Xiangxiang Zheng | Cardiovascular Medicine | Best Researcher Award

Dr. Xiangxiang Zheng | Cardiovascular Medicine | Best Researcher Award

Dr. Xiangxiang Zheng, Jiangsu Province Hospital, China

Dr. Xiangxiang Zheng, a dedicated cardiac surgeon at Jiangsu Provincial People’s Hospital since 2008, specializes in minimally invasive treatments for heart valve diseases and stem cell therapy for myocardial infarction. With a PhD and over 300 cardiac surgeries performed annually, he is at the forefront of cardiovascular innovation. His notable publications include research on engineering extracellular vesicles for diagnosis and therapy, and comparing surgical techniques for atrial septal defect repair. Dr. Zheng’s work significantly contributes to advancing surgical practices and improving patient outcomes. He is 42 years old and married. β€οΈπŸ‘¨β€βš•οΈπŸ“š

 

Publication profile

Scopus


Professional Experience

Since 2008, Dr. Xiangxiang Zheng has been an esteemed cardiac surgeon in the Department of Cardiovascular Surgery at Jiangsu Provincial People’s Hospital. With over 300 cardiac surgeries performed annually, he has established himself as a leader in the field. Dr. Zheng specializes in minimally invasive treatments for heart valve diseases, which significantly reduce recovery time and improve patient outcomes. His expertise also extends to stem cell therapy for myocardial infarction, where he employs innovative techniques to enhance heart repair and regeneration. Dr. Zheng’s dedication to advancing cardiovascular care is evident through his hands-on surgical practice and commitment to exploring new methodologies in cardiac surgery. He continuously strives to improve surgical techniques and patient safety, making a lasting impact on the lives of those he treats. His contributions not only elevate the standard of care in his department but also serve as an inspiration to his colleagues and the medical community. πŸŒŸπŸ‘¨β€βš•οΈπŸ“ˆ

 

Research Focus

Dr. Xiangxiang Zheng’s research primarily focuses on cardiovascular surgery, particularly in innovative surgical techniques and therapies for heart diseases. His work emphasizes minimally invasive procedures, such as thoracoscopic surgeries for atrial septal defect repair, as well as advanced myocardial protection strategies during complex cardiac surgeries. Additionally, Dr. Zheng explores stem cell therapy and the engineering of extracellular vesicles for therapeutic applications, enhancing diagnosis and treatment methods in cardiology. His research also delves into the physiological impacts of surgical interventions on heart function and the progression of pulmonary arterial hypertension, contributing significantly to the field of cardiovascular medicine. πŸ₯πŸ“šβœ¨

 

Publication Top Notes

  • Engineering extracellular vesicles for diagnosis and therapy 🧬
    Fei, Z., Zheng, J., Zheng, X., Ren, H., Liu, G.
    Trends in Pharmacological Sciences, 2024.
    Cited by: 0
  • The Impact of Highly Selective Thoracic Sympathectomy on the Progression of Monocrotaline-induced Pulmonary Arterial Hypertension in Rats 🐭
    Liu, W., Men, C., Liu, Z., Zhang, L., Zheng, X.
    Journal of Physiological Investigation, 2024, 67(4), pp. 207-214.
    Cited by: 0
  • Triport Periareolar Thoracoscopic Surgery versus Right Minithoracotomy for Repairing Atrial Septal Defect in Adults πŸ’”
    Zheng, X.-X., Wang, Z.-Y., Ma, L.-Y., Qin, J.-W., Shao, Y.-F.
    Interactive Cardiovascular and Thoracic Surgery, 2021, 32(2), pp. 313-318.
    Cited by: 5
  • Comparison of Myocardial Protection Effect between Del Nido Cardioplegia and Cold Blood Cardioplegia in Complex Cardiac Surgery πŸ’‰
    Jiao, S.-Y., Liu, L., Ma, L.-Y., Zheng, X.-X., Qin, J.-W.
    Chinese Journal of Clinical Research, 2020, 33(6), pp. 807-810.
    Cited by: 0
  • Myocardial Protective Effect of Three Cardioplegia in Adult Valve Replacement πŸ’—
    Liu, H., Jiao, S.-Y., Ma, L.-Y., Zheng, X.-X., Qin, J.-W.
    Chinese Journal of Clinical Research, 2019, 32(6), pp. 775-778.
    Cited by: 1
  • Bilateral Superior Cervical Ganglionectomy Attenuates the Progression of Ξ²-Aminopropionitrile-induced Aortic Dissection in Rats πŸ§ͺ
    Liu, H., Zheng, X., Zhang, L., Shao, Y., Zhang, S.
    Life Sciences, 2018, 193, pp. 200-206.
    Cited by: 5
  • Cardiac Autotransplantation for Repair of Left Ventricular Rupture after Mitral Valve Replacement πŸ₯
    Ni, B., Zheng, X., Zhang, S., Shao, Y.
    Interactive Cardiovascular and Thoracic Surgery, 2017, 25(1), pp. 150-152.
    Cited by: 3
  • Three Circulating LncRNA Predict Early Progress of Esophageal Squamous Cell Carcinoma πŸ”¬
    Hu, H.-B., Jie, H.-Y., Zheng, X.-X.
    Cellular Physiology and Biochemistry, 2016, 40(1-2), pp. 117-125.
    Cited by: 68
  • High Expression of LncRNA PVT1 Promotes Invasion by Inducing Epithelial-to-Mesenchymal Transition in Esophageal Cancer πŸš€
    Zheng, X., Hu, H., Li, S.
    Oncology Letters, 2016, 12(4), pp. 2357-2362.
    Cited by: 85
  • Myxoid Fibrosarcoma of the Left Atrium and Ventricle in Pregnancy πŸ‘Άβ€οΈ
    Zhang, W., Zheng, X., Ni, B., Shao, Y., Zhang, S.
    Annals of Thoracic Surgery, 2014, 98(5), pp. 1818-1819.
    Cited by: 3

Abdullah-Al-Bakky | Agriculture Award | Young Scientist Award

Mr. Abdullah-Al-Bakky | Agriculture Award | Young Scientist Award

Mr. Abdullah-Al-Bakky, Bangladesh Jute Research Institute, Bangladesh

Abdullah-Al-Bakky is a dedicated Scientific Officer at the Bangladesh Jute Research Institution, specializing in Biochemistry, Agriculture, Food Analysis, Soil Science, Nutrition, and Environmental Science. He holds a Master of Science in Biochemistry and Food Analysis from Patuakhali Science & Technology University (2016) and a Bachelor of Science in Agriculture (2015). Abdullah has contributed significantly to environmental research, authoring multiple publications on biofuel production, heavy metal contamination, and ecological assessments. His work emphasizes sustainable practices and ecological risk management, making him a valuable asset to the scientific community. πŸŒπŸ“š

