Mr.Chunyuan Ping|Biopharmaceutics|Best Researcher Award

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Mr.ChunyuanPing|Biopharmaceutics|Best Researcher Award

Mr.Chunyuan Ping at Sichuan Toruism University,China

PROFILE  

 

Scopus

Early Academic Pursuits 📚

Chunyuan Ping’s academic journey began with a deep interest in the science of food processing and safety. After completing both Bachelor’s and Master’s degrees at the Henan Institute of Science and Technology, Ping honed a unique skill set in Agricultural Products Processing and Safety. This educational background offered a foundation in food science, which Chunyuan fortified with hands-on experience in food chemistry, sensory evaluation, and chemometrics. Through rigorous study and research, Ping developed expertise in critical methodologies like the Mantel test, statistical software such as Origin, SIMCA, and Design-Expert, and analysis tools including IBM SPSS, TBtools, and EndNote.

Professional Endeavors and Contributions 🔍🍲

Since 2022, Ping has been actively engaged in advanced research focusing on agricultural product processing, with a particular focus on volatile organic compounds (VOCs) and flavor chemistry. With a skillset in chemometric techniques, Ping has led several studies analyzing food products using High Sensitivity Gas Chromatography-Ion Mobility Spectrometry (HS-GC-IMS). In 2024, Ping published work in Food Chemistry: X, where the characteristic flavor quality of ceramic-pot sealed meat was evaluated post-reheating. This study utilized bionic sensory techniques combined with chemometrics to reveal the dynamic sensory attributes and chemical properties of this traditional culinary method, making substantial contributions to the field.

Ping’s expertise extends into multivariate statistics and sensory analysis, evidenced by research on Linjiangsi Broad Bean paste, where the effect of ripening time and fermentation environment on flavor profiles was examined. This project brought valuable insights into the traditional bean paste’s sensory characteristics and chemical profile. Another significant contribution was Ping’s study on high-temperature sterilization and pasteurization’s impact on volatile compounds in tomato stewed beef brisket, published in International Journal of Gastronomy and Food Science, advancing the understanding of processing techniques on flavor retention and modification.

Research Focus and Expertise 🎨🔬

Ping’s research interests lie in the interaction and degradation of volatile organic compounds within processed foods, specifically focusing on flavor profile preservation and enhancement. This focus has driven Chunyuan to conduct innovative studies on various traditional and modern processing techniques, using state-of-the-art tools like gas chromatography and multivariate analysis. Ping is particularly interested in how different sterilization methods, both thermal and nonthermal, influence flavor retention in complex dishes like lamp soup, with a master’s thesis dedicated to this topic.

Ping’s expertise in statistical and visual data representation has also significantly contributed to the ability to quickly produce high-quality figures and tables that support scientific claims and enhance research readability. This skill has proven instrumental in rapidly publishing in open-access (OA) journals, where effective data visualization is critical to reaching a broader scientific audience.

Accolades and Recognition 🌟🏅

Though still early in Ping’s career, the researcher’s work has already earned notable accolades in the field. Publications in high-impact journals, such as Food Chemistry: X and International Journal of Gastronomy and Food Science, showcase Ping’s scientific contributions and recognition among the academic community. These publications highlight Ping’s capability to independently conduct rigorous research and contribute significantly to food science literature. Additionally, the collaborative works listed, where Ping is often a co-author or a principal investigator, underscore Ping’s skill in teamwork and scientific communication, further establishing Ping’s reputation in agricultural and food chemistry research.

Impact and Influence 🌐📊

Ping’s research in food processing and safety has both immediate and far-reaching implications. By focusing on the preservation of flavor in prepared foods, Ping’s studies offer practical applications in the food industry, where maintaining flavor quality is paramount. The analyses conducted by Ping help streamline food processing techniques, making it possible to retain natural flavors without sacrificing food safety. These advancements contribute to the field by offering more sustainable and efficient methods, which benefit both industry professionals and consumers. Furthermore, the studies provide a reference point for future food safety research, potentially influencing policy in food processing standards.

Legacy and Future Contributions 🚀📈

Chunyuan Ping’s journey in the field of food science and safety is only beginning. Driven by a passion for exploring the complex interactions of VOCs and a keen interest in advancing food chemistry, Ping aspires to pursue a Ph.D. to gain more specialized knowledge and refine research methodologies. With a clear direction and an established foundation, Ping’s future work aims to provide actionable insights into the degradation and preservation of volatile compounds in processed foods. By continuing to publish and contribute to scientific literature, Ping is poised to become an influential figure in food science, especially in the field of flavor chemistry.

