The era of big data is coming,the combination of big data and traditional teaching can provide more and more accurate services for students'self-learning,and it is a good way to teach students according to their a...The era of big data is coming,the combination of big data and traditional teaching can provide more and more accurate services for students'self-learning,and it is a good way to teach students according to their aptitude.In this background,a learning society is coming,which aiming at learning,autonomous learning and lifelong learning.Learning society emphasize the ability of learning autonomy for students unprecedentedly.Learning is no longer limited to the campus.Learning ability will accompany learners'social life and become an active and healthy lifelong activity.Autonomous learning is a learning theory that goes with the requirements of The Times and has a broad development prospect.The study of Autonomous learning not only has a very important guiding significance for the educational and teaching practice in China,but also plays an important role in the life development of every student.The subject of learning is gradually transferred from the classroom,teachers and textbooks to the students themselves.Teachers should not only impart knowledge and answer questions,but also,most importantly,teach students how to exert their autonomy in autonomous learning.After investigating and researching the existing monitoring model of autonomous English learning in colleges and universities,our group found that in practice,there is a lack of corresponding monitoring mechanisms and means,and autonomous learning has gradually become formalized.Therefore,according to the actual situation of autonomous English learning in our country's universities,the monitoring model of autonomous English learning has been reconstructed,and an effective comprehensive evaluation system has been established to effectively improve students'English learning ability.展开更多
A novel near-infrared all-fiber mode monitor based on a mini-two-path Mach-Zehnder interferometer(MTP-MZI)is proposed.The MTP-MZI mode monitor is created by fusing a section of(no-core fiber,NCF)and a(single-mode fibe...A novel near-infrared all-fiber mode monitor based on a mini-two-path Mach-Zehnder interferometer(MTP-MZI)is proposed.The MTP-MZI mode monitor is created by fusing a section of(no-core fiber,NCF)and a(single-mode fiber,SMF)together with an optical fiber fusion splicer,establishing two distinct centimeter-level optical transmission paths.Since the high-order modes in NCF transmit near-infrared light more sensitively to curvature-induced energy leakage than the fundamental mode in SMF,the near-infrared high-order mode light leaks out of NCF when the curvature changes,causing the MTP-MZI transmission spectrum to change.By ana⁃lyzing the relationship between the curvature,transmission spectrum,and spatial frequency spectrum,the modes involved in the interference can be studied,thereby revealing the mode transmission characteristics of near-infra⁃red light in optical fibers.In the verification experiments,higher-order modes were excited by inserting a novel hollow-core fiber(HCF)into the MTP-MZI.When the curvature of the MTP-MZI changes,the near-infrared light high-order mode introduced into the device leaks out,causing the transmission spectrum to return to its origi⁃nal state before bending and before the HCF was spliced.The experimental results demonstrate that the MTP-MZI mode monitor can monitor the fiber modes introduced from the external environment,providing both theoretical and experimental foundations for near-infrared all-fiber mode monitoring in optical information systems.展开更多
Due to the limited thermoelectric(TE)performance of polymer materials and the inherent rigidity of inorganic materials,developing low-cost,highly flexible,and high-performance materials for flexible thermocouple senso...Due to the limited thermoelectric(TE)performance of polymer materials and the inherent rigidity of inorganic materials,developing low-cost,highly flexible,and high-performance materials for flexible thermocouple sensors(FTCSs)remains challenging.Additionally,dual-mode(contact/non-contact)temperature monitoring in FTCSs is underexplored.This study addresses these issues by using p-type(PEDOT:PSS/CNTs,2:1)and n-type(MXene/Bi_(2)Se_(3),2:1)TE materials applied via screen printing and compression onto a PPSN substrate(paper/PDMS/Si_(3)N_(4)).The resulting FTCSs exhibit excellent TE properties:electrical conductivities of 61,197.88 S/m(n-type)and 55,697.77 S/m(p-type),Seebeck coefficients of 39.88μV/K and-29.45μV/K,and power factors(PFs)of 