Multifunctional Porous Materials: Preparation, Structure, Modeling and Applications

Topic Information

Dear Colleagues,

Porous materials and functional porous composites demonstrate ubiquitous applications in the fields of thermal insulation, cushioning, soundproofing, wave absorption, separation, EMI shielding and many other industrial sectors that benefit from lightweightness and some other properties. The performance of porous products is primarily determined by the matrix type, fillers, porosity, pore size and the micro/nanostructure that formed during preparation. The methods for preparing porous materials include free foaming, constrained foaming, supercritical fluid foaming, foam injection molding, batch foaming, extrusion foaming, 3D printing as well as freeze-drying, etc. This Special Issue provides a forum for the discussion of the preparation, performance and modeling of multifunctional porous materials, with a focus on state-of-the-art progress, developments, and new trends. Perspectives, review articles, full papers, short communications, and technical papers on this topic are welcome.

Prof. Dr. Huawei Zou
Dr. Shengtai Zhou
Topic Editors

Keywords

Participating Journals

Journal Name	Impact Factor	CiteScore	Launched Year	First Decision (median)	APC
Applied Sciences applsci	2.5	5.3	2011	17.8 Days	CHF 2400	Submit
Journal of Composites Science jcs	3.0	5.0	2017	18.5 Days	CHF 1800	Submit
Materials materials	3.1	5.8	2008	15.5 Days	CHF 2600	Submit
Nanomaterials nanomaterials	4.4	8.5	2010	13.8 Days	CHF 2900	Submit
Polymers polymers	4.7	8.0	2009	14.5 Days	CHF 2700	Submit

MDPI Topics is cooperating with Preprints.org and has built a direct connection between MDPI journals and Preprints.org. Authors are encouraged to enjoy the benefits by posting a preprint at Preprints.org prior to publication:

1. Immediately share your ideas ahead of publication and establish your research priority;
2. Protect your idea from being stolen with this time-stamped preprint article;
3. Enhance the exposure and impact of your research;
4. Receive feedback from your peers in advance;
5. Have it indexed in Web of Science (Preprint Citation Index), Google Scholar, Crossref, SHARE, PrePubMed, Scilit and Europe PMC.

Published Papers (1 paper)

Order results

Content type Publication Date

Result details

Normal Extended Compact

Journals

All Applied Sciences J. Compos. Sci. Materials Nanomaterials Polymers

Show export options expand_more Show export options expand_less

Select all

Export citation of selected articles as:

Plain Text BibTeX BibTeX (without abstracts) Endnote Endnote (without abstracts) Tab-delimited RIS

Error

Oops... you haven't selected anything for export.

Ok

clear

9 pages, 542 KiB  

Open AccessArticle

Random Field Ising Model Criticality in a Complex Binary Liquid System

by Henrich Frielinghaus, Purushottam S. Dubey, Debasish Saha, Eunjoo Shin, Olaf Holderer, Jan V. Sengers and Stephan Förster

Nanomaterials 2024, 14(13), 1125; https://doi.org/10.3390/nano14131125 - 29 Jun 2024

Viewed by 373

Abstract

While Ising criticality in classical liquids has been firmly established both theoretically and experimentally, much less is known about criticality in liquids in which the growth of the correlation length is frustrated by finite-size effects. A theoretical approach for dealing with this issue [...] Read more.

While Ising criticality in classical liquids has been firmly established both theoretically and experimentally, much less is known about criticality in liquids in which the growth of the correlation length is frustrated by finite-size effects. A theoretical approach for dealing with this issue is the random-field Ising model (RFIM). While experimental critical-exponent values have been reported for magnetic samples (here, we consider $\gamma$, $\nu$ and $\eta$), little experimental information is available for critical fluctuations in corresponding liquid systems. In this paper, we present a study on a binary liquid consisting of 3-methyl pyridine and heavy water in a very light-weight porous gel. We find that the experimental results are in agreement with the theoretical predictions from the RFIM. Full article

(This article belongs to the Topic Multifunctional Porous Materials: Preparation, Structure, Modeling and Applications)

►▼ Show Figures

Figure 1

Show export options expand_more Show export options expand_less

Select all

Export citation of selected articles as:

Plain Text BibTeX BibTeX (without abstracts) Endnote Endnote (without abstracts) Tab-delimited RIS

 

Error

Oops... you haven't selected anything for export.

Ok

clear

Displaying articles 1-1