Your search keyword '"Pengyu Lai"' showing total 14 results

1. Characterization of Silicon Carbide Low-Voltage n/p-Channel MOSFETs at High Temperatures

Author

Hui Wang, Pengyu Lai, Affan Abbasi, Md Maksudul Hossain, Asif Faruque, H. Alan Mantooth, and Zhong Chen

Subjects

Silicon carbide, CMOS, high temperature, TCAD, channel mobility, SiC/SiO₂ interface, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

SiC-based n-channel and p-channel MOSFETs fabricated by Fraunhofer IISB SiC CMOS technology are characterized from room temperature up to 300°C. The behaviors of these low voltage devices including the short-channel effect (SCE), p-type ohmic contact with high resistivity, and the low channel mobility due to the SiC/SiO2 interface are presented. A thorough analysis is performed to understand the cause of low channel mobility, with TCAD simulations specifically on p-channel MOSFET, providing an insight into the impact of channel length, interface traps, and contact resistivity on device performance. The analysis in this paper is important in the comprehension of the low-voltage SiC MOSFETs so as to achieve balanced n-channel and p-channel MOSFETs and lead to the monolithic integration of SiC ICs with SiC power devices.

Published

2025

2. Neural downscaling for complex systems: from large-scale to small-scale by neural operator

Author

Pengyu Lai, Jing Wang, Rui Wang, Dewu Yang, Haoqi Fei, Yihe Chen, and Hui Xu

Subjects

Complex system, neural operator, downscaling, multiscale, nonlinear dynamics, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Researchers have long been working on interpreting and predicting the dynamics of complex systems in various fields. Conventional methods including full-scale simulations and reduced-order models are used to solve related problems, but often yield unsatisfactory results in terms of precision and computational efficiency. This is primarily due to the challenges posed by simulating small-scale dynamics. An alternative consideration is to leverage well-represented and readily accessible large-scale dynamics to assist small-scale modelling. This paper proposes a novel methodology, named as Neural Downscaling (ND), that effectively captures small-scale dynamics within a complementary subspace from corresponding large-scale dynamics well-represented in a low-dimensional space. The framework of ND integrates neural operator techniques with the principles of inertial manifold and nonlinear Galerkin theory. The effectiveness and efficiency of ND are demonstrated in the complex systems governed by Kuramoto–Sivashinsky and Navier–Stokes equations. Being an unprecedentedly deterministic model targeted at general small-scale dynamics, ND sheds light on the intricate spatiotemporal nonlinear dynamics of complex systems and reveals how small-scale dynamics are interacting with large-scale dynamics.

Published

2024

3. Molecular Phylogenetics and Estimation of Evolutionary Divergence and Biogeography of the Family Cordycipitaceae (Ascomycota, Hypocreales)

Author

Huili Pu, Jiao Yang, Nemat O. Keyhani, Lixia Yang, Minhai Zheng, Chenghao Qiu, Yuchen Mao, Junya Shang, Yongsheng Lin, Chengjie Xiong, Longbing Lin, Pengyu Lai, Yanbin Huang, Xin Yuan, Huiling Liang, Longfei Fan, Xiaoli Ma, Chunjin Qiu, and Junzhi Qiu

Subjects

Cordycipitacea, ancestral state reconstruction, molecular clock, fungal morphology, multi-locus phylogeny, fungal taxonomy, Biology (General), QH301-705.5

Abstract

The Cordycipitaceae family of insecticidal fungi is widely distributed in nature, is the most complex in the order Hypocreales (Ascomycota), with members displaying a diversity of morphological characteristics and insect host ranges. Based on Bayesian evolutionary analysis of five genomic loci(the small subunit of ribosomal RNA (SSU) gene, the large subunit of ribosomal RNA (LSU) gene, the translation elongation factor 1-α (tef1-α) gene, the largest subunit of RNA polymerase II (rpb1), and the second largest subunit of RNA polymerase II (rpb2), we inferred the divergence times for members of the Cordycipitaceae, improving the internal phylogeny of this fungal family. Molecular clock analyses indicate that the ancestor of Akanthomyces sensu lato occurred in the Paleogene period (34.57 Mya, 95% HPD: 31.41–37.67 Mya), and that most species appeared in the Neogene period. The historical biogeography of Akanthomyces sensu lato was reconstructed using reconstructing ancestral state in phylogenies (RASP) analysis, indicating that it most likely originated in Asia. Combined morphological characterization and phylogenetic analyses were used to identify and taxonomically place five species within Cordycipitaceae. These include the following: (i) two new species, namely Akanthomyces baishanensis sp. nov. and Samsoniella sanmingense sp. nov., (ii) a new record species isolated from infected Lepidopteran host, Blackwellomyces lateris, (iii) a new record species in the genus Niveomyces, with sporothrix-like asexual morphs, namely N. multisynnematus, isolated from dipteran insects (flies), and (iv) a known species of the (hyper-) mycoparasite, Liangia sinensis, isolated from the fungus Ophiocordyceps globiceps (Ophiocordycipitaceae) growing on a dipteran host. Our data provide a significant addition to the diversity, ecology, and evolutionary aspects of the Cordycipitaceae.

