Author
Listed:
- Heng-Yun Ye
(Ordered Matter Science Research Center, Southeast University)
- Wei-Qiang Liao
(Ordered Matter Science Research Center, Southeast University)
- Qionghua Zhou
(Southeast University)
- Yi Zhang
(Ordered Matter Science Research Center, Southeast University)
- Jinlan Wang
(Southeast University)
- Yu-Meng You
(Ordered Matter Science Research Center, Southeast University)
- Jin-Yun Wang
(Fujian Institute of Research on the Structure of Matter, The Chinese Academy of Sciences)
- Zhong-Ning Chen
(Fujian Institute of Research on the Structure of Matter, The Chinese Academy of Sciences)
- Peng-Fei Li
(Ordered Matter Science Research Center, Southeast University)
- Da-Wei Fu
(Ordered Matter Science Research Center, Southeast University)
- Songping D. Huang
(Kent State University)
- Ren-Gen Xiong
(Ordered Matter Science Research Center, Southeast University
Kent State University)
Abstract
The process of molecular recognition is the assembly of two or more molecules through weak interactions. Information in the process of molecular recognition can be transmitted to us via physical signals, which may find applications in sensing and switching. The conventional signals are mainly limited to light signal. Here, we describe the recognition of diols with Cu(1,10-phenlothroline)2SeO4 and the transduction of discrete recognition events into dielectric and/or ferroelectric signals. We observe that systems of Cu(1,10-phenlothroline)2SeO4·(diol) exhibit significant dielectric and/or ferroelectric dependence on different diol molecules. The compounds including ethane-1,2-diol or propane-1,2-diol just show small temperature-dependent dielectric anomalies and no reversible polarization, while the compound including ethane-1,3-diol shows giant temperature-dependent dielectric anomalies as well as ferroelectric reversible spontaneous polarization. This finding shows that dielectricity and/or ferroelectricity has the potential to be used for signalling molecular recognition.
Suggested Citation
Heng-Yun Ye & Wei-Qiang Liao & Qionghua Zhou & Yi Zhang & Jinlan Wang & Yu-Meng You & Jin-Yun Wang & Zhong-Ning Chen & Peng-Fei Li & Da-Wei Fu & Songping D. Huang & Ren-Gen Xiong, 2017.
"Dielectric and ferroelectric sensing based on molecular recognition in Cu(1,10-phenlothroline)2SeO4·(diol) systems,"
Nature Communications, Nature, vol. 8(1), pages 1-7, April.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14551
DOI: 10.1038/ncomms14551
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