---
_id: '62814'
abstract:
- lang: eng
text: Porous carbons are prominent electrode materials in energy storage applications
such as supercapacitors. However, rational materials development is hampered by
difficulties in interpreting electrochemical impedance spectra (EIS) and drawing
conclusions about promising aspects of device improvement. Here, we characterized
electrodes consisting of activated carbon with polyacrylic acid binder in four
different concentrations of sulfuric acid, using cyclic voltammetry and electrochemical
impedance spectroscopy. Both datasets were evaluated with simple equivalent circuits
and comparatively analyzed. Conductivity of the electrolyte was independently
measured. Cyclic voltammograms (CV) show larger resistance and capacitance at
low scan rates. Resistances obtained from EIS are in good agreement with those
obtained by cyclic voltammograms particularly at high scan rates. The comparison
against specific electrolyte resistance can reveal whether resistances within
the solid electrode architecture or resistances within the electrolyte, partially
confined by pores, are the dominant cause of increased resistance at low scan
rate. Comparison between CV and EIS points to the main electrode capacitance being
described by a constant phase element (CPE) used to fit the low-frequency region
of EIS.
author:
- first_name: Sebastian
full_name: Reinke, Sebastian
id: '117727'
last_name: Reinke
- first_name: Vera
full_name: Khamitsevich, Vera
last_name: Khamitsevich
- first_name: Julia
full_name: Linnemann, Julia
id: '116779'
last_name: Linnemann
orcid: 0000-0001-6883-5424
citation:
ama: 'Reinke S, Khamitsevich V, Linnemann J. Complementary Analysis of Cyclic Voltammograms
and Impedance Spectra of Porous Carbon Electrodes. In: 2024 International Workshop
on Impedance Spectroscopy (IWIS). IEEE; 2025. doi:10.1109/iwis63047.2024.10847115'
apa: Reinke, S., Khamitsevich, V., & Linnemann, J. (2025). Complementary Analysis
of Cyclic Voltammograms and Impedance Spectra of Porous Carbon Electrodes. 2024
International Workshop on Impedance Spectroscopy (IWIS). https://doi.org/10.1109/iwis63047.2024.10847115
bibtex: '@inproceedings{Reinke_Khamitsevich_Linnemann_2025, title={Complementary
Analysis of Cyclic Voltammograms and Impedance Spectra of Porous Carbon Electrodes},
DOI={10.1109/iwis63047.2024.10847115},
booktitle={2024 International Workshop on Impedance Spectroscopy (IWIS)}, publisher={IEEE},
author={Reinke, Sebastian and Khamitsevich, Vera and Linnemann, Julia}, year={2025}
}'
chicago: Reinke, Sebastian, Vera Khamitsevich, and Julia Linnemann. “Complementary
Analysis of Cyclic Voltammograms and Impedance Spectra of Porous Carbon Electrodes.”
In 2024 International Workshop on Impedance Spectroscopy (IWIS). IEEE,
2025. https://doi.org/10.1109/iwis63047.2024.10847115.
ieee: 'S. Reinke, V. Khamitsevich, and J. Linnemann, “Complementary Analysis of
Cyclic Voltammograms and Impedance Spectra of Porous Carbon Electrodes,” 2025,
doi: 10.1109/iwis63047.2024.10847115.'
mla: Reinke, Sebastian, et al. “Complementary Analysis of Cyclic Voltammograms and
Impedance Spectra of Porous Carbon Electrodes.” 2024 International Workshop
on Impedance Spectroscopy (IWIS), IEEE, 2025, doi:10.1109/iwis63047.2024.10847115.
short: 'S. Reinke, V. Khamitsevich, J. Linnemann, in: 2024 International Workshop
on Impedance Spectroscopy (IWIS), IEEE, 2025.'
date_created: 2025-12-03T16:06:09Z
date_updated: 2026-01-19T15:41:43Z
department:
- _id: '985'
doi: 10.1109/iwis63047.2024.10847115
extern: '1'
keyword:
- electrochemical impedance spectroscopy
- distorted cyclic voltammograms
- supercapacitors
- carbon
language:
- iso: eng
publication: 2024 International Workshop on Impedance Spectroscopy (IWIS)
publication_status: published
publisher: IEEE
quality_controlled: '1'
status: public
title: Complementary Analysis of Cyclic Voltammograms and Impedance Spectra of Porous
Carbon Electrodes
type: conference
user_id: '116779'
year: '2025'
...