Published

2025

4. Understanding and exploring the diversity of soil microorganisms in tea (Camellia sinensis) gardens: toward sustainable tea production

Author

Motunrayo Y. Jibola-Shittu, Zhiang Heng, Nemat O. Keyhani, Yuxiao Dang, Ruiya Chen, Sen Liu, Yongsheng Lin, Pengyu Lai, Jinhui Chen, Chenjie Yang, Weibin Zhang, Huajun Lv, Ziyi Wu, Shuaishuai Huang, Pengxi Cao, Lin Tian, Zhenxing Qiu, Xiaoyan Zhang, Xiayu Guan, and Junzhi Qiu

Subjects

microbial communities, soil health, soil microorganisms, tea gardens, tea plant, Microbiology, QR1-502

Abstract

Leaves of Camellia sinensis plants are used to produce tea, one of the most consumed beverages worldwide, containing a wide variety of bioactive compounds that help to promote human health. Tea cultivation is economically important, and its sustainable production can have significant consequences in providing agricultural opportunities and lowering extreme poverty. Soil parameters are well known to affect the quality of the resultant leaves and consequently, the understanding of the diversity and functions of soil microorganisms in tea gardens will provide insight to harnessing soil microbial communities to improve tea yield and quality. Current analyses indicate that tea garden soils possess a rich composition of diverse microorganisms (bacteria and fungi) of which the bacterial Proteobacteria, Actinobacteria, Acidobacteria, Firmicutes and Chloroflexi and fungal Ascomycota, Basidiomycota, Glomeromycota are the prominent groups. When optimized, these microbes’ function in keeping garden soil ecosystems balanced by acting on nutrient cycling processes, biofertilizers, biocontrol of pests and pathogens, and bioremediation of persistent organic chemicals. Here, we summarize research on the activities of (tea garden) soil microorganisms as biofertilizers, biological control agents and as bioremediators to improve soil health and consequently, tea yield and quality, focusing mainly on bacterial and fungal members. Recent advances in molecular techniques that characterize the diverse microorganisms in tea gardens are examined. In terms of viruses there is a paucity of information regarding any beneficial functions of soil viruses in tea gardens, although in some instances insect pathogenic viruses have been used to control tea pests. The potential of soil microorganisms is reported here, as well as recent techniques used to study microbial diversity and their genetic manipulation, aimed at improving the yield and quality of tea plants for sustainable production.

Published

2024

5. Electrical and thermal characterization of (250 °C) SiC power module integrated with LTCC-based isolated gate driver

Author

Salahaldein Ahmed, Pengyu Lai, Sudharsan Chinnaiyan, Alan Mantooth, and Zhong Chen

Subjects

High-temperature (HT) gate driver, Power module, Power device packaging, High-temperature applications, Silicon carbide MOSFET, BJT, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The high-voltage SiC MOSFET power modules enable high-frequency and high-efficiency power conversion. The parasitic inductances induced by traditional packages of this device technology significantly deteriorate device switching performance, especially in high-temperature applications. In this paper, a novel low-cost discrete SMD component gate driver embedded in a SiC MOSFET power module is introduced. A newly integrated packaging structure has been introduced and proved to be efficient in reducing package-related turn-on loss and turn-off parasitic ringing. However, the gate propagation delay and optocoupler on-chip weak output signal in such a structure become limitations for further pushing the operating frequency and the output current level for high-efficiency power conversion. The electrical characterization of low-temperature co-fired ceramic (LTCC) gate drivers is covered. Furthermore, a 1200 V/120A SiC MOSFET phase-leg power module utilizing high-temperature packaging technologies has been developed. The static characteristics, switching performance, and thermal behavior of the fabricated power module are fully evaluated under operating temperature variations of up to 250 °C.

