Xinyi Zhao | Biology and Life Sciences | Young Scientist Award

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Mr. Xinyi Zhao | Biology and Life Sciences | Young Scientist Award

Current PhD student, Technological University, Ireland

Zhao Xinyi is a PhD candidate in Food Science at Technological University of Dublin (TU Dublin), Ireland. With a background in Materials Science and Engineering from Zhengzhou University, China, Xinyi has cultivated a strong foundation in nanotechnology, biomedical research, and food safety. Throughout their academic career, they have focused on innovative detection methods for bacterial pathogens, with a particular emphasis on gold nanoparticles. Xinyi has actively contributed to various international conferences and collaborated on high-impact publications. Their work continues to push boundaries in both research and practical applications, making them a prominent figure in their field. Additionally, Xinyi has gained valuable work experience in industry, having held multiple roles at Zhengzhou Tianyi Co., Ltd, where they worked as a mold designer, sales manager, and translator. Fluent in Chinese and English, Xinyi is well-positioned for global scientific collaboration and advancement.

Profile

Google Scholar

Education

Xinyi Zhao holds a Bachelor’s degree in Materials Science and Engineering from Zhengzhou University, China, where they built a solid foundation in materials science, focusing on nanomaterials and polymer-based systems. They are currently pursuing a Doctor of Philosophy (PhD) in Food Science at Technological University of Dublin, Ireland, expected to complete in 2025. Their academic work bridges the fields of food science and nanotechnology, investigating innovative detection methods for pathogens and other contaminants. As part of their research, Xinyi has worked with advanced tools like UV-vis, atomic force microscopes, and electrochemical biosensors, alongside gaining expertise in computational tools such as MATLAB, C programming, and various data analysis software. Their educational journey has included a blend of hands-on lab work, theoretical learning, and academic collaboration, preparing them for impactful contributions in both academia and industry. Xinyi’s research focus lies in enhancing detection systems and applying nanotechnology in food safety and biomedical applications.

Experience

Xinyi Zhao has developed a diverse and multi-disciplinary professional background. As a PhD candidate at Technological University of Dublin, Xinyi serves as a Lab Demonstrator, where they assist in educating undergraduate students and providing guidance on complex lab experiments in food science and biotechnology. Additionally, Xinyi has gained significant industrial experience, working for six years at Zhengzhou Tianyi Co., Ltd in various roles, including mold designer, sales manager, and translator. These positions allowed Xinyi to develop a practical understanding of engineering processes and client interactions, while also contributing to the company’s growth and product development. Xinyi’s work across both academic and industrial sectors has provided a broad range of skills, from hands-on laboratory techniques to project management and team collaboration. This blend of experience in both research and industry equips Xinyi to solve real-world problems and bring scientific innovations into practical applications.

Research Focus

Xinyi Zhao’s current research focuses on developing novel detection technologies for bacterial pathogens using gold nanoparticles. This work has significant applications in food safety, where rapid and accurate pathogen detection is crucial. Xinyi’s research leverages cutting-edge nanomaterials to create highly sensitive and efficient biosensors, providing advancements in diagnostics. The use of gold nanoparticles is particularly exciting due to their unique properties, which allow them to interact with biological markers and offer real-time detection. Previous research by Xinyi at Zhengzhou University explored the aggregation behavior of conjugated polymers, which deepened their understanding of polymeric materials and their potential applications in biomedical devices. Additionally, Xinyi is exploring the synergistic effects of curcumin and piperine-loaded nanogels for targeted cancer treatment, demonstrating a strong commitment to both food safety and healthcare applications. Their interdisciplinary research exemplifies a holistic approach to solving pressing challenges in health and food industries.

Publication Top Notes

  • Enhanced Anticancer Response of Curcumin- and Piperine-Loaded Lignin-g-p (NIPAM-co-DMAEMA) Gold Nanogels against U-251 MG Glioblastoma Multiforme 🧬
  • A Stochastic Distribution System Planning Method Considering Regulation Services and Energy Storage Degradation 🔋
  • Design and Development of Magnetic Iron Core Gold Nanoparticle-Based Fluorescent Multiplex Assay to Detect Salmonella 🦠
  • Hydrogel on a Smart Nanomaterial Interface to Carry Therapeutics for Digitalized Glioma Treatment 💊
  • Limits of Detection of Mycotoxins by Laminar Flow Strips: A Review 📚
  • Review of Detection Limits for Various Techniques for Bacterial Detection in Food Samples 🥗
  • Limits of Detection Analysis of Advanced Technologies for Bacterial Detection in Food Samples: Review & Future Perspective 🔍
  • Synergistic Anticancer Response of Curcumin and Piperine Loaded Lignin-gp (NIPAM-co-DMAEMA) Gold Nanogels Against Glioblastoma Multiforme 🧪

