZA ODRŽAVANJE KOLOSIJEKA
M Demml, C Koczwara, S Omerović
Željeznice 21 22 (3), 25-29, 2023
2023
Tamping processes and track quality–an integrated analysis
S Offenbacher, S Marschnig, M Landgraf, C Koczwara
Proceedings of the 12TH INTERNATIONAL HEAVY HAUL ASSOCIATION CONFERENCE 2023 …, 2023
2023
Automation of the tamping process
DIO BARBIR, B Antony, C Koczwara, F Auer, D Adam, J Pistrol, F Kopf
Unwägbarkeiten in Planung & Ausführung von geotechnischen Maßnahmen, 127-136, 2022
2022
A facile one-pot synthesis towards hierarchically structured carbon/TiO2 monoliths with ordered mesopores
J Schoiber, C Koczwara, S Rumswinkel, L Whitmore, C Prehal, F Putz, ...
ChemPlusChem 2021, 2021
2021
Salt concentration and charging velocity determine ion charge storage mechanism in nanoporous supercapacitors (vol 9, 4145, 2018)
C Prehal, C Koczwara, H Amenitsch, V Presser, O Paris
NATURE COMMUNICATIONS 10, 2019
2019
Author Correction: Salt concentration and charging velocity determine ion charge storage mechanism in nanoporous supercapacitors
C Prehal, C Koczwara, H Amenitsch, V Presser, O Paris
Nature Communications 10, 2019
2019
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