Published

2024

6. Development of LTCC-packaged optocouplers as optical galvanic isolation for high-temperature applications

Author

Pengyu Lai, David Gonzalez, Syam Madhusoodhanan, Abbas Sabbar, Salahaldein Ahmed, Binzhong Dong, Jiangbo Wang, H. Alan Mantooth, Shui-Qing Yu, and Zhong Chen

Subjects

Medicine, Science

Abstract

Abstract This paper reports high-temperature optocouplers for signal galvanic isolation. Low temperature co-fired ceramic (LTCC) technology was used in the design and fabrication of the high-temperature optocoupler package. The optimal coupling behaviors, driving capabilities and response speed of the optocouplers were concentrated and investigated in this paper. Emitters and detectors with different emission and spectral wavelengths were studied to achieve optimal coupling behaviors. Relatively high coupling efficiency is achieved with emitters and detectors of emission and spectral wavelength in the red spectrum (i.e., 620–750 nm), leading to higher current transfer ratios (CTR). To further enhance the electrical performance, optocouplers with multiple detectors in parallel were designed and fabricated. CTR, leakage current and response speed (i.e., propagation delay, rise time and fall time) of the optocouplers were characterized over a range of temperatures from 25 to 250 °C. The CTR degrades at high temperatures, while the leakage current and response speed show little degradation with varying temperatures. Furthermore, the behaviors of the optocouplers with varying temperatures are modeled and analyzed.

Published

2022

7. Three New Species of Russulaceae (Russulales, Basidiomycota) from Southern China

Author

Sen Liu, Mengjia Zhu, Nemat O. Keyhani, Ziyi Wu, Huajun Lv, Zhiang Heng, Ruiya Chen, Yuxiao Dang, Chenjie Yang, Jinhui Chen, Pengyu Lai, Weibin Zhang, Xiayu Guan, Yanbin Huang, Yuxi Chen, Hailan Su, and Junzhi Qiu

Subjects

Basidiomycota, Russulales, Russula, Lactarius, new species, morphological and phylogenetic analyses, Biology (General), QH301-705.5

Abstract

The characterization of natural fungal diversity impacts our understanding of ecological and evolutionary processes and can lead to novel bioproduct discovery. Russula and Lactarius, both in the order Russulales, represent two large genera of ectomycorrhizal fungi that include edible as well as toxic varieties. Based on morphological and phylogenetic analyses, including nucleotide sequences of the internal transcribed spacer (ITS), the 28S large subunit of ribosomal RNA (LSU), the second largest subunit of RNA polymerase II (RPB2), the ribosomal mitochondrial small subunit (mtSSU), and the translation elongation factor 1-α (TEF1-α) gene sequences, we here describe and illustrate two new species of Russula and one new species of Lactarius from southern China. These three new species are: R. junzifengensis (R. subsect. Virescentinae), R. zonatus (R. subsect. Crassotunicatae), and L. jianyangensis (L. subsect. Zonarii).

Published

2024

8. Isolation of a highly virulent Metarhizium strain targeting the tea pest, Ectropis obliqua

Author

Jie Zhao, Yuxi Chen, Nemat O. Keyhani, Cong Wang, Yichen Li, Huili Pu, Jincheng Li, Sen Liu, Pengyu Lai, Mengjia Zhu, Xueyou He, Shouping Cai, Xiayu Guan, and Junzhi Qiu

Subjects

Ascomycota, entomopathogenic fungus, Metarhizium, Ectropis obliqua, biocontrol potential, mycoinsecticide, Microbiology, QR1-502