 

Publication profile

Google Scholar

Educational Qualification

Abdullah-Al-Bakky has a strong academic background, having completed his Secondary School Certificate from Barisal in 2007 with a perfect score of 5.00. He then achieved his Higher Secondary Certificate in 2009 with a commendable grade of 4.60. Pursuing higher education, he earned a Bachelor of Science in Agriculture (Honours) from Patuakhali Science & Technology University in 2015, achieving a GPA of 3.149. He further advanced his studies by obtaining a Master of Science in Biochemistry and Food Analysis from the same university in 2016, with an impressive GPA of 3.968. πŸŽ“πŸŒ±πŸ“š

 

Professional Experience

Abdullah-Al-Bakky serves as a Scientific Officer at the Bangladesh Jute Research Institution, where he has been contributing his expertise since December 11, 2022. In this ongoing role, he is dedicated to advancing research in the field of agriculture, particularly focusing on jute and its various applications. His work involves conducting experiments, analyzing data, and collaborating with fellow researchers to enhance the quality and sustainability of jute production. Abdullah’s commitment to his profession reflects his passion for agricultural science and environmental sustainability. πŸŒΎπŸ”¬πŸ‘¨β€πŸ”¬

 

Research Experience

Currently serving as a Scientific Officer at the Bangladesh Jute Research Institution, Abdullah has relevant work experience that complements his academic background. His ongoing position since December 2022 indicates a commitment to research and practical application in the field of agriculture and biochemistry.

Publication Top Notes

  • Contamination and ecological risk assessment of Cr, As, Cd, and Pb in water and sediment of the southeastern Bay of Bengal coast in a developing country – Cited by: 17 | Year: 2023 πŸŒŠβš–οΈ
  • Concentration and Ecological Risk of Heavy Metals in River Sediments of a Developing Country: A Meta-Analysis – Cited by: 4 | Year: 2024 πŸ“ŠπŸ”
  • Production of biofuel from cassava – Cited by: 2 | Year: 2019 πŸŒ±πŸ”‹
  • Increase the Efficient Use of Phosphorus Fertilizer for Maize in the Calcareous Soils – Cited by: 1 | Year: 2024 πŸŒΎπŸ’§
  • Toxicity factors, ecological and health risk assessments of heavy metals in the urban soil: a case study of an agro-machinery area in a developing country – Year: 2024 ⚠️🌍
  • Toxicity assessment of heavy metals translocation in maize grown in the Ganges delta floodplain soils around the Payra power plant in Bangladesh – Year: 2024 🌽πŸ’₯
  • Sources and impacts of microplastic on the world’s longest sea beach of the Bay of Bengal coasts: a review on microplastic management – Year: 2024 πŸ–οΈπŸ”¬
  • Trace Metals Translocation from Soil to Plants: Health Risk Assessment Through Intake of Vegetables in the Urban Sprawl of a Developing Country – Year: 2024 🌿⚠️

Conclusion

Abdullah-Al-Bakky possesses a strong academic foundation, relevant research experience, and a commendable publication record. His focus on critical areas such as environmental science and biochemistry makes him a suitable candidate for the Research for Young Scientist Award. His contributions not only advance scientific understanding but also address pressing environmental issues, further supporting his candidacy.

Kezhang Shi | Nanophotonics | Best Researcher Award

Dr. Kezhang Shi | Nanophotonics | Best Researcher Award

Dr. Kezhang Shi, Zhejiang University, China

Dr. Kezhang Shi is an Assistant Professor at Zhejiang University, specializing in optical engineering. He holds a PhD from the same institution and has been recognized as a “Yongjiang Talent” and “Top Talent” in Ningbo. Dr. Shi focuses on near-field thermal radiation and thermophotovoltaics, contributing over 30 publications in esteemed journals like Advanced Materials and Nano Letters. He chairs sessions at international conferences, including PIERS 2024, and serves as a reviewer for Nature Communications. With 683 citations and multiple national project involvements, his innovative research has significantly advanced the field. πŸ“šπŸ”¬βœ¨

 

Publication profile

Google Scholar

Academic and Professional Background

Dr. Shi’s prolific output includes over 30 publications in reputable journals such as Advanced Materials and Nano Letters. His research focuses on near-field thermal radiation, where he has developed innovative methods that surpass blackbody limits, resulting in national recognition and multiple awards. His citation index indicates a strong impact within his field, boasting 683 total citations, an h-index of 13, and an i10-index of 17.

Research and Innovations

Dr. Shi leads several significant research projects, including those funded by the National Natural Science Foundation of China and the Key Research and Development Program of Ningbo. His involvement in high-value projects demonstrates his commitment to advancing knowledge in his field, with substantial financial backing indicating the importance of his work. His collaborative efforts with national projects further underline his role as a key researcher in nanotechnology and thermal conversion mechanisms.

Publication Top Notes

  • Nonreciprocal wide-angle and narrowband thermal emitter – J Wang, K Shi, X Xing, Materials Today PhysicsCited by: 0 – Year: 2024 πŸ“…
  • Ultra-broadband and wide-angle nonreciprocal thermal emitter based on Weyl semimetal metamaterials – K Shi, Y Sun, R Hu, S He, NanophotonicsCited by: 10 – Year: 2024 πŸ“…
  • Comparison of the Casimir force between SiC plates with different permittivity models: Lorentz model and Palik data – Y Hu, X Wu, L Ge, K Shi, X Huang, Materials Today CommunicationsCited by: 0 – Year: 2024 πŸ“…
  • Near-field radiative modulator based on Ξ±-MoO3 films – L Li, X Wu, H Liu, K Shi, Y Liu, K Yu, International Journal of Heat and Mass TransferCited by: 7 – Year: 2023 πŸ“…
  • Near-field radiative heat transfer between multilayer structures composed of different hyperbolic materials – K Yu, L Li, K Shi, H Liu, Y Hu, K Zhang, Y Liu, X Wu, International Journal of Heat and Mass TransferCited by: 12 – Year: 2023 πŸ“…
  • Enhanced near-field radiative heat transfer between core-shell nanoparticles through surface modes hybridization – Y Hu, H Liu, B Yang, K Shi, M Antezza, X Wu, Fundamental ResearchCited by: 4 – Year: 2023 πŸ“…
  • Enhancing circularly polarized emission by a planar chiral dielectric metasurface – Y Sun, Z Hu, K Shi, T Guo, Y Xing, Y Jin, S He, Advanced Optical MaterialsCited by: 10 – Year: 2023 πŸ“…
  • Enhancement and modulation of three-body near-field radiative heat transfer via anisotropic hyperbolic polaritons – H Liu, K Shi, K Zhou, Q Ai, M Xie, X Wu, International Journal of Heat and Mass TransferCited by: 8 – Year: 2023 πŸ“…
  • Polariton hybridization phenomena on near-field radiative heat transfer in periodic graphene/Ξ±-MoO3 cells – J Zhang, B Yang, K Shi, H Liu, X Wu, NanophotonicsCited by: 13 – Year: 2023 πŸ“…
  • Strong nonreciprocal thermal radiation of transverse electric wave in Weyl semimetal – J Wu, B Wu, K Shi, X Wu, C Fu, International Journal of Thermal SciencesCited by: 34 – Year: 2023 πŸ“…