---
_id: '62812'
abstract:
- lang: eng
text: Attributing features of electrochemical impedance spectra to electrochemical
phenomena is both crucial and frequently ambiguous. To elucidate the origin of
the ohmic part of the spectrum, activated carbon electrodes were prepared with
different contents of polyacrylic acid as binder. Their impedance spectra and
cyclic voltammograms were recorded using sulfuric acid of five different concentrations
as the electrolyte. To distinguish electrolyte resistance and resistances related
to the activated carbon layer of the electrode, the specific electrolyte conductivity
was independently measured and compared against the ohmic part of the electrochemical
impedance spectra (EIS). The capacitive cyclic voltammograms show larger resistive
contributions with higher scan rate and lower electrolyte conductivity. Comparing
the ohmic part of the EIS to the specific resistance of the electrolyte, a linear
function with no statistically significant offset was found. The ohmic part of
the EIS, thus, reflects the electrolyte resistance, not that of the carbon electrode.
author:
- first_name: Sebastian
full_name: Reinke, Sebastian
id: '117727'
last_name: Reinke
- first_name: Vera
full_name: Khamitsevich, Vera
last_name: Khamitsevich
- first_name: Oliver
full_name: Röth, Oliver
id: '117786'
last_name: Röth
- first_name: Julia
full_name: Linnemann, Julia
id: '116779'
last_name: Linnemann
orcid: 0000-0001-6883-5424
citation:
ama: 'Reinke S, Khamitsevich V, Röth O, Linnemann J. Assessment of the Physicochemical
Meaning of the Ohmic Series Resistance Observed for High Frequencies in Electrochemical
Impedance Spectra. In: 2023 International Workshop on Impedance Spectroscopy
(IWIS). IEEE; 2023. doi:10.1109/iwis61214.2023.10302764'
apa: Reinke, S., Khamitsevich, V., Röth, O., & Linnemann, J. (2023). Assessment
of the Physicochemical Meaning of the Ohmic Series Resistance Observed for High
Frequencies in Electrochemical Impedance Spectra. 2023 International Workshop
on Impedance Spectroscopy (IWIS). https://doi.org/10.1109/iwis61214.2023.10302764
bibtex: '@inproceedings{Reinke_Khamitsevich_Röth_Linnemann_2023, title={Assessment
of the Physicochemical Meaning of the Ohmic Series Resistance Observed for High
Frequencies in Electrochemical Impedance Spectra}, DOI={10.1109/iwis61214.2023.10302764},
booktitle={2023 International Workshop on Impedance Spectroscopy (IWIS)}, publisher={IEEE},
author={Reinke, Sebastian and Khamitsevich, Vera and Röth, Oliver and Linnemann,
Julia}, year={2023} }'
chicago: Reinke, Sebastian, Vera Khamitsevich, Oliver Röth, and Julia Linnemann.
“Assessment of the Physicochemical Meaning of the Ohmic Series Resistance Observed
for High Frequencies in Electrochemical Impedance Spectra.” In 2023 International
Workshop on Impedance Spectroscopy (IWIS). IEEE, 2023. https://doi.org/10.1109/iwis61214.2023.10302764.
ieee: 'S. Reinke, V. Khamitsevich, O. Röth, and J. Linnemann, “Assessment of the
Physicochemical Meaning of the Ohmic Series Resistance Observed for High Frequencies
in Electrochemical Impedance Spectra,” 2023, doi: 10.1109/iwis61214.2023.10302764.'
mla: Reinke, Sebastian, et al. “Assessment of the Physicochemical Meaning of the
Ohmic Series Resistance Observed for High Frequencies in Electrochemical Impedance
Spectra.” 2023 International Workshop on Impedance Spectroscopy (IWIS),
IEEE, 2023, doi:10.1109/iwis61214.2023.10302764.
short: 'S. Reinke, V. Khamitsevich, O. Röth, J. Linnemann, in: 2023 International
Workshop on Impedance Spectroscopy (IWIS), IEEE, 2023.'
date_created: 2025-12-03T15:58:28Z
date_updated: 2026-01-19T15:40:41Z
department:
- _id: '985'
doi: 10.1109/iwis61214.2023.10302764
extern: '1'
keyword:
- electrochemical impedance spectroscopy
- supercapacitors
- carbon
language:
- iso: eng
publication: 2023 International Workshop on Impedance Spectroscopy (IWIS)
publication_status: published
publisher: IEEE
quality_controlled: '1'
status: public
title: Assessment of the Physicochemical Meaning of the Ohmic Series Resistance Observed
for High Frequencies in Electrochemical Impedance Spectra
type: conference
user_id: '116779'
year: '2023'
...
