Exploring college students’ continuance learning intention in data analysis technology courses: the moderating role of self-efficacy

IntroductionIn today’s digital economy, data resources have gained strategic recognition. Enterprises view data analytic capabilities as a core organizational competitiveness. This study explored factors influencing college students’ continuance learning intention in data analysis technology courses to inform the role of self-efficacy on the relationship between interactivity and continuance learning intention.MethodsThe research model underpinning the study was based on the Stimulus-Organism-Response model and flow theory. The model was validated using SmartPLS. A total of 314 valid questionnaires were collected via the standard online survey approach.ResultsAmong internal factors, study results showed both cognitive interest and self-efficacy had significant positive effects on continuance learning intention. Also, cognitive interest had a significant positive effect on self-efficacy. Among external stimuli, content quality, software quality, and interactivity had significant positive effects on self-efficacy. Software quality did not have a significant effect on cognitive interest. Importantly, self-efficacy registered a significant moderating role on the relationship between interactivity and continuance learning intention

The implementation plan of e-learning to fulfill new demands of librarians’ continuing education in city library network building

The changing trends in a rapidly evolving information society ask the LIS education to play a more and more important role in directing LIS professional not only by providing renowned degree programs in LIS schools but also by leading advanced continuing education for librarians. Under the background of China’s public culture policies, GuangZhou started to build a public library services system named "Guangzhou City of Libraries" in 2015. The current situation of human resources is the key problem to be solved, specifically, the severe shortage of workforce, the professionalism disqualification, and the unsatisfactory continuing education (Zhang, et.al., 2019a). According to the status survey, the continuing education which is mostly provided by local library associations, cannot satisfy the needs which manifests in limited coverage of training themes and audiences (Zhang, et.al., 2018). This is a further study based on the data and results of the series of formal studies conducted by the authors. An implementation plan of librarians’ continuing education for "Guangzhou City of Libraries" in the next two years has been drafted with a part of a detailed plan using e-learning to help make the continuing education professional, systematic, thematic, long-term tendency and extensive and fulfill new demands. This e-learning part, together with the whole draft implementation plan, will be presented to an advisory group. Adopting questionnaire and interview as the methods, the opinion of the advisory group on the feasibility, availability, validity, authority and risk of using e-learning in continuing education for large number of librarians in "Guangzhou City of Libraries" will be collected and analyzed. The opinion on the implementation plan of e-learning to fulfill new demands of librarians’ continuing education will be summarized and discussed

A Passive Pressure Sensor Fabricated by Post-Fire Metallization on Zirconia Ceramic for High-Temperature Applications

A high-temperature pressure sensor realized by the post-fire metallization on zirconia ceramic is presented. The pressure signal can be read out wirelessly through the magnetic coupling between the reader antenna and the sensor due to that the sensor is equivalent to an inductive-capacitive (LC) resonance circuit which has a pressure-sensitive resonance frequency. Considering the excellent mechanical properties in high-temperature environment, multilayered zirconia ceramic tapes were used to fabricate the pressure-sensitive structure. Owing to its low resistivity, sliver paste was chosen to form the electrical circuit via post-fire metallization, thereby enhancing the quality factor compared to sensors fabricated by cofiring with a high-melting-point metal such as platinum, tungsten or manganese. The design, fabrication, and experiments are demonstrated and discussed in detail. Experimental results showed that the sensor can operate at 600 °C with quite good coupling. Furthermore, the average sensitivity is as high as 790 kHz/bar within the measurement range between 0 and 1 Bar

Supplementary document for Low threshold AlGaN-based deep ultraviolet laser enabled by nanoporous cladding layer - 6799781.pdf

supplemental materia

Intrauterine transmission of SARS-CoV-2 to and prenatal ultrasound abnormal findings in the fetus of a pregnant woman with mild COVID-19

Abstract Background Whether intrauterine transmission of COVID-19 occurs remains uncertain, and it remains unclear whether the disease affects fetuses. We present a case of intrauterine transmission of SARS-CoV-2 infection and the prenatal ultrasonographic findings of the fetus in a pregnant woman with mild COVID-19. Case presentation A 30-year-old woman was admitted to our hospital for ultrasound examination in January 2023 at 26+ 3 weeks’ gestation. Twenty-one days prior, her COVID-19 nucleic acid test was positive, and she had mild symptoms, including fever (38.3 °C), headache, chills, ankle pain and cough. After receiving symptomatic treatment, she fully recovered. Prenatal ultrasound revealed that the placenta was diffusely distributed with punctate echogenic foci, hepatomegaly, and the volume of bilateral lungs decreased significantly, with enhanced echo. In addition, we found that the surface of the fetal brain demonstrated widened gyri with a flattened surface. The prenatal MRI confirmed these fetal abnormalities. Amniotic fluid was tested for SARS-CoV-2, and the sample tested was positive for the virus. After careful consideration, the pregnant woman decided to terminate the pregnancy. Conclusion The intrauterine transmission of COVID-19 is certain. Moreover, the intrauterine transmission of COVID-19 may cause abnormalities in various organs of the fetus

Iodine-assisted ultrafast growth of high-quality monolayer MoS

Two-dimensional (2D) semiconductors have attracted great attention to extend Moore’s law, which motivates the quest for fast growth of high-quality materials. However, taking MoS2 as an example, current methods yield 2D MoS2 with a low growth rate and poor quality with vacancy concentrations three to five orders of magnitude higher than silicon and other commercial semiconductors. Here, we develop a strategy of using an intermediate product of iodine as a transport agent to carry metal precursors efficiently for ultrafast growth of high-quality MoS2. The grown MoS2 has the lowest density of sulfur vacancies (~1.41×1012 cm−2) reported so far and excellent electrical properties with high on/off current ratios of 108 and carrier mobility of 175 cm2 V−1 s−1. Theoretical calculations show that by incorporating iodine, the nucleation barrier of MoS2 growth with sulfur-terminated edges reduces dramatically. The sufficient supply of precursor and low nucleation energy together boost the ultrafast growth of sub-millimeter MoS2 domains within seconds. This work provides an effective method for the ultrafast growth of 2D semiconductors with high quality, which will promote their applications

Iodine-assisted ultrafast growth of high-quality monolayer MoS₂ with sulfur-terminated edges

Two-dimensional (2D) semiconductors have attracted great attention to extend Moore’s law, which motivates the quest for fast growth of high-quality materials. However, taking MoS2 as an example, current methods yield 2D MoS2 with a low growth rate and poor quality with vacancy concentrations three to five orders of magnitude higher than silicon and other commercial semiconductors. Here, we develop a strategy of using an intermediate product of iodine as a transport agent to carry metal precursors efficiently for ultrafast growth of high-quality MoS2. The grown MoS2 has the lowest density of sulfur vacancies (~1.41×1012 cm−2) reported so far and excellent electrical properties with high on/off current ratios of 108 and carrier mobility of 175 cm2 V−1 s−1. Theoretical calculations show that by incorporating iodine, the nucleation barrier of MoS2 growth with sulfur-terminated edges reduces dramatically. The sufficient supply of precursor and low nucleation energy together boost the ultrafast growth of sub-millimeter MoS2 domains within seconds. This work provides an effective method for the ultrafast growth of 2D semiconductors with high quality, which will promote their applications.</p