﻿<?xml version="1.0" encoding="utf-8" ?>
<XML>
  <ISCJOURNAL>
    <YEAR>2023</YEAR>
    <VOL>5</VOL>
    <NO>14</NO>
    <MOSALSAL>14</MOSALSAL>
    <PAGE_NO>13</PAGE_NO>
    <ARTICLES>
      <ARTICLE>
        <LANGUAGE_ID>1</LANGUAGE_ID>
        <TitleF/>
        <TitleE>A critical review about metal organic framework-based composites: Potential
          applications and future perspective</TitleE>
        <URL>https://jourcc.com/index.php/jourcc/article/view/jcc515</URL>
        <DOI>10.52547.jcc.5.1.5</DOI>
        <DOR/>
        <ABSTRACTS>
          <ABSTRACT>
            <LANGUAGE_ID>1</LANGUAGE_ID>
            <CONTENT>The properties of metal-organic frameworks (MOFs), a potential class of porous
              crystalline materials with a wide range of uses, depend on their structural details,
              including compositions and architectural designs. Through functionalization and their
              interaction with other nanomaterials, MOFs' structure and design have undergone
              changes as a result of their extensive research. Numerous outstanding evaluations on
              single MOFs, MOF-based composites created through conjugation with non-MOF materials,
              and their derivatives have summarized the developments in the field of MOFs. A
              thorough examination of MOFs and their combination is, however, lacking. In this
              perspective, we present a current and thorough description of the accomplishments of
              MOF-based hybrids below. First, a description of the synthetic strategy/formation
              process is provided to illustrate how host and visitor MOFs interact. The structural
              diversity in MOF-based systems is then thoroughly examined to show how MOF systems
              enable advancements in abased composites for a variety of applications, particularly
              in the medical and environmental fields. Finally, we present our personal opinions on
              the difficulties and potential paths for the development of MOFs materials.</CONTENT>
          </ABSTRACT>
        </ABSTRACTS>
        <PAGES>
          <PAGE>
            <FPAGE>25</FPAGE>
            <TPAGE>37</TPAGE>
          </PAGE>
        </PAGES>
        <AUTHORS>
          <AUTHOR>
            <Name/>
            <MidName/>
            <Family/>
            <NameE>Hicham</NameE>
            <MidNameE/>
            <FamilyE>Meskher</FamilyE>
            <Organizations>
              <Organization>Kasdi-Merbah University</Organization>
            </Organizations>
            <Countries>
              <Country>Algeria</Country>
            </Countries>
            <EMAILS>
              <Email>hicham.meskher@g.enp.edu.dz</Email>
            </EMAILS>
          </AUTHOR>
        </AUTHORS>
        <KEYWORDS>
          <KEYWORD>
            <KeyText>Metal organic framework</KeyText>
          </KEYWORD>
          <KEYWORD>
            <KeyText>Synthetic strategy</KeyText>
          </KEYWORD>
          <KEYWORD>
            <KeyText>Application</KeyText>
          </KEYWORD>
          <KEYWORD>
            <KeyText>Nanohybrids</KeyText>
          </KEYWORD>
          <KEYWORD>
            <KeyText>Metal nanoparticles</KeyText>
          </KEYWORD>
        </KEYWORDS>
        <PDFFileName>Article5.pdf</PDFFileName>
        <REFRENCES>
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