 

 

Wijdan Al-Ahmadi | Biomedicine | Best Researcher Award

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Dr. Wijdan Al-Ahmadi | Biomedicine | Best Researcher Award

Associate scientest, King Faisal specialist hospital and research center, Saudi Arabia

Dr. Wijdan Al-Ahmadi is a seasoned researcher with over 20 years of experience in biomedicine, focusing on cancer biology, immunology, and disease mechanisms. Based in Riyadh, Saudi Arabia, she is a key member of the Molecular Biomedicine Research Department at King Faisal Specialist Hospital and Research Center. Her work spans diverse fields, including inflammatory diseases and cardiovascular research. Notably, in 2023, she contributed to a groundbreaking experiment aboard the International Space Station (ISS), highlighting her ability to conduct research in extreme environments. Dr. Al-Ahmadi has demonstrated leadership through her work as an educator, mentoring students at various academic levels. Her contributions continue to push the boundaries of biomedicine, paving the way for new therapeutic strategies and personalized medicine approaches.

Profile

Education

Dr. Wijdan Al-Ahmadi holds a Ph.D. in Bioscience from Cardiff University (2015–2019), where she focused on cancer and immunology research. She also earned a B.Sc. in Biochemistry from King Saud University (1994–1998). Her academic journey has equipped her with advanced expertise in molecular biology, cancer research, and biomedical sciences. Dr. Al-Ahmadi’s educational foundation is complemented by her extensive hands-on experience in laboratory settings, which has enabled her to contribute to numerous pioneering studies. Through her formal education and continuous professional development, she has maintained a passion for unraveling disease mechanisms and enhancing health outcomes through scientific innovation.

Experience

Dr. Al-Ahmadi’s career spans over two decades in the field of biomedicine. She currently serves as an Associate Scientist at King Faisal Specialist Hospital and Research Center in Riyadh, where she leads advanced research projects in cancer biology and immunology. Prior to this, she was a Post-doctoral Fellow (2020–2023), focusing on cancer and inflammatory disease mechanisms. Dr. Al-Ahmadi’s experience includes roles as a Research Assistant (2007–2015) and a Research Technician (2002–2006), where she was deeply involved in cancer research and molecular biology assays. She has also mentored Ph.D., master’s, and undergraduate students throughout her career. Her research has had significant impact both in clinical settings and in experimental fields, including innovative studies aboard the ISS in 2023, demonstrating her versatility in different research environments.

Research Focus

Dr. Wijdan Al-Ahmadi’s research is focused on understanding the underlying mechanisms of diseases, particularly cancer, inflammatory disorders, and cardiovascular diseases. She is dedicated to uncovering how specific genetic mutations and signaling pathways contribute to disease progression, aiming to identify novel therapeutic targets for better patient outcomes. Dr. Al-Ahmadi’s work in space science is also notable, having contributed to microgravity research aboard the ISS, exploring how human physiology and disease processes respond in space. Her findings not only have applications for space health but also provide critical insights that can benefit human health on Earth. She is driven by the potential of personalized medicine and therapeutic interventions that address the root causes of disease.

Publication Top Notes

  1. Pro-atherogenic actions of signal transducer and activator of transcription 1 serine 727 phosphorylation in LDL receptor deficient mice via modulation of plaque inflammation. 🧬🔬
  2. Protective effects of a unique combination of nutritionally active ingredients on risk factors and gene expression associated with atherosclerosis in C57BL/6J mice fed a high-fat diet. 🥗🧪
  3. Posttranscriptional control of the chemokine receptor CXCR4 expression in cancer cells. 🧑‍🔬🦠
  4. miR-29a inhibition normalizes HuR over-expression and aberrant AU-rich mRNA stability in invasive cancer. 🧬💡
  5. The RNA-binding zinc-finger protein tristetraprolin regulates AU-rich mRNAs involved in breast cancer-related processes. 🔬💥
  6. Alternative polyadenylation variants of the RNA binding protein, HuR: abundance, role of AU-rich elements and auto-Regulation. 🧬📊
  7. Cloning-free regulated monitoring of reporter and gene expression. 🧬🧑‍🔬
  8. RNase L downmodulation of the RNA-binding protein, HuR, and cellular growth. 🔬🧑‍🔬
  9. Bioinformatics and experimental derivation of an efficient hybrid 3′ untranslated region and use in expression active linear DNA with minimum poly(A) region. 💻🧬
  10. Expedient liquid chromatographic method with fluorescence detection for montelukast sodium in micro-samples of plasma. 🧪💉

