Structural design of a high sensitivity biomass cellulose-based colorimetric sensor and its in situ visual recognition mechanism for Cu 2
A novel biomass cellulose-based colorimetric sensor (DAC-PDH) was prepared by a Schiff base reaction between the aldehyde groups of dialdehyde cellulose (DAC) and the amino groups of 2,6-pyridine dihydrazide (PDH). The as-prepared sensor (DAC-PDH) showed selective recognition of Cu and a visual colo...
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| Published in | Carbohydrate polymers Vol. 219; p. 95 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
01.09.2019
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| Subjects | |
| Online Access | Get full text |
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| Abstract | A novel biomass cellulose-based colorimetric sensor (DAC-PDH) was prepared by a Schiff base reaction between the aldehyde groups of dialdehyde cellulose (DAC) and the amino groups of 2,6-pyridine dihydrazide (PDH). The as-prepared sensor (DAC-PDH) showed selective recognition of Cu
and a visual colour change from white to green. The visual limit of detection for Cu
was 10
mol/L. Furthermore, DAC-PDH responded to Cu
within 30 s by the method of dynamic condition. The sensor possessed the properties of a high density of functional groups (CO, NH, NH
), a large external surface area, a short transit distance and flexibility; thus, Cu
can be rapidly absorbed and enriched on the DAC-PDH through multi-dentate ligand chelation between Cu
and the carbonyl groups (CO) and the amino groups (NH, NH
) of DAC-PDH. The as-prepared DAC-PDH colorimetric sensor exhibits promising prospects for in situ identification of Cu
. |
|---|---|
| AbstractList | A novel biomass cellulose-based colorimetric sensor (DAC-PDH) was prepared by a Schiff base reaction between the aldehyde groups of dialdehyde cellulose (DAC) and the amino groups of 2,6-pyridine dihydrazide (PDH). The as-prepared sensor (DAC-PDH) showed selective recognition of Cu
and a visual colour change from white to green. The visual limit of detection for Cu
was 10
mol/L. Furthermore, DAC-PDH responded to Cu
within 30 s by the method of dynamic condition. The sensor possessed the properties of a high density of functional groups (CO, NH, NH
), a large external surface area, a short transit distance and flexibility; thus, Cu
can be rapidly absorbed and enriched on the DAC-PDH through multi-dentate ligand chelation between Cu
and the carbonyl groups (CO) and the amino groups (NH, NH
) of DAC-PDH. The as-prepared DAC-PDH colorimetric sensor exhibits promising prospects for in situ identification of Cu
. |
| Author | Zhu, Hongxiang Lin, Jiehan Guo, Wei Zhou, Shile Wang, Lei Xue, Fei Cheng, Meixiao Wang, Shuangfei He, Hui |
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| Keywords | Colorimetric sensor Cellulose Grafting Recognition mechanism In situ identification |
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| Title | Structural design of a high sensitivity biomass cellulose-based colorimetric sensor and its in situ visual recognition mechanism for Cu 2 |
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