Conclusion

Dr. Kezhang Shi’s extensive contributions to the field of optical engineering, his innovative research projects, and his commitment to academic excellence, he is exceptionally well-suited for the Best Researcher Award. His achievements not only advance scientific understanding but also have practical implications in technology and energy efficiency. His dedication and impact in the realm of near-field thermal radiation make him a deserving candidate for this prestigious recognition.

Kumiko Kishmoto | Nursing | Best Researcher Award

Dr. Kumiko Kishmoto | Nursing | Best Researcher Award

Dr. Kumiko Kishmoto, Teikyo Heisei University, Japan

Dr. Kumiko Kishimoto has a rich background as a hospital nurse and nursing faculty member. Her current research focuses on the relationship between nurses’ self-compassion and personal factors, as well as the role of psychological safety in psychiatric wards. Committed to enhancing the well-being of nursing professionals, Dr. Kishimoto is dedicated to improving patient care outcomes.

Publication profile

Orcid


Academic and Professional Background

Dr. Kumiko Kishimoto has over 20 years of professional experience in the nursing field, combining a decade of hands-on clinical practice as a hospital nurse with ten years of dedicated service as a nursing faculty member. Her extensive background equips her with valuable insights into both the practical and theoretical aspects of nursing education, fostering a comprehensive understanding of healthcare dynamics. Dr. Kishimoto’s commitment to excellence in nursing is evident in her teaching methodologies, research initiatives, and contributions to the academic community.

Research and Innovations

Dr. Kishimoto’s current research focuses on exploring the relationship between nurses’ self-compassion and various personal factors, emphasizing the significance of psychological safety within psychiatric wards. By investigating these critical dimensions, her work aims to enhance the well-being of nursing professionals and improve patient care outcomes. Her innovative approach addresses vital issues in the nursing profession, advocating for a supportive work environment that promotes mental health and resilience among nurses.

Publication Top Notes

  • The relationships among factors affecting compassion fatigue, compassion satisfaction, and burnout in Japanese nurses: A cross‐sectional study (2024) πŸ₯
  • The development of the Japanese version of the Forms of Self-Criticising/Attacking & Self-Reassuring Scale (J-FSCRS) (2024) 🧠
  • The development of the Japanese version of the full and short form of Attitudes Towards Mental Health Problems Scale (J-(S) ATMHPS) (2023) 🌍


Conclusion

Dr. Kumiko Kishimoto is a highly qualified candidate for the Best Researcher Award, with a distinguished academic and professional background in nursing. Her innovative research on self-compassion and psychological safety in nursing not only contributes to the field but also has the potential to impact nursing practices positively. Her dedication to improving the mental health and resilience of nurses makes her an exemplary choice for this prestigious recognition.

 

 

Jianmin Li | Solar cell | Best Researcher Award

Assoc Prof Dr. Jianmin Li | Solar cell | Best Researcher Award

Assoc Prof Dr. Jianmin Li, Wuhan University, China

Assoc. Prof. Dr. Jianmin Li πŸŽ“πŸ”¬ is an accomplished academic at Wuhan University, specializing in thin-film solar cells since February 2023. He previously served as an associate research fellow at the same institution and completed his postdoctoral fellowship at The Chinese University of Hong Kong. His research focuses on CIGS and antimony-based thin-film materials, achieving significant breakthroughs in solar cell efficiency. Dr. Li has published extensively, including high-impact articles in Energy & Environmental Science and Advanced Materials, and holds multiple patents. He is also a member of the China Renewable Energy Society and serves as a Topic Editor for Energies magazine. πŸŒžπŸ“š

Publication profile

Scopus

Orcid

Google Scholar

Education

Assoc. Prof. Dr. Jianmin Li is an esteemed academic at Wuhan University, where he has been an associate professor in the College of Physical Sciences and Technology since February 2023, focusing on thin-film solar cells. His academic journey includes roles as an associate research fellow and postdoctoral fellow at The Chinese University of Hong Kong, where he specialized in the same field. He earned his PhD in material physics and chemistry from the University of Science and Technology of China. With a strong background in electronic science and technology, Dr. Li is committed to advancing solar energy research. πŸŒ±πŸ“š

 

Professional Background

Assoc. Prof. Dr. Jianmin Li is an accomplished associate professor and master tutor at the School of Physical Science and Technology at Wuhan University. As a member of the China Renewable Energy Society, he specializes in the research of inorganic thin-film materials and solar cells, particularly CIGS and antimony-based materials. His recent breakthroughs in the field have set new records for efficiency, notably achieving 10.7% for Sbβ‚‚(S, Se)₃ solar cells in November 2021 and 10.57% for pure Se Sbβ‚‚Se₃ batteries in October 2022. πŸ“ˆπŸŒΏ

Research Contributions

Dr. Li has presided over and contributed to numerous projects, including funding from the National Natural Science Foundation of China and the Hubei Natural Science Foundation. His research output is impressive, with over 70 published papers in prestigious journals such as Energy & Environmental Science, Advanced Materials, and Nano Energy. Additionally, he has applied for seven Chinese patents, with three already authorized. πŸ“πŸ”