 

 

 

Gokhan Basar | Mechanical Engineering | Best Researcher Award

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Dr. Gokhan Basar | Mechanical Engineering | Best Researcher Award

Research Assistant at Industrial Engineering, Turkey

Dr. Gokhan Basar is a dedicated researcher and assistant professor in the Department of Industrial Engineering at Osmaniye Korkut Ata University, Turkey. Born on January 1, 1989, in Tarsus, Turkey, he has developed a strong academic and professional foundation in mechanical engineering. Dr. Basar holds a PhD in Mechanical Engineering, specializing in the production of reinforced aluminum matrix composites. He has contributed significantly to the field through his research on friction stir welding and optimization techniques, establishing himself as an expert in machinability and mechanical properties of materials. His commitment to advancing engineering knowledge is evident in his numerous publications and active participation in national and international conferences.

Profile:

Google Scholar

Strengths for the Award:

  1. Diverse Research Areas: Dr. Basar has an extensive range of research interests including Friction Stir Welding, machinability of materials, and optimization techniques. This diversity reflects a strong capability to contribute to various fields within engineering.
  2. Academic Qualifications: With a PhD in Mechanical Engineering and multiple relevant master’s and bachelor’s degrees, Dr. Basar possesses a solid educational foundation that underpins his research.
  3. Significant Contributions: His published works, including book chapters and numerous journal articles, indicate active engagement in research. The citation metrics (42 citations and an H-index of 4) highlight that his work is recognized and valued by the academic community.
  4. Research Methodology Expertise: Dr. Basar’s proficiency in experimental design and optimization methods, particularly the Taguchi Method and Grey Relational Analysis, showcases his ability to apply advanced statistical techniques to real-world engineering problems.
  5. Active Conference Participation: Regular attendance at national and international conferences demonstrates a commitment to staying updated with the latest developments in his field and sharing his findings with the broader scientific community.
  6. Journal Refereeing: Serving as a referee for multiple reputable journals illustrates his involvement in the academic process and recognition by peers.

Areas for Improvement:

  1. Increased Collaboration: While Dr. Basar has a solid publication record, collaboration with researchers from diverse fields could enhance the breadth and impact of his research.
  2. Enhancing Citation Impact: Although his citation metrics are commendable, focusing on publishing in high-impact journals could further increase his visibility and citation rate.
  3. Broader Public Engagement: Engaging with industry stakeholders and public forums could help translate his research findings into practical applications, increasing societal impact.
  4. Exploration of Emerging Technologies: Staying abreast of emerging technologies in materials science and mechanical engineering could provide new avenues for research and innovation.

Education:

Dr. Gokhan Basar’s educational journey began with a Bachelor’s degree in Mechanical Engineering, which laid the groundwork for his advanced studies. He earned his MSc in Mechanical Engineering from Iskenderun Technical University (2013-2016), where he focused on optimizing welding parameters in friction stir welding. His research culminated in a thesis that highlighted his proficiency in practical applications of engineering principles. Dr. Basar continued his academic pursuit at Osmaniye Korkut Ata University, where he completed his PhD in Mechanical Engineering (2017-2023). His doctoral research investigated the production of SiC and B4C particle-reinforced aluminum matrix composites through powder metallurgy, further showcasing his ability to innovate in materials engineering. Throughout his academic career, Dr. Basar has demonstrated a strong commitment to educational excellence and research development.

Experience:

Dr. Gokhan Basar has amassed extensive experience in academia, starting his career as a Research Assistant in the Department of Mechanical Engineering at Iskenderun Technical University from 2013 to 2016. His responsibilities included conducting research, assisting in teaching, and engaging in various engineering projects. In 2016, he transitioned to Osmaniye Korkut Ata University, where he currently serves as a Research Assistant in the Department of Industrial Engineering. In this role, Dr. Basar has focused on advancing knowledge in the fields of friction stir welding, materials machinability, and optimization methods. He has participated in numerous conferences, enhancing his professional network and contributing to the scientific community. His dedication to research and education has positioned him as a prominent figure in mechanical engineering, with a strong emphasis on innovative practices and experimental design.