Abstract

IntroductionTea is one of the most widely consumed beverages around the world. Larvae of the moth, Ectropis obliqua Prout (Geometridae, Lepidoptera), are one of the most destructive insect pests of tea in China. E. obliqua is a polyphagus insect that is of increasing concern due to the development of populations resistant to certain chemical insecticides. Microbial biological control agents offer an environmentally friendly and effective means for insect control that can be compatible with “green” and organic farming practices.MethodsTo identify novel E. obliqua biological control agents, soil and inset cadaver samples were collected from tea growing regions in the Fujian province, China. Isolates were analyzed morphologically and via molecular characterization to identity them at the species level. Laboratory and greenhouse insect bioassays were used to determine the effectiveness of the isolates for E. obliqua control.ResultsEleven isolates corresponding to ten different species of Metarhizium were identified according to morphological and molecular analyses from soil and/or insect cadavers found on tea plants and/or in the surrounding soil sampled from eight different regions within the Fujian province, China. Four species of Metarhizium including M. clavatum, M. indigoticum, M. pemphigi, and M. phasmatodeae were documented for the first time in China, and the other species were identified as M. anisopliae, M. brunneum, M. lepidiotae, M. majus, M. pinghaense, and M. robertsii. Insect bioassays of the eleven isolates of Metarhizium revealed significant variation in the efficacy of each isolate to infect and kill E. obliqua. Metarhizium pingshaense (MaFZ-13) showed the highest virulence reaching a host target mortality rate of 93% in laboratory bioassays. The median lethal concentration (LC50) and median lethal time (LT50) values of M. pingshaense MaFZ-13 were 9.6 × 104 conidia/mL and 4.8 days, respectively. Greenhouse experiments and a time-dose-mortality (TDM) models were used to further evaluate and confirm the fungal pathogenic potential of M. pingshaense MaFZ-13 against E. obliqua larvae.DiscussionIsolation of indigenous microbial biological control agents targeting specific pests is an effective approach for collecting resources that can be exploited for pest control with lowered obstacles to approval and commercialization. Our data show the presence of four different previously unreported Metarhizium species in China. Bioassays of the eleven different Metarhizium strains isolated revealed that each could infect and kill E. obliqua to different degrees with the newly isolated M. pingshaense MaFZ-13 strain representing a particularly highly virulent isolate potentially applicable for the control of E. obliqua larvae.

Published

2023

9. Student perceptions toward virtual reality training in dental implant education

Author

Yue Huang, Yingwen Hu, Unman Chan, Pengyu Lai, Yueting Sun, Jun Dai, Xin Cheng, and Xuesong Yang

Subjects

Dental education, Dental implant, Usability, Acceptance, Virtual reality (vr), Medicine, Biology (General), QH301-705.5

Abstract

Objectives Both the shortage of professional teaching resources and the expensive dental implant supplies impede the effective training of dental undergraduate in implantology. Virtual reality (VR) technology may provide solutions to solve these problems. This pilot study was implemented to explore the usability and acceptance of a VR application in the training of dental implant among dental students at the Jinan University School of Stomatology. Methods We designed and developed a VR system with head-mounted displays (HMDs) to assist dental implant training. Undergraduate dental students were invited to experience a 30-minute “Introduction to dental implants” VR-HMDs training module. A total of 119 dental students participated the training. Firstly, the VR interactive training on dental implant was described, illustrated and practiced. Next, a system usability scale (SUS) survey was used to verify the usability and feasibility of the VR application on training dental students. Finally, the participants were given a questionnaire to provide their perceptions and feedback of the usefulness of the VR application for training dental implant skills. Results The SUS score was 82.00 ± 10.79, indicating a top 10 percentage ranking of the system’s usabilitys. The participants’ answers to the questionnaire reflected most of them exhibited strong interests in the VR system, with a tendency that the female students were more confident than the male in manipulating the VR system. The participants generally acknowledged the usefulness of VR dental implants, ranking VR value above the traditional laboratory operations, and a preference for using the VR system on learning other skills. They also gave valuable suggestions on VR dental implants for substantial improvement. However, some students were not strongly positive about the VR training in this study, the reason might lie in a more theoretical module was selected for testing, which impacted the students’ ratings. Conclusions In this study we revealed the feasibility and usability of VR applications on training dental implant among undergraduate dental students. This pilot study showed that the participants benefited from the dental implant VR training by practicing the skills repeatedly. The feedback from student participants affirmed the advantages and their acceptance of the VR application in dental education. Especially, the VR-based technology is highly conducive to clinical operating skills and surgical procedures-focused training in medical education, indicating that the VR system should be combined with the traditional practice approach in improving dental students’ practical abilities.

Published

2023

10. High-temperature analysis of optical coupling using AlGaAs/GaAs LEDs for high-density integrated power modules

Author

Syam Madhusoodhanan, Abbas Sabbar, Huong Tran, Pengyu Lai, David Gonzalez, Alan Mantooth, Shui-Qing Yu, and Zhong Chen

Subjects

Medicine, Science

Abstract

Abstract A low-temperature co-fired ceramic (LTCC)-based optocoupler design is demonstrated as a possible solution for optical isolation in high-density integrated power modules. The design and fabrication of LTCC based package are discussed. Commercially available aluminum gallium arsenide/gallium arsenide (AlGaAs/GaAs) double heterostructure is used both as emitter and photodetector in the proposed optocoupler. A detailed study on the electroluminescence and spectral response of the AlGaAs/GaAs structure is conducted at elevated temperatures. The material figure of merit parameter, D*, is calculated in the temperature range 77–800 K. The fabricated optocoupler is tested at elevated temperatures, and the results are presented.