---
_id: '62813'
abstract:
- lang: eng
text: Nanostructured manganese oxides have a rich variety of morphologies and crystal
phases which can undergo transformations during synthesis and application. Although
these structural features are crucial for their performance, the mechanisms behind
such transitions are not well understood. Herein, we describe the mechanism of
transformation from layered 2D δ-MnO2 nanosheets to the scarcely reported γ-MnO2
nanocone morphology. Despite the common purpose of introducing Fe dopants to enhance
the conductivity of layered manganese oxides, the Fe galvanic exchange reaction
was found responsible for such coupled phase/morphology transition. Electrochemical
characterization confirmed a distinct electrochemical behaviour of the nanocones,
emphasizing the need to unravel the mechanism of 2D MnO2 transformation. Such
mechanistic insights were gained by systematic and rigorous electron microscopy
studies. The effect of the local chemical composition was determined by energy
dispersive X-ray spectroscopy while electron energy loss spectroscopy unravelled
the key influence of the oxidation state of Mn ions within nanosheets and nanocones.
We propose and demonstrate a Mn2+-mediated oxidative mechanism of coupled morphology/phase
transformation subjected to the equilibrium of Fe and Mn ions during galvanic
exchange reaction. These findings contribute to the understanding of the growth
and morphology/phase transformations of manganese oxide nanostructures, providing
insights for the rational design of nanomaterials.
article_type: original
author:
- first_name: Raquel
full_name: Aymerich-Armengol, Raquel
last_name: Aymerich-Armengol
- first_name: Paolo
full_name: Cignoni, Paolo
last_name: Cignoni
- first_name: Petra
full_name: Ebbinghaus, Petra
last_name: Ebbinghaus
- first_name: Julia
full_name: Linnemann, Julia
id: '116779'
last_name: Linnemann
orcid: 0000-0001-6883-5424
- first_name: Martin
full_name: Rabe, Martin
last_name: Rabe
- first_name: Kristina
full_name: Tschulik, Kristina
last_name: Tschulik
- first_name: Christina
full_name: Scheu, Christina
last_name: Scheu
- first_name: Joohyun
full_name: Lim, Joohyun
last_name: Lim
citation:
ama: Aymerich-Armengol R, Cignoni P, Ebbinghaus P, et al. Mechanism of coupled phase/morphology
transformation of 2D manganese oxides through Fe galvanic exchange reaction. Journal
of Materials Chemistry A. 2022;10(45):24190-24198. doi:10.1039/d2ta06552e
apa: Aymerich-Armengol, R., Cignoni, P., Ebbinghaus, P., Linnemann, J., Rabe, M.,
Tschulik, K., Scheu, C., & Lim, J. (2022). Mechanism of coupled phase/morphology
transformation of 2D manganese oxides through Fe galvanic exchange reaction. Journal
of Materials Chemistry A, 10(45), 24190–24198. https://doi.org/10.1039/d2ta06552e
bibtex: '@article{Aymerich-Armengol_Cignoni_Ebbinghaus_Linnemann_Rabe_Tschulik_Scheu_Lim_2022,
title={Mechanism of coupled phase/morphology transformation of 2D manganese oxides
through Fe galvanic exchange reaction}, volume={10}, DOI={10.1039/d2ta06552e},
number={45}, journal={Journal of Materials Chemistry A}, publisher={Royal Society
of Chemistry (RSC)}, author={Aymerich-Armengol, Raquel and Cignoni, Paolo and
Ebbinghaus, Petra and Linnemann, Julia and Rabe, Martin and Tschulik, Kristina
and Scheu, Christina and Lim, Joohyun}, year={2022}, pages={24190–24198} }'
chicago: 'Aymerich-Armengol, Raquel, Paolo Cignoni, Petra Ebbinghaus, Julia Linnemann,
Martin Rabe, Kristina Tschulik, Christina Scheu, and Joohyun Lim. “Mechanism of
Coupled Phase/Morphology Transformation of 2D Manganese Oxides through Fe Galvanic
Exchange Reaction.” Journal of Materials Chemistry A 10, no. 45 (2022):
24190–98. https://doi.org/10.1039/d2ta06552e.'