Research Focus:

Dr. Gokhan Basar’s research focuses primarily on advanced welding techniques, particularly Friction Stir Welding (FSW), and the machinability and mechanical properties of materials. His expertise extends to optimization methods, including the Taguchi Method, Response Surface Methodology, and Grey Relational Analysis, enabling him to develop effective strategies for improving material performance and process efficiency. He is particularly interested in the production of composite materials, investigating the use of SiC and B4C particles in aluminum matrices to enhance their mechanical properties. His research also includes the design of experiments and multi-response optimization, providing insights into surface quality and operational parameters in various manufacturing processes. Dr. Basar’s commitment to innovation in mechanical engineering drives his work to address contemporary challenges and contribute to the evolution of engineering practices.

Publications Top Notes:

  1. Optimization of machining parameters in face milling using multi-objective Taguchi technique 📄
  2. Modeling and optimization of face milling process parameters for AISI 4140 steel 📄
  3. Determination of the optimum welding parameters for ultimate tensile strength and hardness in friction stir welding of Cu/Al plates using Taguchi method 📄
  4. Optimization of cutting parameters in hole machining process by using multi-objective Taguchi approach 📄
  5. Modeling and optimization for fly ash reinforced bronze-based composite materials using multi-objective Taguchi technique and regression analysis 📄
  6. Multi-response optimization in drilling of MWCNTs reinforced GFRP using grey relational analysis 📄
  7. Delik İşleme Prosesinde Kesme Parametrelerin Taguchi Metodu ve Regresyon Analiz Kullanılarak Modellenmesi ve Optimizasyonu 📄
  8. Kolemanit ve Boraks Takviyeli Fren Balatalarının Sürtünme Performansı 📄
  9. Sıcak presleme yöntemi ile üretilmiş uçucu kül takviyeli bronz matrisli fren balata malzemelerinin sürtünme-aşınma özellikleri üzerine kolemanit miktarının etkisi 📄
  10. Mathematical Modeling and Optimization of Milling Parameters in AA 5083 Aluminum Alloy 📄
  11. 316L Paslanmaz Çeliklerin Frezeleme işlemindeki Yüzey Pürüzlülüğün ANFIS ile Modellenmesi 📄
  12. Bronz Esaslı Kompozit Sürtünme Malzemelerin Üç Nokta Eğme Mukavemetinin Taguchi Metodu ile Optimizasyonu 📄
  13. Statistical Investigation of the Effect of CO2 Laser Cutting Parameters on Kerf Width and Heat Affected Zone in Thermoplastic Materials 📄
  14. A new hybrid meta-heuristic optimization method for predicting UTS for FSW of Al/Cu dissimilar materials 📄
  15. Prediction of surface hardness in a burnishing process using Taguchi method, fuzzy logic model and regression analysis 📄
  16. Multi-objective optimization of cutting parameters for polyethylene thermoplastic material by integrating data envelopment analysis and SWARA-based CoCoSo approach 📄
  17. Kompozit Malzemelerin Delme İşleminde İtme Kuvvetinin Taguchi Metodu ile Optimizasyonu ve Regresyon Analizi ile Tahmini 📄
  18. Tepki yüzeyi metodolojisi kullanılarak nanokompozitin delinmesinde oluşan itme kuvvetinin modellenmesi ve analizi 📄
  19. Analysis and Optimization of Ball Burnishing Process Parameters of AA 7075 Aluminium Alloy with Taguchi Method 📄
  20. The Effect of Colemanite and Borax Reinforced to the Friction Performance of Automotive Brake Linings 📄

Conclusion:

Dr. Gokhan Basar exemplifies the qualities of a strong candidate for the Research for Best Researcher Award. His extensive research experience, educational background, and contributions to the field of engineering position him as a noteworthy researcher. By focusing on collaboration, increasing his publication impact, and engaging with the broader community, he could further enhance his profile as a leading researcher. His commitment to advancing knowledge in his areas of expertise makes him a deserving candidate for this prestigious award.