Publication Top Notes

  • A fast chemical approach towards Sbβ‚‚S₃ film with a large grain size for high-performance planar heterojunction solar cells πŸ“ (Cited by: 172, 2017)
  • Regulating Energy Band Alignment via Alkaline Metal Fluoride Assisted Solution Post‐Treatment Enabling Sbβ‚‚(S, Se)₃ Solar Cells with 10.7% Efficiency πŸ“ (Cited by: 152, 2022)
  • Regulating Deposition Kinetics via A Novel Additive-assisted Chemical Bath Deposition Technology Enables 10.57%-efficient Sbβ‚‚Se₃ Solar Cells πŸ“ (Cited by: 119, 2022)
  • A Novel Multi-sulfur Source Collaborative Chemical Bath Deposition Technology Enables 8%-efficiency Sbβ‚‚S₃ Planar Solar Cells πŸ“ (Cited by: 110, 2022)
  • Selenium‐graded Sbβ‚‚(Sβ‚βˆ’β‚“Seβ‚“)₃ for planar heterojunction solar cell delivering a certified power conversion efficiency of 5.71% πŸ“ (Cited by: 95, 2017)
  • Cuβ‚‚SnS₃ solar cells fabricated by chemical bath deposition–annealing of SnS/Cu stacked layers πŸ“ (Cited by: 73, 2016)
  • Enhancing photocurrent of Cu(In, Ga)Seβ‚‚ solar cells with actively controlled Ga grading in the absorber layer πŸ“ (Cited by: 52, 2019)
  • Highly efficient wide-band-gap perovskite solar cells fabricated by sequential deposition method πŸ“ (Cited by: 43, 2021)
  • Zinc-based Electron Transport Materials for Over 9.6%-Efficient S-rich Sbβ‚‚(S, Se)₃ Solar Cells πŸ“ (Cited by: 43, 2021)
  • Highly oriented GeSe thin film: self-assembly growth via the sandwiching post-annealing treatment and its solar cell performance πŸ“ (Cited by: 43, 2019)

Conclusion

Dr. Jianmin Li’s extensive research contributions, significant achievements in solar cell technology, high publication record, and active role in academia and professional societies, he is indeed a strong candidate for the Best Researcher Award. His work not only advances scientific knowledge but also addresses critical issues in renewable energy.

 

 

Tumpa Sarker | Bioenergy | Best Researcher Award

Dr. Tumpa Sarker | Bioenergy | Best Researcher Award

Dr. Tumpa Sarker, Bangladesh Agricultural University, Bangladesh

Dr. Tumpa Rani Sarker is an accomplished academic specializing in agricultural engineering, with a focus on renewable energy and waste management. She earned her PhD in Biological Engineering from the University of Saskatchewan, Canada, and holds both MS and BSc degrees in Farm Power and Machinery from Bangladesh Agricultural University, where she secured the top position in her class. Dr. Sarker has received numerous accolades, including the Prime Minister’s Gold Medal and the Dean’s Scholarship Award. Her research encompasses biofuels, torrefaction, and precision agriculture, contributing significantly to sustainable agricultural practices. She actively engages in teaching and research, mentoring graduate students and publishing extensively in reputable journals.

Publication profile

Scopus

Google Scholar


Academic Background

Dr. Tumpa Sarker holds a PhD in Biological Engineering from the University of Saskatchewan (2018-2022), achieving an impressive 90% score in 2023. Prior to this, she earned her M.S. in Farm Power and Machinery from Bangladesh Agricultural University, Mymensingh (2014-2015), graduating with a 3.9 GPA and securing the first position in her class. She also completed her B.Sc. in Agricultural Engineering at the same institution (2010-2014), again obtaining a 3.9 GPA and finishing first in her cohort. Dr. Sarker’s academic excellence showcases her dedication and expertise in her field. 🌾✨

 

Academic Awards & Scholarships

Dr. Tumpa Sarker has received numerous accolades throughout her academic career. She was awarded the Deans Scholarship for her PhD at the University of Saskatchewan and the Graduate Teaching Fellowship for 2021-2022. She also received the Graduate Student’s Association Bursary in both Winter 2021 and Winter 2022. Notably, she earned a travel award to attend the 750th International Conference on Food and Agricultural Engineering in Dhaka, Bangladesh, in January 2020. Additionally, Dr. Sarker was recognized as the best oral presenter at a sustainable research conference in India and won the George Ira Hanson Postgraduate Award in Energy Research. πŸŽ“βœ¨

 

Research Interests

Dr. Tumpa Sarker’s research interests encompass a wide range of innovative fields focused on sustainability and technology. She is passionate about renewable and clean energy solutions, particularly in waste management and solid biofuels. Her expertise extends to biodiesel production and torrefaction processes. Dr. Sarker also explores advanced techniques such as spectroscopy, machine vision, robotics, and autonomous machinery. Additionally, she is dedicated to bio-sensing engineering and precision agriculture, aiming to enhance agricultural productivity. Her work includes post-harvest processing of agricultural products and improving agricultural power and machinery, contributing significantly to modern farming practices. 🌍🚜

 

Research Experience

Dr. Tumpa Sarker has an extensive research background in agricultural engineering, with a focus on innovative machine design and development. She led the design and development of a power-operated coconut dehusker, funded by BAURES in Mymensingh, aimed at enhancing efficiency in coconut processing. Additionally, she worked on the design and development of a multi-crop seed drill, also supported by BAURES, to improve planting efficiency across various crops. Her research includes the performance evaluation of a pull-type two-row granular urea applicator, contributing to optimized fertilizer application in agriculture. Her work underscores her commitment to advancing agricultural technology.

Professional Experience

Dr. Tumpa Sarker is an accomplished academic in the field of agricultural engineering. Since February 2018, she has served as an Assistant Professor in the Department of Farm Power and Machinery at Bangladesh Agricultural University, focusing on teaching and research. She completed her PhD fellowship at the University of Saskatchewan from September 2018 to September 2022, where she engaged in research and supervised graduate students. Additionally, she contributed as a Graduate Teaching Assistant in the Department of Chemical and Biological Engineering and as a Sessional Lecturer at the Graham School of Engineering. Dr. Sarker previously held a position as a Lecturer at Bangladesh Agricultural University from February 2016 to February 2018, demonstrating her dedication to education and research in agricultural technology.