97.66μW/mK^(2)and 55.64μW/mK^(2),respectively.In contact mode,the sensor shows high-temperature sensitivity(S_(T)=379.5μV/℃),a broad detection range(20-200℃),high resolution(~0.3℃),and fast response(~12.6 ms).In non-contact mode,it maintains good sensitivity(S_(Tmax)=52.67μV/℃),a broad detection range,high resolution(~0.8℃),and even faster response(~9.8 ms).The sensor also demonstrates strong mechanical durability,maintaining stable performance after 1000 bending cycles.When applied to dual-mode temperature monitoring in wearable devices and lithium batteries,the FTCS shows high accuracy and reliability compared to commercial K-type thermocouples,indicating significant potential for advanced medical monitoring systems and smart home technologies.展开更多
Hyperoside is one of the major components of Hypericum perforatum L. and also present in many plant species such as Abelmoschus manihot (L.) Medik., Ribes nigrum L. and Rosa agrestis Savi (Rosaceae). Because hyper...Hyperoside is one of the major components of Hypericum perforatum L. and also present in many plant species such as Abelmoschus manihot (L.) Medik., Ribes nigrum L. and Rosa agrestis Savi (Rosaceae). Because hyperoside exhibits many biological activities, the pharmacokinetics profile of hyperoside needs to be studied for further elucidating its mechanism of action. A simple method for the determination of hyperoside in rat plasma was developed by using ultra-high performance liquid chromatography coupled with mass spectrometry (UPLC-MS). Only 50 ~tL plasma samples were required for sample preparation. The quantitative detection of hyperoside was accomplished by selected ion monitoring (SIM) in negative ion mode. Hyperoside was analyzed in less than 10 rain. Good linearity was obtained (r2〉0.999) and the intra- and inter-day precision of the method were lower than 15%. Lower limit of quantification (LLOQ) was 4 ng/mL for hyperoside in rat plasma. Our method showed advantage in the lower LLOQ compared with the reported method; furthermore, smaller amount of plasma was needed. The method was successfully applied for the pharmacokinetics study of hyperoside in rat after intravenous administration of hyperoside.展开更多
Determination of hexachlorobenzene (HCB) in the solvent red 135 by solvent extraction GC-MS with selected ion monitoring mode.The result showed that the detection limit is 0.05 mg/kg.The relative standard deviation is...Determination of hexachlorobenzene (HCB) in the solvent red 135 by solvent extraction GC-MS with selected ion monitoring mode.The result showed that the detection limit is 0.05 mg/kg.The relative standard deviation is 3.3%.This method is suitable for the analysis of the HCB in the solvent red 135.展开更多
文摘The era of big data is coming,the combination of big data and traditional teaching can provide more and more accurate services for students'self-learning,and it is a good way to teach students according to their aptitude.In this background,a learning society is coming,which aiming at learning,autonomous learning and lifelong learning.Learning society emphasize the ability of learning autonomy for students unprecedentedly.Learning is no longer limited to the campus.Learning ability will accompany learners'social life and become an active and healthy lifelong activity.Autonomous learning is a learning theory that goes with the requirements of The Times and has a broad development prospect.The study of Autonomous learning not only has a very important guiding significance for the educational and teaching practice in China,but also plays an important role in the life development of every student.The subject of learning is gradually transferred from the classroom,teachers and textbooks to the students themselves.Teachers should not only impart knowledge and answer questions,but also,most importantly,teach students how to exert their autonomy in autonomous learning.After investigating and researching the existing monitoring model of autonomous English learning in colleges and universities,our group found that in practice,there is a lack of corresponding monitoring mechanisms and means,and autonomous learning has gradually become formalized.Therefore,according to the actual situation of autonomous English learning in our country's universities,the monitoring model of autonomous English learning has been reconstructed,and an effective comprehensive evaluation system has been established to effectively improve students'English learning ability.
基金Supported by the Central Government Guidance on Local Science and Technology Development Funds(2023ZY1023)the Six Talent Peaks Project in Jiangsu Province(KTHY-052).