ieee: 'R. Aymerich-Armengol et al., “Mechanism of coupled phase/morphology
transformation of 2D manganese oxides through Fe galvanic exchange reaction,”
Journal of Materials Chemistry A, vol. 10, no. 45, pp. 24190–24198, 2022,
doi: 10.1039/d2ta06552e.'
mla: Aymerich-Armengol, Raquel, et al. “Mechanism of Coupled Phase/Morphology Transformation
of 2D Manganese Oxides through Fe Galvanic Exchange Reaction.” Journal of Materials
Chemistry A, vol. 10, no. 45, Royal Society of Chemistry (RSC), 2022, pp.
24190–98, doi:10.1039/d2ta06552e.
short: R. Aymerich-Armengol, P. Cignoni, P. Ebbinghaus, J. Linnemann, M. Rabe, K.
Tschulik, C. Scheu, J. Lim, Journal of Materials Chemistry A 10 (2022) 24190–24198.
date_created: 2025-12-03T16:02:15Z
date_updated: 2025-12-03T16:30:43Z
department:
- _id: '985'
doi: 10.1039/d2ta06552e
extern: '1'
intvolume: ' 10'
issue: '45'
keyword:
- manganese oxide
- nanomaterials
- TEM
- supercapacitors
language:
- iso: eng
main_file_link:
- open_access: '1'
oa: '1'
page: 24190-24198
publication: Journal of Materials Chemistry A
publication_identifier:
issn:
- 2050-7488
- 2050-7496
publication_status: published
publisher: Royal Society of Chemistry (RSC)
quality_controlled: '1'
status: public
title: Mechanism of coupled phase/morphology transformation of 2D manganese oxides
through Fe galvanic exchange reaction
type: journal_article
user_id: '116779'
volume: 10
year: '2022'
...
---
_id: '62807'
abstract:
- lang: eng
text: The thermolysis of electrodeposited metal–organic framework (MOF) films represents
a novel approach to build supercapacitor electrodes of already electrically contacted
MOF-derived high-performance metal oxide/carbon materials which are also highly
interesting for other applications. MOFs are widely utilised as precursors to
synthesise functional materials by thermal decomposition (pyrolysis, carbonisation).
Using electrochemically coated MOF precursor films instead of powder greatly simplifies
the processing of such materials and potentially enhances the resulting active
materials' performance. In the case of electrochemical energy storage electrodes,
the coated substrate later functions as current collector which is well-attached
to the active material without the need for any additives. This close connection
decreases electron transfer resistances and saves multiple steps of powder formulation
and coating. Films of a metal–organic framework based on 1,3,5-benzene-tricarboxylate
(BTC) and cobalt(II) cations were electrochemically coated on cobalt foils which
act as the Co2+ cation source. Manganese films were electrodeposited and subsequently
partly redissolved in a linker-containing electrolyte to achieve Mn/Mn–BTC bilayered
films on stainless steel. This procedure extends the method for any kind of current
collector material. The films were thermolysed to gain nanostructured metal oxide
spinel (Me3O4)/carbon hybrid electrodes. Investigations of the electrochemical
properties in regard to supercapacitor applications show that Co3O4/C films exhibit
pseudocapacitance and that Mn3O4/C films are suitable for redox electrodes with
high-rate capability operating in a wide potential range in aqueous electrolytes.