Publication Top Notes

  • Hydrothermal pretreatment technologies for lignocellulosic biomass: A review of steam explosion and subcritical water hydrolysis – 238 citations, 2021 🌿
  • A review of torrefaction technology for upgrading lignocellulosic biomass to solid biofuels – 108 citations, 2021 πŸ”₯
  • Densification of waste biomass for manufacturing solid biofuel pellets: a review – 46 citations, 2023 πŸ“¦
  • Enhancement of fuel and physicochemical properties of canola residues via microwave torrefaction – 46 citations, 2021 βš™οΈ
  • Complementary effects of torrefaction and pelletization for the production of fuel pellets from agricultural residues: a comparative study – 42 citations, 2022 🌱
  • Physicochemical and fuel characteristics of torrefied agricultural residues for sustainable fuel production – 42 citations, 2020 🌾
  • Characteristics of torrefied fuel pellets obtained from co-pelletization of agriculture residues with pyrolysis oil – 39 citations, 2021 πŸ›’οΈ
  • Process optimization and investigating the effects of torrefaction and pelletization on steam gasification of canola residue – 37 citations, 2022 πŸ”¬
  • Parametric studies on hydrothermal gasification of biomass pellets using Box-Behnken experimental design to produce fuel gas and hydrochar – 24 citations, 2023 πŸ’¨
  • Hydrogen-rich gas production from hydrothermal gasification of fuel pellets obtained from co-pelletization of agricultural residues – 24 citations, 2022 ⚑

Conclusion

Dr. Tumpa Rani Sarker’s combination of academic excellence, research contributions, and dedication to the field positions her as a suitable candidate for the Best Researcher Award. Her commitment to advancing agricultural engineering and sustainable energy solutions aligns with the award’s objectives.

 

Reza Abazari | Advanced Materials | Best Researcher Award

Assist Prof Dr. Reza Abazari | Advanced Materials | Best Researcher Award

Assist Prof Dr. Reza Abazari, University of Maragheh, Iran

Assist. Prof. Dr. Reza Abazari is a distinguished Iranian chemist, currently serving at the University of Maragheh. He earned his PhD in Inorganic Chemistry from Tarbiat Modares University, Tehran, in 2019, where his thesis was awarded the top thesis honor. Dr. Abazari has made significant contributions in the fields of metal-organic frameworks (MOFs), nanomaterials synthesis, and catalysis. With 48 ISI papers and an impressive h-index of 47, he has been recognized among the top 2% of world scientists in 2021. His research encompasses photocatalysts, electrocatalysts, and supercapacitors for energy and environmental applications.

Publication profile

Google Scholar

Scopus

πŸŽ“ Education

Assist. Prof. Dr. Reza Abazari completed his PhD in Inorganic Chemistry in 2019 from Tarbiat Modares University, Tehran, Iran, where he developed a strong foundation in the field of materials science. Prior to that, he earned his MSc in Inorganic Chemistry in 2013 from K. N. Toosi University of Technology, Tehran, Iran, advancing his expertise in inorganic compounds and their applications. Dr. Abazari began his academic journey with a BSc from Karaj Azad University in 2007, solidifying his passion for chemistry. His educational background forms the basis for his current research and academic endeavors. πŸ§ͺπŸŽ“

 

πŸ”¬ Research Interests

Assist. Prof. Dr. Reza Abazari’s research focuses on cutting-edge areas in chemistry, particularly the design and application of metal-organic frameworks (MOFs) for various technological innovations. His expertise includes the targeted synthesis of nanomaterials used in catalysts, photocatalysts, and electrocatalysts for enhancing chemical reactions. Dr. Abazari is also involved in developing supercapacitors and exploring efficient methods for CO2 reduction to combat climate change. Additionally, he is working on drug delivery systems, aiming to improve targeted and efficient therapeutic methods. His diverse research is driven by innovation and practical applications in environmental and medical fields.

 

πŸ“š Teaching and Achievements

From 2014 to 2018, Assist. Prof. Dr. Reza Abazari taught General Chemistry and its laboratory course at Farhangian University, Tehran, followed by instructing the Inorganic Chemistry Laboratory at Tehran University in 2019. He received the award for Best Doctoral Thesis at Tarbiat Modares University in 2019 and was ranked Best Postdoctoral Researcher in 2020. A member of Iran’s National Elites Foundation, he was recognized as part of the top 2% of world scientists in 2021, 2022, and 2023. Dr. Abazari serves on the editorial board of Nanoarchitectonics and was named an Iran Science Elite in 2023.

 

Publication Top Notes

  • Bimetallic metal–organic frameworks and MOF-derived composites: Recent progress on electro-and photoelectrocatalytic applications – Cited by 262, Year: 2022 πŸ“„
  • Metal–organic framework derived bimetallic materials for electrochemical energy storage – Cited by 237, Year: 2021 ⚑
  • Advances in metal–organic frameworks and their derivatives for diverse electrocatalytic applications – Cited by 150, Year: 2021 πŸ”‹
  • Chitosan immobilization on bio-MOF nanostructures: a biocompatible pH-responsive nanocarrier for doxorubicin release on MCF-7 cell lines of human breast cancer – Cited by 150, Year: 2018 πŸŽ—οΈ
  • Synthesis of a nanostructured pillar MOF with high adsorption capacity towards antibiotics pollutants from aqueous solution – Cited by 149, Year: 2019 πŸ’§
  • Metal–organic frameworks and derived materials as photocatalysts for water splitting and carbon dioxide reduction – Cited by 144, Year: 2022 🌍
  • PMo12@ UiO-67 nanocomposite as a novel non-leaching catalyst with enhanced performance durability for sulfur removal from liquid fuels with exceptionally diluted oxidant – Cited by 135, Year: 2021 β›½
  • Trimetallic metal–organic frameworks and derived materials for environmental remediation and electrochemical energy storage and conversion – Cited by 128, Year: 2022 ♻️
  • Simultaneous Presence of Open Metal Sites and Amine Groups on a 3D Dy(III)-Metal–Organic Framework Catalyst for Mild and Solvent-Free Conversion of CO2 to … – Cited by 114, Year: 2021 πŸ› οΈ
  • A new route for synthesis of spherical NiO nanoparticles via emulsion nano-reactors with enhanced photocatalytic activity – Cited by 114, Year: 2015 βš™οΈ

Conclusion

Assist. Prof. Dr. Reza Abazari is a renowned inorganic chemist from Iran, born on July 6, 1984, in Tehran. He completed his Ph.D. in Inorganic Chemistry at Tarbiat Modares University in 2019, where his thesis was awarded as the top thesis of the university. Dr. Abazari has made significant contributions to research, publishing 48 ISI papers with an h-index of 47. His expertise lies in metal-organic frameworks, nanomaterials, catalysis, and drug delivery. He has been recognized as one of the top 2% of world scientists in 2021 and has collaborated on advanced research projects in photocatalysis and electrocatalysis.

