Novel ionic liquid-functionalized carbon quantum dots (IL-CDs) were prepared by hydrothermal method, and characterized with FT-IR, TEM and XPS. The IL-CDs exhibited narrower particle size distribution with more uniform dispersion and the surface potential changes from negative to positive due to the function of IL. IL-CDs could be quenched (“turned off”) after adding ascorbic acid (AA), and as an “on–off”, fluorescent probe could be established for direct analysis AA. The linear range of AA was 0.34–30.00 μg/mL and the LOD was 0.11 μg/mL. The method was successfully applied to the determination of AA in real samples with satisfactory results.
Porous basalt aggregate is commonly used in roadbed engineering, but its application in concrete has rarely been studied. This paper studies the application of porous basalt in concrete. Porous basalt aggregate is assessed for its effects on mechanical strength and durability of prepared C50 concrete; because it has a hole structure, porous basalt aggregate is known for its porosity, and porous basalt aggregates can be made full of water through changing the content of saturated basalt; after full-water condition is achieved in porous basalt aggregate mixture of C50 concrete, we discuss its mechanical properties and durability. The effects of C50 concrete prepared with basalt aggregate on the compressive strength, water absorption, and electric flux of concrete specimens of different ages were studied through experiments, and the effects of different replacement rates of saturated porous basalt aggregate on the properties of concrete were also studied. The results show that porous basalt aggregate can be prepared as C50 concrete. For early saturated porous basalt aggregate concrete, its compressive strength decreases with the increase of the replacement rate of saturated aggregate; this occurs up to concrete curing at 28 d, when the replacement rate of saturated basalt aggregate is greater than or equal to 40 %. The compressive strength of concrete increases with the increase of the replacement rate of saturated aggregate. The 28 d electric flux decreases with the increase of the replacement rate of saturated aggregate, indicating that saturated porous basalt aggregate can improve the chloride ion permeability resistance of concrete in later stages.
세계적인 침입해충 담배가루이 (Bemisia tabaci Gennadius)의 한국 계통과 중국 계통의 유연관계를 알아보기 위하여 2019년에 채집한 두 계통들의 biotype 분포, 살충제 반응, 바이러스 보독율을 조사하고 차이를 분석하였다. 미토콘드리아 COI 유전자 서열을 이용하여 집단 분석한 결과 국내는 모든 지역계통에서 Q biotype만 발견되었으며, 중국은 B biotype (14.3%)과 Q biotype (85.7%)이 동시에 발견되었다. 담배가루이 Q biotype의 haplotpye 구성도 중국은 모두 Q1 그룹만 관찰되었고 Q1H1 (79.8%), Q1H2 (20.2%)로 구성되어 있었으며, 한국은 Q1이 우세한 가운 데 Q2도 관찰되었으며 Q1 그룹의 구성도 Q1H1 (1.7%), Q1H2 (97.5%)로 중국과는 크게 달랐다. 15종 살충제에 대한 약제반응은 국내 계통은 일부 약제를 제외하고 대부분 약제에서 충분한 살충력 (mortality≥80%)을 보여주었으나 중국 계통은 40% 이하의 살충력을 보인 약제들이 다수 있었으며 한국보다는 높은 저항성을 갖고 있었다. 토마토 황화잎말림바이러스 (TYLCV)의 보독율은 국내 계통에서는 발견되지 않았으며 중국의 경우 0∼60% (평균 21.4%) 가 발견되었다. 따라서 한국와 중국의 담배가루이 계통 간에는 유전적 조성과 살충제 반응, 바이러스 보독율에 있어서 큰 차이를 보여주었으며 양국의 담배가루이가 서로 다른 유입 패턴을 갖고 있음을 알 수 있었다.
With the tremendous development of social media in recent years, luxury brands have welcomed social media with open arms as a means to engage with their customers. How luxury brands can make good use of social media marketing strategy is a top priority for both academicians and partitions but has not been well investigated. Many significant research gaps are present in this area warranting further explorations. For example, there is little research on the effectiveness of celebrity endorsement on social media (except for Chung and Cho’ (2017) study), even less for luxury brands. In addition, previous research on social media marketing mainly focuses on western-based platforms such as Facebook and Twitter.
Given the mentioned research gaps, this study builds on social media marketing and celebrity endorsement literature and aims to investigate the key factors influencing the effectiveness of celebrity-based social media marketing efforts for luxury brands. In particular, China market and Sina Weibo are selected as our research setting. We propose the message characteristics, celebrity characteristics, celebrity-brand relationship and brand characteristics have impact on customer engagement in celebrity-based social media marketing activities. We combined two data sources to generate the key variables. First, we derived posts on the brand pages of 12 luxury brands (e.g., Cartier, Tiffany, BVLGARI and PIAGET) that were published on Sina Weibo from September 2016 to March 2017 on the middle of December 2017. Then celebrity-related posts were all picked out. The final sample includes more than five hundred celebrity-related brand posts. For each post, it contains three kinds of engagement measures (i.e., the number of Likes, Retweets and Comments) observed on Sina Weibo. They are dependent variables in our model. We built up regression models to test the hypotheses. To generate those variables that cannot be derived directly from the posts, a set of independent coders was recruited to quantify those variables. The exploratory results show that posts related to celebrities (e.g., brand ambassador/spokesman) take a significant part of posts on Sina Weibo brand pages.
In order to renovate spirodiclofen contaminated soil through biodegradation, a high-effective spirodiclofen degrading bacterium was isolated from corn cultivated soil in Weifang of Shandong, China using enrichment culture and HPLC method. The strain identification was studied, the best cultivated conditions and pesticides degrading substrate range of the strain was also determined. The spirodiclofen degradation rate of the screened strain WF14-6 was 76.42% after 120 h cultivation, based on morphology and 16S rRNA gene sequence analysis, the strain was identified as Enterobacter sp. The best cultivated temperature and pH of the strain were 30℃and 7.0. After 72 h cultivation, the degradation rate of strain to imidacloprid and acifluorfene was 31.35~41.06%, the degradation rate to bupirimate、diafenthiuron and dimethomorph was 20.81~23.90%.