Ziqiang Zheng | Microbiology | Best Researcher Award

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Mr. Ziqiang Zheng | Microbiology | Best Researcher Award

Full-time teacher at Wuhan Polytechnic University, China

Ziqiang Zheng is a dedicated full-time teacher at Wuhan Polytechnic University, specializing in microbiology, bioengineering, and biotechnology. With a rich academic background, he has contributed significantly to the understanding of bacterial resources and their applications in sustainable biotechnology. His work has led to groundbreaking discoveries, including the identification of novel bacterium strains with biopesticide potential. An active researcher, Ziqiang has published in esteemed journals like ISME Journal and PLoS Pathogens, reflecting his commitment to advancing microbial research. He also serves as a youth editor for multiple journals, emphasizing his role in nurturing the next generation of scientists. Through collaboration with distinguished international researchers, Ziqiang continues to push the boundaries of microbial science, making substantial contributions to both academia and industry.

Profile:

Scopus Profile

Strengths for the Award:

  1. Diverse Research Portfolio: Ziqiang Zheng has demonstrated expertise across multiple domains within microbiology and bioengineering. His research on nematicidal bacterial resources and the evolution of CRISPR-Cas systems showcases his ability to contribute significantly to foundational knowledge in these fields.
  2. Collaborative Network: Zheng’s collaborations with esteemed researchers both domestically and internationally highlight his ability to engage in productive scientific discourse and enrich his research through diverse perspectives.
  3. Publication Record: His contributions to high-impact journals such as ISME Journal and PLoS Pathogens reflect a strong commitment to disseminating research findings. This is crucial for advancing knowledge and fostering innovation in microbiology.
  4. Innovative Contributions: The discovery of a novel polyhydroxyalkanoate-producing bacterium indicates his focus on sustainable biotechnology solutions, which aligns with global needs for environmentally friendly alternatives.
  5. Professional Recognition: As a fellow of notable biotechnology societies, Zheng is recognized as a leader in his field, further underscoring his qualifications for the award.

Areas for Improvement:

  1. Publication Volume: While his citation index of 12 is commendable, increasing the volume of published work may enhance his visibility and impact within the research community.
  2. Patent Development: Although Zheng has a patent under process, actively pursuing more patents could further establish his innovative capabilities and practical contributions to the industry.
  3. Mentorship and Community Engagement: Expanding his role in mentoring students and junior researchers could strengthen his contributions to academic growth and community engagement within the scientific field.

Education:

Ziqiang Zheng earned his degree in Microbiology, followed by advanced studies in Bioengineering and Biotechnology. His academic journey began with a Bachelor’s degree in Microbiology from a renowned institution, where he developed a keen interest in the interactions between microbes and their environments. He then pursued a Master’s degree in Bioengineering, focusing on the application of microbial processes for sustainable solutions. To deepen his expertise, he completed a Ph.D. in Biotechnology, where he researched bacterial genomes and their potential for biotechnological applications. Throughout his education, Ziqiang participated in various research projects, gaining hands-on experience in microbial analysis and innovative methodologies. His strong academic foundation and continuous pursuit of knowledge have equipped him to lead research initiatives and contribute to the scientific community significantly.

Experience:

Ziqiang Zheng has over a decade of experience in teaching and research in the fields of microbiology and biotechnology. As a full-time teacher at Wuhan Polytechnic University, he is dedicated to educating the next generation of scientists, utilizing innovative teaching methods and cutting-edge research topics. His experience extends to leading multiple research projects, including ongoing studies related to bacterial resources and bioengineering applications. Ziqiang has also collaborated extensively with international experts, contributing to significant findings in microbial evolution and sustainable practices. His role as a youth editor for scientific journals further demonstrates his commitment to fostering academic excellence and supporting emerging researchers. Ziqiang’s dedication to both education and research has made him a prominent figure in the microbiology community, enabling him to influence both academic and practical advancements in the field.

Research Focus:

Ziqiang Zheng’s research focuses on several key areas within microbiology and biotechnology, particularly the exploration of bacterial resources, the evolution of microbial genomes, and the development of biopesticides and biomaterials. He is actively engaged in broadening the understanding of nematicidal bacteria and their ecological roles. His research has confirmed the selective inactivation of CRISPR-Cas systems in the Bacillus cereus group, shedding light on microbial adaptation mechanisms. Additionally, Ziqiang is dedicated to discovering new strains with potential industrial applications, such as the polyhydroxyalkanoate-producing bacterium Halomonas qinghailakensis. His work is crucial for developing sustainable solutions in agriculture and waste management, aligning with global needs for environmentally friendly practices. Through a combination of laboratory research and collaboration with international scientists, Ziqiang aims to advance the understanding of microbial functions and their applications in biotechnology.

