Metrics
0 Downloads
Share Dataset

Share this dataset on your favorite social media networks.

Pre-Critical and Giant Post-Freezing and Pre-Melting Effects for Dielectric Properties in a Binary Mixture of Limited Miscibility

Version 1.0

Kalabiński, Jakub; Drozd-Rzoska, Aleksandra; Starzonek, Szymon; Rzoska, Sylwester J., 2025, "Pre-Critical and Giant Post-Freezing and Pre-Melting Effects for Dielectric Properties in a Binary Mixture of Limited Miscibility", https://doi.org/10.18150/VVFAEP, RepOD, V1

Learn about Data Citation Standards.

Description

This report presents the results of dielectric studies in a nitrobenzene–decane critical mixture in the homogeneous liquid, biphasic mesophase, and the solid crystal phase. It focuses on detecting critical effects in the broad surrounding of the critical consolute temperature and pre-melting and post-freezing effects in the solid crystal phase. The strong manifestation of the diameter critical anomaly in the biphasic domain and the Mossotti catastrophe type pre-melting and post-freezing effects in the solid phase are evidenced. Studies include the puzzling low-frequency (LF) domain related to translational processes. The real part of electric conductivity, in LF limit, is well portrayed by the super-Arrhenius-type equation in the homogenous liquid and solid phases. The obtained experimental evidence can be significant for the cognitive progress of the still puzzling melting/freezing canonic discontinuous transition.


The names of the individual files correspond to the numbering of the figures in the paper: Kalabiński J, Drozd-Rzoska A, Starzonek S, Rzoska SJ. Pre-Critical and Giant Post-Freezing and Pre-Melting Effects for Dielectric Properties in a Binary Mixture of Limited Miscibility. Crystals. 2024; 14(7):612. https://doi.org/10.3390/cryst14070612

Files included in this collection:

Figure 1A.txt and Figure 1B.txt - Frequency scans of the real and imaginary parts of dielectric permittivity in the homogeneous liquid, upper (decane-rich) coexisting phase in the biphasic domain, and the solid phase for selected temperatures

Figure 2A.txt and Figure 2B.txt - Frequency scans of the real and imaginary parts of dielectric permittivity in the homogeneous liquid, lower (nitrobenzene-rich) coexisting phase in the biphasic domain, and the solid phase for selected temperatures

Figure 3.txt - Dielectric constant changes in three phases of nitrobenzene–decane mixture of critical concentration

Figure 4.txt - Pre-transitional changes of dielectric constant in nitrobenzene–decane critical mixture in the homogeneous liquid phase

Figure 5.txt - The real part of dielectric permittivity for selected frequencies in the static and low-frequency (LF) domains for the lower phase (nitrobenzene-rich) of the nitrobenzene–decane critical mixture

Figure 6.txt - The pre-melting effect for the real part of dielectric permittivity for selected frequencies

Figure 7.txt - The behavior of the real part of electric conductivity in the liquid, biphasic, and solid domains of nitrobenzene–decane critical mixture


(2024)
Subject
Physics
Keyword

critical binary mixture, critical consolute point, pre-melting effect, dielectric spectroscopy

Related Publication

Kalabiński, J.; Drozd-Rzoska, A.; Starzonek, S.; Rzoska, S.J. Pre-Critical and Giant Post-Freezing and Pre-Melting Effects for Dielectric Properties in a Binary Mixture of Limited Miscibility. Crystals 2024, 14, 612 https://doi.org/10.3390/cryst14070612 doi: 10.3390/cryst14070612

CC BY - Creative Commons Attribution 4.0 CC BY - Creative Commons Attribution 4.0

