The chemical stability of simulated waste forms Zr_(1–x)Nd_xSiO_(4–x/2) was investigated using the static leach test(MCC-1) with lixiviants of three pH values(pH=4, 6.7 and 10) at three temperature points(4...The chemical stability of simulated waste forms Zr_(1–x)Nd_xSiO_(4–x/2) was investigated using the static leach test(MCC-1) with lixiviants of three pH values(pH=4, 6.7 and 10) at three temperature points(40, 90 and 150 oC) for periods ranging from 1 to 42 d, and the influence of temperature, pH, as well as their combined effects were explored in detail. The results showed that all the normalized release rate of Nd firstly decreased with leaching time and closed to equilibrium after 14 d. As the temperature increased, the normalized release rate of Nd also increased, but it was no more than 3×10^(–5) g/(m^2·d). And, the normalized release rate of Nd reached the highest values(~5×10^(–5) g/(m^2·d)) when pH=4, whilst the normalized release rate of Nd remained the lowest value(~1×10^(–5) g/(m^2·d)) near neutral environment(pH=6.7).展开更多
In this study,a novel porous 3D composite scaffold based on the biodegradable Poly(ε-caprolactone)(PCL),Polylactide Acid(PLA)and Calcium Citrate(CC)was developed via polymer blends and thermal-induced phase separatio...In this study,a novel porous 3D composite scaffold based on the biodegradable Poly(ε-caprolactone)(PCL),Polylactide Acid(PLA)and Calcium Citrate(CC)was developed via polymer blends and thermal-induced phase separation.The chemical structure,crystalline structure and micromorphology as well as mechanical strength of the scaffolds were characterized by Fourier Transform Infrared Spectroscopy(FTIR),X-ray Diffraction(XRD),Scanning Electron Microscope(SEM)and tensile tests.The results show that the obtained composite scaffold present a suitable bone-like porous structure and sufficient mechanical strength.Furthermore,the release of calcium ions in Simulated Body Fluid(SBF)indicates that the composite material can provide a stable calcium-ion environment and maintain a constant pH value during the soaking process.The cell proliferation results from CCK-8 and light microscopy show that MG63 cells exhibit excellent adhesion and proliferation on the stent.At the same time,animal implantation histology confirms that the composite scaffolds have good biocompatibility in vivo.The scaffold material has greatly potential application value in the field of bone tissue engineering.展开更多
A new 2D Eu-BTB framework(1) with stratified gridding structure of about 14.6×16.9was synthesized and characterized.Compound 1 displays excellent water stability with the pH 2–12. The luminescent investigations ...A new 2D Eu-BTB framework(1) with stratified gridding structure of about 14.6×16.9was synthesized and characterized.Compound 1 displays excellent water stability with the pH 2–12. The luminescent investigations suggest that 1 could represent a chemical sensor of PO43. with high sensitivity and selectivity. Importantly, 1 as a sensor of PO_4^(3-) can be reused at least five times.On the other hand, the catalytic investigations of 1 were carried out, indicating that 1 could be demonstrated as a recyclable catalyst for CO_2 conversion with epoxides.展开更多
基金Project supported by the National Natural Science Foundation of China(41302028,41302029,21507105)Thousand Youth Talents Plan(Y42H831301)+3 种基金Key Project of Sichuan Education Department(14ZA0099,15ZB0116)Foundation of Laboratory of National Defense Key Discipline for Nuclear Waste and Environmental Safety,Southwest University of Science and Technology(15yyhk10)the Doctor Foundation in Southwest University of Science and Technology(10zx7126)Hebei Science and Technology Support Program(15211121)
文摘The chemical stability of simulated waste forms Zr_(1–x)Nd_xSiO_(4–x/2) was investigated using the static leach test(MCC-1) with lixiviants of three pH values(pH=4, 6.7 and 10) at three temperature points(40, 90 and 150 oC) for periods ranging from 1 to 42 d, and the influence of temperature, pH, as well as their combined effects were explored in detail. The results showed that all the normalized release rate of Nd firstly decreased with leaching time and closed to equilibrium after 14 d. As the temperature increased, the normalized release rate of Nd also increased, but it was no more than 3×10^(–5) g/(m^2·d). And, the normalized release rate of Nd reached the highest values(~5×10^(–5) g/(m^2·d)) when pH=4, whilst the normalized release rate of Nd remained the lowest value(~1×10^(–5) g/(m^2·d)) near neutral environment(pH=6.7).
基金jointly supported by the National Natural Science Foundation of China(NO.41673109)Sichuan Science and Technology Program(2021YFH0098)Key Project of Sichuan Vanadium and Titanium Industry Development Research Center(2018VTCYZ-01).
文摘In this study,a novel porous 3D composite scaffold based on the biodegradable Poly(ε-caprolactone)(PCL),Polylactide Acid(PLA)and Calcium Citrate(CC)was developed via polymer blends and thermal-induced phase separation.The chemical structure,crystalline structure and micromorphology as well as mechanical strength of the scaffolds were characterized by Fourier Transform Infrared Spectroscopy(FTIR),X-ray Diffraction(XRD),Scanning Electron Microscope(SEM)and tensile tests.The results show that the obtained composite scaffold present a suitable bone-like porous structure and sufficient mechanical strength.Furthermore,the release of calcium ions in Simulated Body Fluid(SBF)indicates that the composite material can provide a stable calcium-ion environment and maintain a constant pH value during the soaking process.The cell proliferation results from CCK-8 and light microscopy show that MG63 cells exhibit excellent adhesion and proliferation on the stent.At the same time,animal implantation histology confirms that the composite scaffolds have good biocompatibility in vivo.The scaffold material has greatly potential application value in the field of bone tissue engineering.
基金supported by the National Natural Science Foundation of China (21571123, 21571107, 21421001)the Natural Science Foundation of Tianjin (15JCZDJC37700)+1 种基金111 Project (B12015)MOE Innovation Team (IRT13022, IRT-13R30) of China
文摘A new 2D Eu-BTB framework(1) with stratified gridding structure of about 14.6×16.9was synthesized and characterized.Compound 1 displays excellent water stability with the pH 2–12. The luminescent investigations suggest that 1 could represent a chemical sensor of PO43. with high sensitivity and selectivity. Importantly, 1 as a sensor of PO_4^(3-) can be reused at least five times.On the other hand, the catalytic investigations of 1 were carried out, indicating that 1 could be demonstrated as a recyclable catalyst for CO_2 conversion with epoxides.
