Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods
Mixed valence transition metal hexacyanoferrates (MeHCF)-Prussian blue and its analogs receive enormous research interest in the electrochemical sensing field. In recent years, conducting materials such as conducting polymer, carbon nanomaterial, and noble metals have been used to form nanocomposite...
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my.um.eprints.372842023-03-03T07:54:07Z http://eprints.um.edu.my/37284/ Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods Lee, Pui Kee Woi, Pei Meng QD Chemistry Mixed valence transition metal hexacyanoferrates (MeHCF)-Prussian blue and its analogs receive enormous research interest in the electrochemical sensing field. In recent years, conducting materials such as conducting polymer, carbon nanomaterial, and noble metals have been used to form nanocomposites with MeHCF. The scope of this review offers the reasons behind the preparation of various MeHCF based nanocomposite toward electrochemical detection. We primarily focus on the current progress of the development of MEHCF-based nanocomposites. The synthesis methods for these nanocomposites are also reviewed and discussed. Taylor & Francis Inc 2020-09-02 Article PeerReviewed Lee, Pui Kee and Woi, Pei Meng (2020) Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods. Critical Reviews in Analytical Chemistry, 50 (5). pp. 393-404. ISSN 1040-8347, DOI https://doi.org/10.1080/10408347.2019.1642733 <https://doi.org/10.1080/10408347.2019.1642733>. 10.1080/10408347.2019.1642733 |
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QD Chemistry Lee, Pui Kee Woi, Pei Meng Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods |
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Mixed valence transition metal hexacyanoferrates (MeHCF)-Prussian blue and its analogs receive enormous research interest in the electrochemical sensing field. In recent years, conducting materials such as conducting polymer, carbon nanomaterial, and noble metals have been used to form nanocomposites with MeHCF. The scope of this review offers the reasons behind the preparation of various MeHCF based nanocomposite toward electrochemical detection. We primarily focus on the current progress of the development of MEHCF-based nanocomposites. The synthesis methods for these nanocomposites are also reviewed and discussed. |
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Lee, Pui Kee Woi, Pei Meng |
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Lee, Pui Kee Woi, Pei Meng |
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Lee, Pui Kee |
title |
Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods |
title_short |
Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods |
title_full |
Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods |
title_fullStr |
Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods |
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Current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: Materials selection and synthesis methods |
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current innovations of metal hexacyanoferrates-based nanocomposites toward electrochemical sensing: materials selection and synthesis methods |
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Taylor & Francis Inc |
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2020 |
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http://eprints.um.edu.my/37284/ |
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