Co–BTC powder was also thermally treated yielding cobalt particles embedded in
a graphitic carbon matrix. The pseudocapacitive properties of conventionally coated
films of this powder material are limited.
article_type: original
author:
- first_name: Julia
full_name: Linnemann, Julia
id: '116779'
last_name: Linnemann
orcid: 0000-0001-6883-5424
- first_name: Laura
full_name: Taudien, Laura
last_name: Taudien
- first_name: Markus
full_name: Klose, Markus
last_name: Klose
- first_name: Lars
full_name: Giebeler, Lars
last_name: Giebeler
citation:
ama: 'Linnemann J, Taudien L, Klose M, Giebeler L. Electrodeposited films to MOF-derived
electrochemical energy storage electrodes: a concept of simplified additive-free
electrode processing for self-standing, ready-to-use materials. Journal of
Materials Chemistry A. 2017;5(35):18420-18428. doi:10.1039/c7ta01874f'
apa: 'Linnemann, J., Taudien, L., Klose, M., & Giebeler, L. (2017). Electrodeposited
films to MOF-derived electrochemical energy storage electrodes: a concept of simplified
additive-free electrode processing for self-standing, ready-to-use materials.
Journal of Materials Chemistry A, 5(35), 18420–18428. https://doi.org/10.1039/c7ta01874f'
bibtex: '@article{Linnemann_Taudien_Klose_Giebeler_2017, title={Electrodeposited
films to MOF-derived electrochemical energy storage electrodes: a concept of simplified
additive-free electrode processing for self-standing, ready-to-use materials},
volume={5}, DOI={10.1039/c7ta01874f},
number={35}, journal={Journal of Materials Chemistry A}, publisher={Royal Society
of Chemistry (RSC)}, author={Linnemann, Julia and Taudien, Laura and Klose, Markus
and Giebeler, Lars}, year={2017}, pages={18420–18428} }'
chicago: 'Linnemann, Julia, Laura Taudien, Markus Klose, and Lars Giebeler. “Electrodeposited
Films to MOF-Derived Electrochemical Energy Storage Electrodes: A Concept of Simplified
Additive-Free Electrode Processing for Self-Standing, Ready-to-Use Materials.”
Journal of Materials Chemistry A 5, no. 35 (2017): 18420–28. https://doi.org/10.1039/c7ta01874f.'
ieee: 'J. Linnemann, L. Taudien, M. Klose, and L. Giebeler, “Electrodeposited films
to MOF-derived electrochemical energy storage electrodes: a concept of simplified
additive-free electrode processing for self-standing, ready-to-use materials,”
Journal of Materials Chemistry A, vol. 5, no. 35, pp. 18420–18428, 2017,
doi: 10.1039/c7ta01874f.'
mla: 'Linnemann, Julia, et al. “Electrodeposited Films to MOF-Derived Electrochemical
Energy Storage Electrodes: A Concept of Simplified Additive-Free Electrode Processing
for Self-Standing, Ready-to-Use Materials.” Journal of Materials Chemistry
A, vol. 5, no. 35, Royal Society of Chemistry (RSC), 2017, pp. 18420–28, doi:10.1039/c7ta01874f.'
short: J. Linnemann, L. Taudien, M. Klose, L. Giebeler, Journal of Materials Chemistry
A 5 (2017) 18420–18428.
date_created: 2025-12-03T15:43:52Z
date_updated: 2025-12-03T16:34:29Z
department:
- _id: '985'
doi: 10.1039/c7ta01874f
extern: '1'
intvolume: ' 5'
issue: '35'
keyword:
- electrodeposition
- metal-organic framework
- MOF
- supercapacitors
language:
- iso: eng
main_file_link:
- open_access: '1'
oa: '1'
page: 18420-18428
publication: Journal of Materials Chemistry A
publication_identifier:
issn:
- 2050-7488
- 2050-7496
publication_status: published
publisher: Royal Society of Chemistry (RSC)
quality_controlled: '1'
status: public
title: 'Electrodeposited films to MOF-derived electrochemical energy storage electrodes:
a concept of simplified additive-free electrode processing for self-standing, ready-to-use
materials'
type: journal_article
user_id: '116779'
volume: 5
year: '2017'
...