Tayebe Bagheri Lotfabad | Chemical Engineering | Best Researcher Award

Dr. Tayebe Bagheri Lotfabad | Chemical Engineering | Best Researcher Award

Dr. Tayebe Bagheri Lotfabad, National Institute for Genetic Engineering and Biotechnology, Iran

Dr. Tayebe Bagheri Lotfabad is a distinguished academic in Chemical Engineering and Biotechnology. She earned her Ph.D. from Sharif University of Technology in 2009, following her M.Sc. in the same field in 2001. Her B.Sc. in Chemical Engineering-Petroleum Refining was completed at Tehran University in 1996. As a passionate researcher and educator, Dr. Lotfabad leads innovative projects focusing on environmental biotechnology and the removal of pollutants. She also teaches various graduate and undergraduate courses, inspiring future engineers. Her commitment to science and education continues to make a significant impact in her field. πŸŒ±πŸ”¬πŸ“š

 

Publication profile

Scopus

Academic Qualifications

Dr. Tayebe Bagheri Lotfabad is an accomplished academic in the field of Chemical Engineering and Biotechnology. She obtained her Ph.D. from Sharif University of Technology in 2009, following her M.Sc. in Chemical Engineering-Biotechnology from the same institution in 2001. Earlier, she completed her B.Sc. in Chemical Engineering-Petroleum Refining at Tehran University in 1996. With a strong focus on environmental biotechnology, Dr. Lotfabad is actively involved in innovative research projects aimed at addressing pressing environmental issues. Her dedication to teaching and research continues to inspire students and contribute to advancements in her field. πŸŒ±πŸ”¬πŸ“š

 

Research Activities

Dr. Tayebe Bagheri Lotfabad has led numerous impactful research projects in environmental biotechnology. Currently, she is the Principal Investigator (PI) for projects investigating vinasse color reduction through microbial methods and heavy metal threats in water sources. Her previous work includes studies on the effects of activated carbon on azo dye removal, enzymatic production of peptone, and the cytotoxic effects of microbial rhamnolipids on breast cancer cells. Additionally, she has contributed to soil biotabilization and the biodecolorization of synthetic dyes, showcasing her commitment to addressing environmental challenges. πŸŒπŸ”¬βœ¨

 

Publication Top Notes Β 

  • Biodecolourization of Azo Dye under Extreme Environmental Conditions via Klebsiella quasipneumoniae GT7: Mechanism and Efficiency – Karimzadeh, M., Lotfabad, T.B., Heydarinasab, A., Yaghmaei, S. (2022) πŸ“š
  • Biological activated carbon process for biotransformation of azo dye Carmoisine by Klebsiella spp. – Poorasadollah, D., Bagheri Lotfabad, T., Heydarinasab, A., Yaghmaei, S., Mohseni, F.A. (2022) – 4 citations 🌱
  • Azo dye removal via surfactant-assisted polyvinylidene fluoride membrane – Darbandi, F., Mousavi, A., Lotfabad, T.B., Heydarinasab, A., Yaghmaei, S. (2021) – 2 citations πŸ’§
  • Effects of cream containing rhamnolipid microbial surfactants from Pseudomonas aeruginosa MR01 on growth inhibition of Staphylococcus aureus – Bagheri, T., Rahimi, K., Lotfabad, T.B. (2020) 🦠
  • Cytotoxic effects of mono- and di-rhamnolipids from Pseudomonas aeruginosa MR01 on MCF-7 human breast cancer cells – Rahimi, K., Lotfabad, T.B., Jabeen, F., Mohammad Ganji, S. (2019) – 46 citations βš—οΈ
  • Microbial degradation of azo dye carmoisine in aqueous medium using Saccharomyces cerevisiae ATCC 9763 – Kiayi, Z., Lotfabad, T.B., Heidarinasab, A., Shahcheraghi, F. (2019) – 66 citations πŸ§ͺ
  • Correction to: Mitigation of the liquefaction potential of soil by Ca-carbonate precipitation induced by indigenous urease-producing Staphylococcus sp. IR-103 – Moosazadeh, R., Tabandeh, F., Kalantary, F., … Bagheri Lotfabad, T., Yazdian, F. (2019) – 1 citation πŸ“
  • Mitigation of the liquefaction potential of soil by Ca-carbonate precipitation induced by indigenous urease-producing Staphylococcus sp. IR-103 – Moosazadeh, R., Tabandeh, F., Kalantary, F., … Bagheri Lotfabad, T., Yazdian, F. (2019) – 10 citations πŸ—οΈ
  • Assessment of aqueous extract of Gypsophila aretioides for inhibitory effects on calcium carbonate formation – Hajizadeh, A., Lotfabad, T.B., Bahmaei, M. (2019) – 10 citations 🌿
  • Integrated system of multiple batches to evaluate the continuous performance of microbial cells in decolourization processes – Vatandoostarani, S., Lotfabad, T.B., Heidarinasab, A., Ebadipour, N., Yaghmaei, S. (2018) – 5 citations πŸ”„

Assunta Andreozzi | Bio Heat Transfer | Women Researcher Award

Prof. Assunta Andreozzi | Bio Heat Transfer | Women Researcher Award

Prof. Assunta Andreozzi, UniversitΓ  di Napoli Federico II, Italy

 

Prof. Assunta Andreozzi, born on May 12, 1972, in Aversa (CE), is a distinguished aerospace engineer. She graduated with honors in Aerospace Engineering from the University of Campania β€œLuigi Vanvitelli” in 1998 and obtained her PhD in Aerospace Sciences in 2001. With over 250 publications and an h-index of 21, her research spans heat transmission, solar energy systems, and thermo-fluid dynamics, significantly impacting engineering fields. Currently, she teaches at the University of Naples Federico II and supervises numerous theses, shaping the next generation of engineers. Prof. Andreozzi’s contributions have garnered recognition and respect in academia. πŸ“šπŸ”¬βœˆοΈ

 

Publication profile

Scopus

Orcid

Academic Career 🌟

Prof. Assunta Andreozzi began her academic journey by winning admission to the PhD course in Science and Aerospace Technologies at the Second University of Naples in 1999. In 2001, she collaborated with Prof. Yogesh Jaluria at Rutgers University on thermofluiddynamic analysis. She received a research grant at the Department of Aerospace Engineering, focusing on energy-efficient structural optimization methodologies. After earning her PhD in Aerospace Sciences in 2001, she became a university researcher at the University of Naples Federico II in 2002 and was confirmed in her role in 2005, contributing significantly to industrial technical physics. πŸŽ“βœˆοΈπŸ“š

 