Published

2022

11. Understanding and exploring the diversity of soil microorganisms in tea (Camellia sinensis) gardens: toward sustainable tea production.

Author

Jibola-Shittu, Motunrayo Y., Zhiang Heng, Keyhani, Nemat O., Yuxiao Dang, Ruiya Chen, Sen Liu, Yongsheng Lin, Pengyu Lai, Jinhui Chen, Chenjie Yang, Weibin Zhang, Huajun Lv, Ziyi Wu, Shuaishuai Huang, Pengxi Cao, Lin Tian, Zhenxing Qiu, Xiaoyan Zhang, Xiayu Guan, and Junzhi Qiu

Subjects

SUSTAINABILITY, SOIL microbiology, TEA, TEA growing, AZOTOBACTER, PEST control

Abstract

Leaves of Camellia sinensis plants are used to produce tea, one of the most consumed beverages worldwide, containing a wide variety of bioactive compounds that help to promote human health. Tea cultivation is economically important, and its sustainable production can have significant consequences in providing agricultural opportunities and lowering extreme poverty. Soil parameters are well known to affect the quality of the resultant leaves and consequently, the understanding of the diversity and functions of soil microorganisms in tea gardens will provide insight to harnessing soil microbial communities to improve tea yield and quality. Current analyses indicate that tea garden soils possess a rich composition of diverse microorganisms (bacteria and fungi) of which the bacterial Proteobacteria, Actinobacteria, Acidobacteria, Firmicutes and Chloroflexi and fungal Ascomycota, Basidiomycota, Glomeromycota are the prominent groups. When optimized, these microbes' function in keeping garden soil ecosystems balanced by acting on nutrient cycling processes, biofertilizers, biocontrol of pests and pathogens, and bioremediation of persistent organic chemicals. Here, we summarize research on the activities of (tea garden) soil microorganisms as biofertilizers, biological control agents and as bioremediators to improve soil health and consequently, tea yield and quality, focusing mainly on bacterial and fungal members. Recent advances in molecular techniques that characterize the diverse microorganisms in tea gardens are examined. In terms of viruses there is a paucity of information regarding any beneficial functions of soil viruses in tea gardens, although in some instances insect pathogenic viruses have been used to control tea pests. The potential of soil microorganisms is reported here, as well as recent techniques used to study microbial diversity and their genetic manipulation, aimed at improving the yield and quality of tea plants for sustainable production. [ABSTRACT FROM AUTHOR]

Published

2024

12. Area-Efficient Silicon Carbide SCR Device for On-Chip ESD Protection

Author

Pengyu Lai, Hui Wang, Affan Abbasi, Sajib Roy, Arman Rashid, Alan Mantooth, and Zhong Chen

Subjects

Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials

Published

2022

13. High-temperature analysis of optical coupling using AlGaAs/GaAs LEDs for high-density integrated power modules

Author

Syam Madhusoodhanan, Abbas Sabbar, Huong Tran, Pengyu Lai, David Gonzalez, Alan Mantooth, Shui-Qing Yu, and Zhong Chen

Subjects

Multidisciplinary

Abstract

A low-temperature co-fired ceramic (LTCC)-based optocoupler design is demonstrated as a possible solution for optical isolation in high-density integrated power modules. The design and fabrication of LTCC based package are discussed. Commercially available aluminum gallium arsenide/gallium arsenide (AlGaAs/GaAs) double heterostructure is used both as emitter and photodetector in the proposed optocoupler. A detailed study on the electroluminescence and spectral response of the AlGaAs/GaAs structure is conducted at elevated temperatures. The material figure of merit parameter, D*, is calculated in the temperature range 77–800 K. The fabricated optocoupler is tested at elevated temperatures, and the results are presented.

Published

2021

14. Investigation of parasitic bipolar transistor in rail-based electrostatic discharge (ESD) protection circuits

Author

Hui Wang, Pengyu Lai, Xianrui Li, and Zhong Chen

Subjects

Electrostatic discharge, business.industry, Computer science, Optoelectronics, Parasitic bipolar transistor, Electrical and Electronic Engineering, Condensed Matter Physics, business, Electronic, Optical and Magnetic Materials, Electronic circuit

Published

2019