Find
1 to 9 of 9 Files
Figure 4.txt
Plain Text - 1.8 KB - Mar 13, 2025 - 0 Downloads
MD5: 5c95bf1c33bc0ba37751dfcef631bc08
License: CC BY - Creative Commons Attribution 4.0
Pre-transitional changes of dielectric constant in nitrobenzene–decane critical mixture in the homogeneous liquid phase
Preview
Download
Figure 5.txt
Plain Text - 8.8 KB - Mar 13, 2025 - 0 Downloads
MD5: f658fe9d5e5b119843280ee0897717c2
License: CC BY - Creative Commons Attribution 4.0
The real part of dielectric permittivity for selected frequencies in the static and low-frequency (LF) domains for the lower phase (nitrobenzene-rich) of the nitrobenzene–decane critical mixture
Preview
Download
Figure 6.txt
Plain Text - 1.8 KB - Mar 13, 2025 - 0 Downloads
MD5: 4ecb9b884c95f97a8f8af51e60c40612
License: CC BY - Creative Commons Attribution 4.0
The pre-melting effect for the real part of dielectric permittivity for selected frequencies
Preview
Download
Figure 7.txt
Plain Text - 18.6 KB - Mar 13, 2025 - 0 Downloads
MD5: 82ed85d7e2cb45f09b96fe83cb27cb0c
License: CC BY - Creative Commons Attribution 4.0
The behavior of the real part of electric conductivity in the liquid, biphasic, and solid domains of nitrobenzene–decane critical mixture
Preview
Download
Figure 1A.txt
Plain Text - 4.5 KB - Mar 13, 2025 - 0 Downloads
MD5: 4db6f7ab21174cc25c2545cd02b27409
License: CC BY - Creative Commons Attribution 4.0
Frequency scans of the real and imaginary parts of dielectric permittivity in the homogeneous liquid, upper (decane-rich) coexisting phase in the biphasic domain, and the solid phase for selected temperatures
Preview
Download
Figure 1B.txt
Plain Text - 4.9 KB - Mar 13, 2025 - 0 Downloads
MD5: f062c840b6bfb86b8a1c3b8c2989f1e9
License: CC BY - Creative Commons Attribution 4.0
Frequency scans of the real and imaginary parts of dielectric permittivity in the homogeneous liquid, upper (decane-rich) coexisting phase in the biphasic domain, and the solid phase for selected temperatures
Preview
Download
Figure 2A.txt
Plain Text - 4.0 KB - Mar 13, 2025 - 0 Downloads
MD5: 7a39c579e5e41fd3a49efc64a75e615d
License: CC BY - Creative Commons Attribution 4.0
Frequency scans of the real and imaginary parts of dielectric permittivity in the homogeneous liquid, lower (nitrobenzene-rich) coexisting phase in the biphasic domain, and the solid phase for selected temperatures
Preview
Download
Figure 2B.txt
Plain Text - 4.5 KB - Mar 13, 2025 - 0 Downloads
MD5: 36c864e2cd1d8931ab39e9a90d8be3cc
License: CC BY - Creative Commons Attribution 4.0
Frequency scans of the real and imaginary parts of dielectric permittivity in the homogeneous liquid, lower (nitrobenzene-rich) coexisting phase in the biphasic domain, and the solid phase for selected temperatures
Preview
Download
Figure 3.txt
Plain Text - 11.0 KB - Mar 13, 2025 - 0 Downloads
MD5: 6e6c8ab7a44a26f294769c3333655294
License: CC BY - Creative Commons Attribution 4.0
Dielectric constant changes in three phases of nitrobenzene–decane mixture of critical concentration
Preview
Download
Select File(s)

Please select a file or files to be deleted.

Delete Files

The file(s) will be deleted after you click on the Delete button.

Files will not be removed from previously published versions of the dataset.

Select File(s)

Please select a file or files to be edited.

Select File(s)

Please select a file or files to be edited.

Select File(s)

Please select a file or files to be edited.

Edit license

For selected file(s) set a license to

Select File(s)

Please select a file or files to be downloaded.

Select File(s)

Please select a file or files for access request.

Select File(s)

Please select restricted file(s) to be unrestricted.

Request Access

  You need to Log In/Sign Up to request access to this file.

Continue
Dataset Terms

Please confirm and/or complete the information needed below in order to continue.

Asterisks indicate required fields

Request Access

Access to file(s) subject to additional consent under following conditions:

Accept
Package File Download
Restricted Files Selected

The restricted file(s) selected may not be downloaded because you have not been granted access.

Restricted Files Selected

The restricted file(s) selected may not be downloaded because you have not been granted access.

Click Continue to download the files you have access to download.

Delete Dataset

Are you sure you want to delete this dataset and all of its files? You cannot undelete this dataset.

Embargo

Embargo

Are you sure you want to lift the embargo?

Once you lift the embargo, you will not be able to set it again.

Delete Draft Version

Are you sure you want to delete this draft version? Files will be reverted to the most recently published version. You cannot undelete this draft.

Dataset Private URL

Use a Private URL to allow those without Dataverse accounts to access your dataset. For more information about the Private URL feature, please refer to the User Guide.

Private URL has not been created.

Dataset Private URL

Are you sure you want to disable the Private URL? If you have shared the Private URL with others they will no longer be able to use it to access your dataset.

Submit for Review

You will not be able to make changes to this dataset while it is in review.

Submit
Publish Dataset

This dataset cannot be published until Institute of High Pressure Physics is published. Would you like to publish both right now?

Once you publish this dataset it must remain published.

Publish Dataset

Are you sure you want to republish this dataset?

Select if this is a minor or major version update.

Publish Dataset

This dataset cannot be published until Institute of High Pressure Physics is published by its administrator.

Publish Dataset

This dataset cannot be published until Institute of High Pressure Physics and RepOD are published.

Return for modification


Send a copy of this message to the return e-mail address.
OK
Deaccession Dataset

Are you sure you want to deaccession? The selected version(s) will no longer be viewable by the public.