University Teaching Activity πŸ“šπŸ‘©β€πŸ«

Prof. Assunta Andreozzi has significantly contributed to the education of Bachelor’s and Master’s students at the University of Naples Federico II, teaching various engineering disciplines, including Construction, Electrical, Mechanical, and Environmental Engineering. Currently, she is involved in the Mechanical Engineering degree program, focusing on Technical Physics, Heat Transmission, Environmental Control, and Computational Thermofluid Dynamics. Since 2000, she has been responsible for multiple university courses annually, overseeing examination commissions and supervising numerous theses on energy efficiency, heat transfer, and fire dynamics. Her dedication has enriched the academic experience for aspiring engineers. πŸ”§πŸŒβœ¨

 

Research Activities πŸ”¬πŸ“Š

Prof. Assunta Andreozzi’s research portfolio includes over 250 publications, with 123 indexed in the Scopus database, accumulating 1,345 citations and an h-index of 21 as of March 16, 2024. Her research spans numerical, analytical, and experimental investigations, focusing on key areas such as heat transmission applications, solar energy system design, thermo-fluid dynamics in aircraft, and fire dynamics characterization. Additional topics include bioheat transfer and sloshing effects. Funding for her research has come from the European Community, the Ministry of University and Scientific Research, and private industry partnerships, highlighting her impactful contributions to engineering science. πŸŒβš™οΈπŸ”

 

Publication Top Notes

  • Procedures for Experimental Characterization of Thermal Properties in Li-Ion Battery Modules and Parameters Identification for Thermal Models (Fiorillo et al.)Β  2024 πŸ“„
  • Numerical evaluation of heat-triggered drug release via thermo-sensitive liposomes: A comparison between image-based vascularized tumor and volume-averaged porous media models (Adabbo et al.) – 2 citations, 2024 πŸ’Š
  • A THERMAL ANALYSIS OF A FUNCTIONALLY-GRADED GYROID AS A HEAT SINK (Anacreonte et al.)Β  2024 πŸ”₯
  • LASER ABLATION FOR PROSTATE CANCER THERAPIES: MATHEMATICAL MODELING (Andreozzi et al.) 2024 πŸ”¬
  • Numerical analysis of the binder angle effect on convective heat transfer and pressure drop in drilled-hollow sphere architected foams (Iasiello et al.) – 0 citations, 2024 πŸ—οΈ
  • Microwave ablation modeling with AMICA antenna: Validation by means a numerical analysis (Cafarchio et al.) – 2 citations, 2023 πŸ“‘
  • Heat Transfer and Thermal Energy Storage Enhancement by Foams and Nanoparticles (Andreozzi et al.) – 3 citations, 2023 β˜€οΈ
  • A 3D numerical model of controlled drug delivery to solid tumor by means of mild microwave hyperthermia-activated thermo-sensitive liposomes (Adabbo et al.) – 8 citations, 2023 πŸ’‰
  • Emprint Microwave Thermoablation System: Bridging Thermal Ablation Efficacy between Human Patients and Porcine Models through Mathematical Correlation (Cafarchio et al.) – 3 citations, 2023 πŸ–
  • Numerical Investigation on Natural Convection in Inclined Channels Partially Filled With Asymmetrically Heated Metal Foam (Andreozzi et al.) – 4 citations, 2023 πŸ“

 

 

Zhipeng Zhao | Engineering | Best Researcher Award

Assist Prof Dr. Zhipeng Zhao | Engineering | Best Researcher Award

Assistant Professor, Tongji University, China

Dr. Zhipeng Zhao, currently an Assistant Professor at Tongji University, showcases an impressive academic and research profile, making him a strong candidate for the Research for Best Researcher Award. With a Ph.D. in Civil Engineering and a GPA of 90.30, he has garnered several accolades, including recognition among the World’s Top 2% Scientists in 2024. His research interests focus on artificial intelligence in structural health monitoring and innovative anti-seismic systems, contributing significantly to advancements in civil engineering. He has published numerous peer-reviewed articles, demonstrating a commitment to advancing knowledge in his field. His collaborative work has resulted in impactful research, earning him prestigious fellowships and awards, such as the JSPS Foreign Research Fellow and Shanghai Leading Talents recognition. Dr. Zhao’s combination of research excellence, innovation, and leadership positions him as an exemplary figure in civil engineering, underscoring his suitability for this prestigious award.

Profile:

Education

Dr. Zhipeng Zhao earned his Ph.D. in Civil Engineering from Tongji University, Shanghai, China, in 2021, where he achieved an impressive GPA of 90.30/100. His academic journey began at the same institution, where he completed his Bachelor’s degree in Civil Engineering in 2017, graduating with a remarkable GPA of 93.00/100. During his doctoral studies, Dr. Zhao focused on advanced topics in structural health monitoring and vibration control, demonstrating a commitment to enhancing the resilience of civil engineering structures. His educational background has provided him with a solid foundation in both theoretical and practical aspects of civil engineering, equipping him with the skills necessary to tackle complex engineering challenges. Dr. Zhao’s strong academic performance and rigorous training reflect his dedication to excellence in the field, positioning him as a valuable contributor to research and innovation in civil engineering.

 

Research Skills

Dr. Zhipeng Zhao possesses exceptional research skills that significantly contribute to the advancement of civil engineering, particularly in artificial intelligence-based structural health monitoring and vibration control. His ability to develop innovative anti-seismic structural systems is demonstrated through numerous peer-reviewed publications, reflecting a strong command of both theoretical and practical applications. Dr. Zhao excels in employing cutting-edge methodologies for ground motion simulation, allowing for accurate predictions and enhanced structural safety. His collaborative work as a corresponding author on various high-impact journals showcases his capacity to lead multidisciplinary teams and drive impactful research initiatives. Additionally, his recognition as one of the world’s top 2% scientists and several prestigious awards underscore his commitment to excellence in research. Overall, Dr. Zhao’s research skills are characterized by a blend of creativity, technical proficiency, and a keen understanding of contemporary challenges in civil engineering, making him a leading candidate for the Research for Best Researcher Award.

 

Professional Experiences

Dr. Zhipeng Zhao, currently an Assistant Professor at Tongji University, has cultivated a distinguished career in civil engineering, particularly in structural health monitoring and vibration control. He has served as a JSPS Foreign Research Fellow at Tohoku University, Japan, where he engaged in advanced research from 2022 to 2023. Prior to this, he completed a postdoctoral fellowship at the Hong Kong Polytechnic University and City University of Hong Kong. Dr. Zhao’s academic journey began with a Bachelor’s and a Ph.D. in Civil Engineering from Tongji University, where he excelled in his studies. His remarkable contributions to the field are underscored by multiple honors, including recognition as one of the world’s top 2% scientists in 2024 and the prestigious Shanghai Leading Talents (Overseas) Young Talents award in 2022. With an extensive publication record, Dr. Zhao is a leader in innovative anti-seismic structural systems.

