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Qi Dong,Dan Zu,Lingqiang Kong,Sunfang Chen,Jun Yao,Jiawei Lin,Lei Lu,Bing Wu,Bin Fang 한국생체재료학회 2022 생체재료학회지 Vol.26 No.3
Background: Hydrogels loaded with antimicrobial agents have been widely used for treating infected wound defects. However, hydrogels derived from a porcine dermal extracellular matrix (PADM), containing silver nanoparticles (AgNPs), have not yet been studied. Therefore, we investigated the therapeutic effect of an AgNP-impregnated PADM (AgNP–PADM) hydrogel on the treatment of infected wounds. Methods: An AgNP–PADM hydrogel was synthesized by embedding AgNPs into a PADM hydrogel. We examined the porosity, moisture retention, degradation, antibacterial properties, cytotoxicity, antioxidant properties, and ability of the PADM and AgNP–PADM hydrogels to treat infected wounds in animals. Results: The PADM and AgNP–PADM hydrogels were pH sensitive, which made them flow dynamically and solidify under acidic and neutral conditions, respectively. The hydrogels also exhibited porous network structures, satisfactory moisture retention, and slow degradation. Additionally, the AgNP–PADM hydrogel showed a slow and sustained release of AgNPs for at least 7 days without the particle size changing. Thus, the AgNPs exhibited adequate antibacterial ability, negligible toxicity, and antioxidant properties in vitro. Moreover, the AgNP–PADM hydrogel promoted angiogenesis and healed infected skin defects in vivo. Conclusions: The AgNP–PADM hydrogel is a promising bioderived antibacterial material for clinical application to infected wound dressings
VEHICLE-LEVEL ELECTROMAGNETIC COMPATIBILITY PREDICTION BASED ON MULTI-PORT NETWORK THEORY
Feng Gao,Hanzhe Dai,Jiawei Qi,Zilong Wang 한국자동차공학회 2019 International journal of automotive technology Vol.20 No.6
This paper proposes a new methodology based on the multi-port network theory to predict the vehicle-level electromagnetic compatibility performance. The original EMC problem is firstly converted to a network by separating the electrical large structures and electrical small components. The impedance is proposed to describe the coupling process of network to eliminate the influence of port impedance on network. Based on this network model, the relationship between the exciting sources and the sensitive components is set up using the multi-port network theory. Furthermore, some application problems, such as measurement of parameters, are also discussed. After validated by a bench test, this methodology for vehicle level electromagnetic compatibility was further applied to predict and improve the low frequency radiated emission of an electric vehicle. The application results show that it can be used to predict electromagnetic interference and analyze the main exciting source satisfactorily.
High-breakdown-voltage GaN-based vertical FinFET design
Zilong Wang,Liang Liu,Peiyue Qi,Jiawei Chen,Lixia Zhao 전력전자학회 2024 JOURNAL OF POWER ELECTRONICS Vol.24 No.3
In this study, GaN-based vertical FinFET device using HfO 2 as a high-κ dielectric gate layer to improve the breakdown voltage is designed. Simulation results show that a breakdown voltage as high as 2139 V can be achieved for the optimized GaN-based FinFET with a fin channel width of 200 nm, a channel doping concentration of 1 × 10 16 cm −3 , and a drift layer thickness of 10 μm. In addition, the proposed device has a low specific on-state resistance of 0.84 mΩ cm 2 , resulting in a large Baliga optimum figure of merit (FOM) 5.45 GW cm −2 . This work could lay a foundation to further improve the electrical performance of GaN-based vertical FinFET devices.