A major challenge is to construct ceramic membranes with tunable structures and functions for water treatment.Herein,a novel corrosion-resistant polymer-derived silicon oxycarbide(SiOC)ceramic membrane with designed a...A major challenge is to construct ceramic membranes with tunable structures and functions for water treatment.Herein,a novel corrosion-resistant polymer-derived silicon oxycarbide(SiOC)ceramic membrane with designed architectures was fabricated by a phase separation method and was applied in organic removal via adsorption and oxidation for the first time.The pore structure of the as-prepared SiOC ceramic membranes was well controlled by changing the sintering temperature and polydimethylsiloxane content,leading to a pore size of 0.84–1.62μm and porosity of 25.0–43.8%.Corrosion resistance test results showed that the SiOC membranes sustained minimal damage during 24 h exposure to high-intensity acid–base conditions,which could be attributed to the chemical inertness of SiOC.With rhodamine 6G(R6G)as the model pollutant,the SiOC membrane demonstrated an initial eff ective removal rate of 99%via adsorption;however,the removal rate decreased as the system approached adsorption saturation.When peroxymonosulfate was added into the system,efficient and continuous degradation of R6G was observed throughout the entire period,indicating the potential of the as-prepared SiOC membrane in oxidation-related processes.Thus,this work provides new insights into the construction of novel polymer-derived ceramic membranes with well-defined structures and functions.展开更多
Mechanoresponsive luminescent(MRL)materials have drawn extensive concern due to their potential applications in mechanical sensors,memory chips,and security inks;especially these possessing high emission efficiency.In...Mechanoresponsive luminescent(MRL)materials have drawn extensive concern due to their potential applications in mechanical sensors,memory chips,and security inks;especially these possessing high emission efficiency.In this work,we found trans-stilbene crystal exhibited two different pressure-induced emission enhancement(PIEE)behaviors at different pressure areas.The structural characterizations combined with density functional theory calculation indicate that the first emission enhancement was due to the decrease of nonradiation transition by the weaken of energy exchange process between atoms and lattice.And the second emission enhancement was attributed to the strengthen of C-H...C interactions from the non-planarization comformation.The results regarding the mechanoresponsive behavior of trans-stilbene offered a deep insight into PIEE from the structural point of view,which will facilitate the design of and search for high-performance MRL materials.展开更多
基金supported by the National Key R&D Program of China(Grant No.2021YFB3200500)Natural Science Foundation of China(Grant No.52370014)+2 种基金Ningbo 3315 plan(Grant No.2018A-03-A)Natural Science Foundation of Tianjin City(Grant No.63241631)the financial support of Joint Lab for Advanced Organosilicon Precursors with Zhejiang Xinshichen New Materials Ltd.Co.
文摘A major challenge is to construct ceramic membranes with tunable structures and functions for water treatment.Herein,a novel corrosion-resistant polymer-derived silicon oxycarbide(SiOC)ceramic membrane with designed architectures was fabricated by a phase separation method and was applied in organic removal via adsorption and oxidation for the first time.The pore structure of the as-prepared SiOC ceramic membranes was well controlled by changing the sintering temperature and polydimethylsiloxane content,leading to a pore size of 0.84–1.62μm and porosity of 25.0–43.8%.Corrosion resistance test results showed that the SiOC membranes sustained minimal damage during 24 h exposure to high-intensity acid–base conditions,which could be attributed to the chemical inertness of SiOC.With rhodamine 6G(R6G)as the model pollutant,the SiOC membrane demonstrated an initial eff ective removal rate of 99%via adsorption;however,the removal rate decreased as the system approached adsorption saturation.When peroxymonosulfate was added into the system,efficient and continuous degradation of R6G was observed throughout the entire period,indicating the potential of the as-prepared SiOC membrane in oxidation-related processes.Thus,this work provides new insights into the construction of novel polymer-derived ceramic membranes with well-defined structures and functions.
基金the National Natural Science Foundation of China(Grant Nos.21725304,11774120,and 11904010)the Chang Jiang Scholars Program of China(Grant No.T2016051)+2 种基金Changbai Mountain Scholars Program(Grant No.2013007)the Science and Technology Innovation Program of Shanxi Province,China(Grant Nos.2020L0540 and 2020L0544)Scientific Research Fund of XinZhou Teachers University(Grant No.2019KY04).
文摘Mechanoresponsive luminescent(MRL)materials have drawn extensive concern due to their potential applications in mechanical sensors,memory chips,and security inks;especially these possessing high emission efficiency.In this work,we found trans-stilbene crystal exhibited two different pressure-induced emission enhancement(PIEE)behaviors at different pressure areas.The structural characterizations combined with density functional theory calculation indicate that the first emission enhancement was due to the decrease of nonradiation transition by the weaken of energy exchange process between atoms and lattice.And the second emission enhancement was attributed to the strengthen of C-H...C interactions from the non-planarization comformation.The results regarding the mechanoresponsive behavior of trans-stilbene offered a deep insight into PIEE from the structural point of view,which will facilitate the design of and search for high-performance MRL materials.