Publication Top Notes:

  • Draft Genome Sequence of Bacillus wiedmannii Biovar thuringiensis ZZQ-138, Isolated from a Saline Lake
  • Draft Genome Sequence of Bacillus thuringiensis ZZQ-130 with Multiple Pesticidal Genes, Isolated from Caka Salt Lake, China
  • ImageGP 2 for Enhanced Data Visualization and Reproducible Analysis in Biomedical Research
  • The Microbiome Protocols eBook Initiative: Building a Bridge to Microbiome Research

Conclusion:

Ziqiang Zheng exhibits a strong combination of research expertise, innovative contributions, and collaborative spirit, making him a suitable candidate for the Best Researcher Award. His work not only advances academic knowledge but also addresses pressing environmental challenges through sustainable biotechnology. With minor enhancements in publication volume and mentorship, he could further solidify his impact in the field. Therefore, I strongly endorse his nomination for this prestigious award.

Ewa Chomać-Pierzecka | Social Sciences Award | Women Researcher Award Poland

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Prof Dr Ewa Chomać-Pierzecka |  Energy Award | Women Researcher Award

Prof Dr Ewa Chomać-Pierzecka, Academy Jacob of Paradies Gorzów Wlkp. Poland, Poland

Professor Ewa Chomać-Pierzecka, DSc, was born on October 20, 1973, and is a distinguished economist at the Jacob of Paradies Academy in Gorzów Wielkopolski, Poland 🌍. She specializes in economics and business within the social sciences field. Her research delves into the impact of management instruments on enterprise value creation, competitiveness, and innovation 🏢💡. Prof. Chomać-Pierzecka also explores modern business models and the risk of bankruptcy, energy sector issues, and investment challenges 🔍📈. Her contributions to academia are accessible via ORCID, ResearchGate, and SciProfiles 📚.

 

Publication Profile

Orcid

 

Research Focus

Professor Ewa Chomać-Pierzecka’s research is centered on economics and business within the social sciences 🌍. She investigates the measurement of management instruments’ impact on enterprise value creation and competitiveness 🏢💼. Her work includes analyzing investment challenges, the effects of current economic conditions on entrepreneurship, and the role of innovation in enterprise performance 💡📈. Additionally, Prof. Chomać-Pierzecka evaluates modern business models and assesses the risk of bankruptcy in contemporary enterprises, along with exploring energy sector issues ⚡📉. Her comprehensive research aims to enhance understanding and improve practices in these crucial economic areas.

Publication Top Notes

📘 “Domestic Tourism Preferences of Polish Tourist Services’ Market in Light of Contemporary Socio-economic Challenges” (2024) – Cited by 0

📰 “Challenges and Opportunities for the Development of Polish Enterprises in the Face of Crisis Threats” (2024) – Cited by 0

🏭 “Offshore Energy Development in Poland—Social and Economic Dimensions” (2024) – Cited by 0

📗 “Modele biznesowe w kształtowaniu wyników na działalności” (2023) – Cited by 0

💻 “PRACTICAL ASPECTS OF E-COMMERCE ON THE PHARMACY MARKET” (2023) – Cited by 0

📖 “The labour market in Poland and its impact on the economy in terms of COVID-19 and the war in Ukraine” (2023) – Cited by 0

📑 “ZARZĄDZANIE PRZEZ PRACĘ JAKO CZYNNIK MOTYWUJĄCY W ZAKŁADACH PENITENCJARNYCH” (2023) – Cited by 0

📃 “ZARZĄDZANIE RELACJAMI W SŁUŻBIE PENITENCJARNEJ I ICH WPŁYW NA RESOCJALIZACJE OSADZONYCH W ZAKŁADZIE KARNYM” (2023) – Cited by 0

🌿 “Energy Innovation for Individual Consumers in Poland—Analysis of Potential and Evaluation of Practical Applications in Selected Areas” (2023) – Cited by 0

🌍 “Pharmaceutical Companies in the Light of the Idea of Sustainable Development—An Analysis of Selected Aspects of Sustainable Management” (2023) – Cited by 0