A facile method for the preparation of sodium alginate(SA)/carboxyl-functionalized graphene(G-COOH)composite hydrogel was developed. Based on the coordination ability of lanthanide ions to the carboxyl groups, a s...A facile method for the preparation of sodium alginate(SA)/carboxyl-functionalized graphene(G-COOH)composite hydrogel was developed. Based on the coordination ability of lanthanide ions to the carboxyl groups, a series of hydrogel derived from different ratios of SA and G-COOH was fabricated by neodymium(Nd3+) ions coordination. A relatively uniform layered structure was recorded by SEM at the interior of SA/G-COOH hydrogel. Several parameters such as water content, swelling ratio(SR), tensile test and solvent resistance were also investigated. The SA/G-COOH composite hydrogel showed excellent mechanical strength, and the tensile strength of SA/G-COOH composite hydrogel reaches 53.72 MPa at high water content. Due to the coordination ability of Nd3+ ions, the hydrogel also exhibited an excellent solvent resistance and stability.展开更多
Neodymium ion imprinted polymer(Nd^3+-IIP) particles for selective solid-phase extraction of Nd^3+ were prepared and determined with inductively coupled plasma atomic emission spectrometry(ICP-AES).The unleached...Neodymium ion imprinted polymer(Nd^3+-IIP) particles for selective solid-phase extraction of Nd^3+ were prepared and determined with inductively coupled plasma atomic emission spectrometry(ICP-AES).The unleached Nd^3+-IIP particles were prepared by the copoly-merization of Nd^3+-5,7-dichloroquinoline-8-ol-4-vinylpyridine ternary complex with styrene and divinyl benzene, then Nd^3+ was leached to obtain Nd^3+-IIP particles.The adsorption capacity of the Nd3+-IIP was 35.18 mg/g.The largest selectivity coefficient for Nd3+ in the presence of competitive ions such as La^3+, Ce^3+, Pr^3+ and Sm^3+ was over 110.The proposed method was validated by analyzing two certified reference materials(GBW07301a sediment and GBW07401 soil) and the determined values were in a good agreement with standard values.The method was convenient, selective, sensitive and applicable to the determination of trace Nd^3+ in environmental samples with complicated matrix.展开更多
Pressure-and temperature-dependent luminescence properties of ^(3)F_(3/2)→^(4)I9/2 transition of Nd^(3+):GdTaO_(4) were studied for potential applications in optical sensing.Two isolated emission lines corresponding ...Pressure-and temperature-dependent luminescence properties of ^(3)F_(3/2)→^(4)I9/2 transition of Nd^(3+):GdTaO_(4) were studied for potential applications in optical sensing.Two isolated emission lines corresponding to^(3)F_(3/2)(R2,1)→^(4)I_(9/2)(Z5)transitions,located at 920 and 927 nm under ambient condition,are very sensitive to pressure with coefficients of-15.6 and-14.5 cm^(-1)/GPa determined in a pressure range up to about 9 GPa.The luminescence intensity ratio between the two emission lines exhibits a large dependence with temperature in a range from 80 to 620 K,the corresponding temperature sensitivity at room temperature is similar to that of Nd^(3+):YAG.These advantages,together with the other observed features of high stable position relationship under pressure and low thermal shifts for the two emission lines indicate that Nd^(3+):GdTaO_(4) is a promising candidate to be used as pressure and temperature sensors in the near-infrared spectral range.展开更多
基金supported by the National Natural Science Foundation of China under Grant Nos.21274020 and 21304019
文摘A facile method for the preparation of sodium alginate(SA)/carboxyl-functionalized graphene(G-COOH)composite hydrogel was developed. Based on the coordination ability of lanthanide ions to the carboxyl groups, a series of hydrogel derived from different ratios of SA and G-COOH was fabricated by neodymium(Nd3+) ions coordination. A relatively uniform layered structure was recorded by SEM at the interior of SA/G-COOH hydrogel. Several parameters such as water content, swelling ratio(SR), tensile test and solvent resistance were also investigated. The SA/G-COOH composite hydrogel showed excellent mechanical strength, and the tensile strength of SA/G-COOH composite hydrogel reaches 53.72 MPa at high water content. Due to the coordination ability of Nd3+ ions, the hydrogel also exhibited an excellent solvent resistance and stability.
文摘Neodymium ion imprinted polymer(Nd^3+-IIP) particles for selective solid-phase extraction of Nd^3+ were prepared and determined with inductively coupled plasma atomic emission spectrometry(ICP-AES).The unleached Nd^3+-IIP particles were prepared by the copoly-merization of Nd^3+-5,7-dichloroquinoline-8-ol-4-vinylpyridine ternary complex with styrene and divinyl benzene, then Nd^3+ was leached to obtain Nd^3+-IIP particles.The adsorption capacity of the Nd3+-IIP was 35.18 mg/g.The largest selectivity coefficient for Nd3+ in the presence of competitive ions such as La^3+, Ce^3+, Pr^3+ and Sm^3+ was over 110.The proposed method was validated by analyzing two certified reference materials(GBW07301a sediment and GBW07401 soil) and the determined values were in a good agreement with standard values.The method was convenient, selective, sensitive and applicable to the determination of trace Nd^3+ in environmental samples with complicated matrix.
基金Project supported by the National Natural Science Foundation of China(11804047)Science and Technology Development Program of Jilin City(201831733)Development Program of Education Department of Jilin Province(JJKH20180425KJ)。
文摘Pressure-and temperature-dependent luminescence properties of ^(3)F_(3/2)→^(4)I9/2 transition of Nd^(3+):GdTaO_(4) were studied for potential applications in optical sensing.Two isolated emission lines corresponding to^(3)F_(3/2)(R2,1)→^(4)I_(9/2)(Z5)transitions,located at 920 and 927 nm under ambient condition,are very sensitive to pressure with coefficients of-15.6 and-14.5 cm^(-1)/GPa determined in a pressure range up to about 9 GPa.The luminescence intensity ratio between the two emission lines exhibits a large dependence with temperature in a range from 80 to 620 K,the corresponding temperature sensitivity at room temperature is similar to that of Nd^(3+):YAG.These advantages,together with the other observed features of high stable position relationship under pressure and low thermal shifts for the two emission lines indicate that Nd^(3+):GdTaO_(4) is a promising candidate to be used as pressure and temperature sensors in the near-infrared spectral range.