文摘A novel near-infrared all-fiber mode monitor based on a mini-two-path Mach-Zehnder interferometer(MTP-MZI)is proposed.The MTP-MZI mode monitor is created by fusing a section of(no-core fiber,NCF)and a(single-mode fiber,SMF)together with an optical fiber fusion splicer,establishing two distinct centimeter-level optical transmission paths.Since the high-order modes in NCF transmit near-infrared light more sensitively to curvature-induced energy leakage than the fundamental mode in SMF,the near-infrared high-order mode light leaks out of NCF when the curvature changes,causing the MTP-MZI transmission spectrum to change.By ana⁃lyzing the relationship between the curvature,transmission spectrum,and spatial frequency spectrum,the modes involved in the interference can be studied,thereby revealing the mode transmission characteristics of near-infra⁃red light in optical fibers.In the verification experiments,higher-order modes were excited by inserting a novel hollow-core fiber(HCF)into the MTP-MZI.When the curvature of the MTP-MZI changes,the near-infrared light high-order mode introduced into the device leaks out,causing the transmission spectrum to return to its origi⁃nal state before bending and before the HCF was spliced.The experimental results demonstrate that the MTP-MZI mode monitor can monitor the fiber modes introduced from the external environment,providing both theoretical and experimental foundations for near-infrared all-fiber mode monitoring in optical information systems.
基金supported by National Key Research and Development Program of China(2022YFB3205903)Anhui Province Science and Technology Innovation Key Project(202423k09020047)+1 种基金the Natural Science Foundation of China(No.2201187)Major R&D Innovation Project of Anhui Provincial Development and Reform Commission(JZ2021AFKJ0050).
文摘Due to the limited thermoelectric(TE)performance of polymer materials and the inherent rigidity of inorganic materials,developing low-cost,highly flexible,and high-performance materials for flexible thermocouple sensors(FTCSs)remains challenging.Additionally,dual-mode(contact/non-contact)temperature monitoring in FTCSs is underexplored.This study addresses these issues by using p-type(PEDOT:PSS/CNTs,2:1)and n-type(MXene/Bi_(2)Se_(3),2:1)TE materials applied via screen printing and compression onto a PPSN substrate(paper/PDMS/Si_(3)N_(4)).The resulting FTCSs exhibit excellent TE properties:electrical conductivities of 61,197.88 S/m(n-type)and 55,697.77 S/m(p-type),Seebeck coefficients of 39.88μV/K and-29.45μV/K,and power factors(PFs)of 97.66μW/mK^(2)and 55.64μW/mK^(2),respectively.In contact mode,the sensor shows high-temperature sensitivity(S_(T)=379.5μV/℃),a broad detection range(20-200℃),high resolution(~0.3℃),and fast response(~12.6 ms).In non-contact mode,it maintains good sensitivity(S_(Tmax)=52.67μV/℃),a broad detection range,high resolution(~0.8℃),and even faster response(~9.8 ms).The sensor also demonstrates strong mechanical durability,maintaining stable performance after 1000 bending cycles.When applied to dual-mode temperature monitoring in wearable devices and lithium batteries,the FTCS shows high accuracy and reliability compared to commercial K-type thermocouples,indicating significant potential for advanced medical monitoring systems and smart home technologies.
文摘Hyperoside is one of the major components of Hypericum perforatum L. and also present in many plant species such as Abelmoschus manihot (L.) Medik., Ribes nigrum L. and Rosa agrestis Savi (Rosaceae). Because hyperoside exhibits many biological activities, the pharmacokinetics profile of hyperoside needs to be studied for further elucidating its mechanism of action. A simple method for the determination of hyperoside in rat plasma was developed by using ultra-high performance liquid chromatography coupled with mass spectrometry (UPLC-MS). Only 50 ~tL plasma samples were required for sample preparation. The quantitative detection of hyperoside was accomplished by selected ion monitoring (SIM) in negative ion mode. Hyperoside was analyzed in less than 10 rain. Good linearity was obtained (r2〉0.999) and the intra- and inter-day precision of the method were lower than 15%. Lower limit of quantification (LLOQ) was 4 ng/mL for hyperoside in rat plasma. Our method showed advantage in the lower LLOQ compared with the reported method; furthermore, smaller amount of plasma was needed. The method was successfully applied for the pharmacokinetics study of hyperoside in rat after intravenous administration of hyperoside.
文摘Determination of hexachlorobenzene (HCB) in the solvent red 135 by solvent extraction GC-MS with selected ion monitoring mode.The result showed that the detection limit is 0.05 mg/kg.The relative standard deviation is 3.3%.This method is suitable for the analysis of the HCB in the solvent red 135.