Award And Recognition

Dr. Zhipeng Zhao, an Assistant Professor at Tongji University, has garnered significant accolades for his groundbreaking research in civil engineering, particularly in artificial intelligence-based structural health monitoring and seismic resilience. Recognized among the world’s top 2% of scientists in 2024, he has received prestigious awards, including the Shanghai Leading Talents (Overseas) Young Talents in 2022 and the Tongji University’s top ten scientific achievements with transformative potential in 2023. His work has been frequently cited, earning him the Most Cited Articles recognition in Engineering Structures from 2018 to 2021. Notably, Dr. Zhao was honored with first and second prizes for outstanding papers at the National Structural Engineering Academic Conference in 2018 and 2023, respectively, further solidifying his reputation as a leading researcher in his field. His exceptional contributions demonstrate a commitment to advancing civil engineering and improving infrastructure resilience against natural disasters.

Conclusion

In summary, Dr. Zhipeng Zhao exemplifies excellence in civil engineering, particularly in the fields of artificial intelligence-based structural health monitoring and seismic control systems. His impressive academic background, highlighted by a Ph.D. from Tongji University, is complemented by numerous accolades, including recognition as one of the world’s top 2% scientists in 2024. Dr. Zhao’s innovative contributions, reflected in over 40 peer-reviewed publications, demonstrate his commitment to advancing structural resilience against seismic activities. His research not only addresses critical challenges in civil engineering but also significantly impacts the safety and sustainability of urban infrastructure. As an Assistant Professor at Tongji University and a recipient of multiple prestigious awards, Dr. Zhao’s ongoing research initiatives position him as a leader in the field. His dedication to enhancing structural engineering practices makes him a worthy candidate for the Research for Best Researcher Award.

Publication Top Notes

  • Seismic response mitigation of a wind turbine tower using a tuned parallel inerter mass system
    R. Zhang, Z. Zhao, K. Dai
    Engineering Structures, 180, 29-39, 221 citations, 2019
  • Damping enhancement principle of inerter system
    R. Zhang, Z. Zhao, C. Pan, K. Ikago, S. Xue
    Structural Control and Health Monitoring, 27(5), e2523, 147 citations, 2020
  • Seismic response mitigation of structures with a friction pendulum inerter system
    Z. Zhao, R. Zhang, Y. Jiang, C. Pan
    Engineering Structures, 193, 110-120, 125 citations, 2019
  • A tuned liquid inerter system for vibration control
    Z. Zhao, R. Zhang, Y. Jiang, C. Pan
    International Journal of Mechanical Sciences, 164, 105171, 108 citations, 2019
  • Optimal design based on analytical solution for storage tank with inerter isolation system
    Y. Jiang, Z. Zhao, R. Zhang, D. De Domenico, C. Pan
    Soil Dynamics and Earthquake Engineering, 129, 105924, 91 citations, 2020
  • Optimal design of an inerter isolation system considering the soil condition
    Z. Zhao, Q. Chen, R. Zhang, C. Pan, Y. Jiang
    Engineering Structures, 196, 109324, 76 citations, 2019
  • Energy dissipation mechanism of inerter systems
    Z. Zhao, Q. Chen, R. Zhang, C. Pan, Y. Jiang
    International Journal of Mechanical Sciences, 105845, 74 citations, 2020
  • Influence of mechanical layout of inerter systems on seismic mitigation of storage tanks
    R. Zhang, Z. Zhao, C. Pan
    Soil Dynamics and Earthquake Engineering, 114, 639-649, 70 citations, 2018
  • Impact of soil–structure interaction on structures with inerter system
    Q. Chen, Z. Zhao, R. Zhang, C. Pan
    Journal of Sound and Vibration, 433, 1-15, 65 citations, 2018
  • A particle inerter system for structural seismic response mitigation
    Z. Zhao, R. Zhang, Z. Lu
    Journal of the Franklin Institute, Engineering and Applied Mathematics, 356, 54 citations, 2019
  • Comfort based floor design employing tuned inerter mass system
    Q. Chen, Z. Zhao, Y. Xia, C. Pan, H. Luo, R. Zhang
    Journal of Sound and Vibration, 458, 143-157, 47 citations, 2019
  • Displacement mitigation–oriented design and mechanism for inerter-based isolation system
    Z. Zhao, R. Zhang, N.E. Wierschem, Y. Jiang, C. Pan
    Journal of Vibration and Control, 27(17-18), 1991-2003, 46 citations, 2021
  • Seismic performance upgrading of containment structures using a negative-stiffness amplification system
    Z. Zhao, Y. Wang, X. Hu, D. Weng
    Engineering Structures, 262, 114394, 42 citations, 2022
  • A negative stiffness inerter system (NSIS) for earthquake protection purposes
    Z. Zhao, Q. Chen, R. Zhang, Y. Jiang, C. Pan
    Smart Structures and Systems, 26(4), 481-493, 33 citations, 2020
  • Enhanced energy dissipation benefit of negative stiffness amplifying dampers
    Z. Zhao, Q. Chen, X. Hu, R. Zhang
    International Journal of Mechanical Sciences, 240, 107934, 32 citations, 2023
  • Input energy reduction principle of structures with generic tuned mass damper inerter
    Z. Zhao, R. Zhang, C. Pan, Q. Chen, Y. Jiang
    Structural Control and Health Monitoring, 28(1), e2644, 31 citations, 2021
  • Interaction of two adjacent structures coupled by inerter-based system considering soil conditions
    Z. Zhao, Q. Chen, R. Zhang, Y. Jiang, Y. Xia
    Journal of Earthquake Engineering, 26(6), 2867-2887, 28 citations, 2022
  • Seismic demand and capacity models, and fragility estimates for underground structures considering spatially varying soil properties
    Z. He, H. Xu, P. Gardoni, Y. Zhou, Y. Wang, Z. Zhao
    Tunnelling and Underground Space Technology, 119, 104231, 27 citations, 2022
  • Analytical optimization of the tuned viscous mass damper under impulsive excitations
    Z. Zhao, X. Hu, R. Zhang, Q. Chen
    International Journal of Mechanical Sciences, 228, 107472, 25 citations, 2022
  • Friction pendulum-strengthened tuned liquid damper (FPTLD) for earthquake resilience of isolated structures
    Z. Zhao, X. Hu, Q. Chen, Y. Wang, N. Hong, R. Zhang
    International Journal of Mechanical Sciences, 244, 108084, citations not specified.