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Micro-gap DBD Plasma and Its Applications
( Zhitao Zhang ),( Cheng Liu ),( Mindi Bai ),( Bo Yang ),( Cheng Qi Mao ) 한국동굴학회 2006 동굴 Vol.76 No.-
The Dielectric Barrier Discharge (DBD) is a nonequilibrium gas discharge that is generated in the space between two electrodes, which are separated by an insulating dielectric layer. The dielectric layer can be put on either of the two electrodes or be inserted in the space between two electrodes. If an AC or pulse high voltage is applied to the electrodes that is operated at applied frequency from 50Hz to several MHz and applied voltages from a few to a few tens of kilovolts rms, the breakdown can occur in working gas, resulting in large numbers of micro-discharges across the gap, the gas discharge is the so called DBD. Compared with most other means for nonequilibrium discharges, the main advantage of the DBD is that active species for chemical reaction can be produced at low temperature and atmospheric pressure without the vacuum set up, it also presents many unique physical and chemical process including light, heat, sound and electricity. This has led to a number of important applications such as ozone synthesizing, UV lamp house, CO2 lasers, et al. In recent years, due to its potential applications in plasma chemistry, semiconductor etching, pollution control, nanometer material and large area flat plasma display panels, DBD has received intensive attention from many researchers and is becoming a hot topic in the field of non-thermal plasma.
Qiao, Guo,Xu, De-Hai,Wang, Zishen,Jang, In-Kwon,Qi, Zhitao,Zhang, Mingming,Kim, Su-Kyoung Elsevier 2015 FISH AND SHELLFISH IMMUNOLOGY Vol.44 No.1
<P><B>Abstract</B></P> <P>Our previous study demonstrated that Pacific white shrimp (<I>Litopenaeus vannamei</I>) infected by multiple pathogens showed higher mortality and death occurred more quickly than those infected by a single pathogen (Jang et?al., 2014). For better understanding the defense mechanism against white spot syndrome virus (WSSV) and <I>Vibrio anguillarum</I>, immune responses of shrimp were evaluated in this study. The mRNA expression levels of five immune-related genes were analyzed by quantitative reverse real-time PCR, which included proPO-activating enzyme 1 (PPAE1), PPAE2, proPO activating factor (PPAF), masquerade-like serine proteinase (Mas) and ras-related nuclear gene (Ran). Results demonstrated that the transcription was suppressed more intensively in the multiple infection group than those in single infection groups. The transcriptional suppression was directly related to the higher mortality. The hypoimmunity could benefit pathogen invasion, replication and release of toxin <I>in?vivo</I>. Results in this study will help to understand immune defense mechanism after shrimp were infected by multiple pathogens in aquaculture.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Immune genes in shrimp were studied to understand defense mechanism against multiple pathogens. </LI> <LI> Shrimp infected by multiple pathogens showed higher mortality and death occurred more quickly. </LI> <LI> Gene transcription was suppressed in shrimp with multiple infections than single infection. </LI> <LI> Depression of immune genes resulted in low PO activity, phagocytosis and led to high mortality. </LI> <LI> Prevention and management strategies are needed to reduce shrimp losses by multiple pathogens. </LI> </UL> </P>