---
_id: '62808'
abstract:
- lang: eng
text: Conventional alkaline solutions used for capacitive performance of electrodeposited
cobalt hydroxides have a number of disadvantages as they are corrosive, environmentally
unfriendly and provide a small working potential range. In this study, the capacitive
properties of electrodeposited cobalt hydroxide/oxide were investigated in 1 M
Na2SO4 solution with pH 5.5 by means of cyclic voltammetry, galvanostatic charging/discharging
experiments and electrochemical impedance spectroscopy. The capacitance of the
cobalt hydroxide/oxide was demonstrated to have high values of 141 F g−1 at scan
rate 8 mV s−1 in this 1 M Na2SO4 solution. The anodic potential range is extended
by 0.8–1.3 V vs. Ag/AgCl. A good cyclic stability and reversibility were observed.
article_type: original
author:
- first_name: Fedor S.
full_name: Fedorov, Fedor S.
last_name: Fedorov
- first_name: Julia
full_name: Linnemann, Julia
id: '116779'
last_name: Linnemann
orcid: 0000-0001-6883-5424
- first_name: Kristina
full_name: Tschulik, Kristina
last_name: Tschulik
- first_name: Lars
full_name: Giebeler, Lars
last_name: Giebeler
- first_name: Margitta
full_name: Uhlemann, Margitta
last_name: Uhlemann
- first_name: Annett
full_name: Gebert, Annett
last_name: Gebert
citation:
ama: Fedorov FS, Linnemann J, Tschulik K, Giebeler L, Uhlemann M, Gebert A. Capacitance
performance of cobalt hydroxide-based capacitors with utilization of near-neutral
electrolytes. Electrochimica Acta. 2012;90:166-170. doi:10.1016/j.electacta.2012.11.123
apa: Fedorov, F. S., Linnemann, J., Tschulik, K., Giebeler, L., Uhlemann, M., &
Gebert, A. (2012). Capacitance performance of cobalt hydroxide-based capacitors
with utilization of near-neutral electrolytes. Electrochimica Acta, 90,
166–170. https://doi.org/10.1016/j.electacta.2012.11.123
bibtex: '@article{Fedorov_Linnemann_Tschulik_Giebeler_Uhlemann_Gebert_2012, title={Capacitance
performance of cobalt hydroxide-based capacitors with utilization of near-neutral
electrolytes}, volume={90}, DOI={10.1016/j.electacta.2012.11.123},
journal={Electrochimica Acta}, publisher={Elsevier BV}, author={Fedorov, Fedor
S. and Linnemann, Julia and Tschulik, Kristina and Giebeler, Lars and Uhlemann,
Margitta and Gebert, Annett}, year={2012}, pages={166–170} }'
chicago: 'Fedorov, Fedor S., Julia Linnemann, Kristina Tschulik, Lars Giebeler,
Margitta Uhlemann, and Annett Gebert. “Capacitance Performance of Cobalt Hydroxide-Based
Capacitors with Utilization of near-Neutral Electrolytes.” Electrochimica Acta
90 (2012): 166–70. https://doi.org/10.1016/j.electacta.2012.11.123.'
ieee: 'F. S. Fedorov, J. Linnemann, K. Tschulik, L. Giebeler, M. Uhlemann, and A.
Gebert, “Capacitance performance of cobalt hydroxide-based capacitors with utilization
of near-neutral electrolytes,” Electrochimica Acta, vol. 90, pp. 166–170,
2012, doi: 10.1016/j.electacta.2012.11.123.'
mla: Fedorov, Fedor S., et al. “Capacitance Performance of Cobalt Hydroxide-Based
Capacitors with Utilization of near-Neutral Electrolytes.” Electrochimica Acta,
vol. 90, Elsevier BV, 2012, pp. 166–70, doi:10.1016/j.electacta.2012.11.123.
short: F.S. Fedorov, J. Linnemann, K. Tschulik, L. Giebeler, M. Uhlemann, A. Gebert,
Electrochimica Acta 90 (2012) 166–170.
date_created: 2025-12-03T15:47:09Z
date_updated: 2025-12-03T16:35:20Z
department:
- _id: '985'
doi: 10.1016/j.electacta.2012.11.123
extern: '1'
intvolume: ' 90'
keyword:
- electrodeposition
- cobalt hydroxide
- supercapacitors
language:
- iso: eng
page: 166-170
publication: Electrochimica Acta
publication_identifier:
issn:
- 0013-4686
publication_status: published
publisher: Elsevier BV
quality_controlled: '1'
status: public
title: Capacitance performance of cobalt hydroxide-based capacitors with utilization
of near-neutral electrolytes
type: journal_article
user_id: '116779'
volume: 90
year: '2012'
...