A novel high-yield Schiff base was designed and synthesized as an anion receptor that specifically select HSO3 anions in aqueous solutions of H20/DMSO(15:85, volume ratio), which can be detected via colorimetry under direct visualization. The sensor exhibited different results for other anions, such as F, CI, Br, I-, H2PO4-, AcO-, HSO4 and C104. The changes in the UV-Vis spectra also show the specific recognition of HSO3 , rather than similar anions H2PO4- and HSO4- in the same aqueous solution. The detection limit of HSO3- was 1×10-6 mol/L.
YANG Wen-long LI Qiao WEI Tai-bao ZHANG You-ming LIN Qi SHI Bing-bing ZHANG Peng
A new Zn2+ probe L2-Zn(L2=naphthofuran carbonylhydrazone derivant) was synthesized as a fluores- cence chemosensor for Cu2+, by which Cuz+ ion could be detected with high selectivity and sensitivity in a wide pH range via a displacement "turn-off" signaling strategy. Whereas the coordination between Zn2+ and L2 resulted in a considerable enhancement of typical luminescence of a naphthalofuran group in complex L2-Zn, the addition of Cu2+ ion led to a dramatic decrease in the emission intensity of probe L2-Zn at about 503 nm(excitation at 423 nm). The competitive fluorescent experiments showed that other metal ions, such as Hgz+, Fe3+, Ag+, Ca2+, Co2+, Ni2+, Cd2+, Pb2+, Zn2+, Cr3+ and Mg2+ could not impact tile detection of Cu2+. The detection limit of the novel probe L2-Zn for Cu2~ ion was as low as 2.3× 10 7 mol/L, which is far lower than the guideline value of 1.6× 10-5 mol/L of the United States Environmental Protection Agency.
GUAN Jie ZHANG Peng WEI Taibao LIN Qi YAO Hong ZHANG Youming
A novel and simple cyanide chemosensor 2-(naphthalen-1-ylmethylene)malononitrile(L) was designed and synthesized via a green chemistry method in water without using any catalyst.The chemosensor showed an excellent sensitivity and selectivity for CN in aqueous solution.The detection limit could be as low as 1.6×10~7 moI/L(0.16μmol/L),which is far lower than the WHO guideline of 1.9μmol/L cyanide for drink water.
A novel smart metal-organic gel(MOG) formed from biscarboxyl-functionalized benzimidazole derivative(D11) in the presence of lead nitrate has been investigated.The critical gel concentration for the formation of MOG was just 0.36 wt%,which exhibits a super gelation capability of D11.The coordination of the metal to the ligand D11 was found to play a vital role in the construction of the supramolecular MOG.Microstructures determined by SEM observation demonstrated that the MOG was formed by intertwined fibrils.Interestingly,the MOG exhibits pH-induced,thermo-induced,and chemical-induced reversible gel-sol transition.Meanwhile,this supramolecular MOG shows desirable absorption ability of methyl orange dye molecules in aqueous solution.
Hong YaoXing-Mei YouQin LinJun-Jian LiYing GuoTai-Bao WeiYou-Ming Zhang