Through this ongoing research, Ping hopes to make lasting contributions that will not only advance scientific knowledge but also create a legacy of innovation within food chemistry and agricultural product processing. By enhancing methods of flavor preservation and quality control, Ping’s work could impact industry standards and contribute to healthier, better-tasting food products worldwide.

🎓Publication 

Evaluating the influence of high-temperature sterilization and pasteurization on volatile organic compounds in tomato stewed beef brisket: An analysis using gas chromatography-ion mobility spectrometry and multivariate statistical visualization

  • Authors   :Bi, J., Ping, C., Chen, Z., Zhang, Y., He, H.
  • Journal    :International Journal of Gastronomy and Food Science
  • Year         :2024

Comparative study of volatile flavor compounds in green onion (Allium fistulosum L.) processed with different cooking methods

  • Authors   : Bi, J., Li, B., Chen, Z., Zhang, Y., Zhang, L.
  • Journal    :International Journal of Gastronomy and Food Science
  • Year         :2024

Mining of kokumi peptides in chicken broth with peptidomics

  • Authors   :Li, Y., Bi, J., Lin, Z., Ping, C., Chen, Z.
  • Journal    :International Journal of Gastronomy and Food Science
  • Year         :2023

Analysis of the effect of steaming times on lipid composition of pork belly based on lipidomics technology

  • Authors   :Bi, J., Li, Y., Yang, Z., Ping, C., Chen, Z.
  • Journal    :Journal of Food Composition and Analysis
  • Year         :2023

Effects of different cooking methods on volatile flavor compounds in garlic

  • Authors   :Bi, J., Yang, Z., Li, Y., Chen, Z., Li, C.
  • Journal    :International Journal of Gastronomy and Food Science
  • Year         :2023

Dr.Long Pang |Oncology Pharmaceuticals| Best Researcher Award-1332

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Dr.Long Pang|Oncology Pharmaceuticals |Best Researcher Award|

Dr.Long Pang at Xi’an Medical University, China

PROFILE  

scopus

Early Academic Pursuits 📚

Long Pang was born in Gansu, China, where he developed an early passion for science and innovation. His academic journey began with a focus on veterinary science, where he pursued a Master of Science (M.S.) degree at Northwest Agricultural and Forestry University in Yangling, Shaanxi, China. Completing his M.S. in July 2012, Pang demonstrated an exceptional commitment to his studies and research in veterinary science, laying the groundwork for his future endeavors in animal biotechnology. In August 2012, he advanced his academic career by enrolling in a Ph.D. program at the same university. During his Ph.D. studies, he specialized in Animal Biotechnology, a field that encompasses the use of biotechnological tools for the improvement of animal health and productivity. He completed his Ph.D. in July 2016, marking the beginning of a promising career in biomedical research.

Professional Endeavors 🏢

After earning his Ph.D., Long Pang joined Xi’an Medical University as an Associate Professor in the School of Basic Medical Science. His professional career is distinguished by his innovative research in the areas of microfluidics and single-cell analysis. At Xi’an Medical University, Pang quickly established himself as a leading researcher, focusing on the development of microfluidic chips and their applications in single-cell analysis and organ-on-a-chip technology. His work has been instrumental in advancing the understanding of cellular mechanics and tumor microenvironments, contributing significantly to the fields of biomedical engineering and cancer research.

Contributions and Research Focus 🔬

Long Pang’s research primarily revolves around microfluidics-based single-cell analysis and organ-on-a-chip technologies. His work has led to the development of innovative microfluidic devices that allow for the manipulation and analysis of single cells in a highly controlled environment. These devices have broad applications in cancer research, particularly in studying tumor microenvironments and the behavior of cancer stem cells. One of his significant contributions includes the development of a microfluidic chip for glioma stem cell sorting and single-cell-derived tumor sphere assays. This research has provided valuable insights into the formation of tumor spheres and the role of the tumor microenvironment in cancer progression.

Pang has also been involved in projects aimed at integrating microfluidic platforms with other technologies to enhance the precision and efficiency of single-cell analysis. His research has been supported by several prestigious grants, including those from the National Science Foundation of China and the Fundamental Research Foundation of Xi’an Medical University. Notably, he has led projects such as the study of heterotypic single-cell-derived tumor-sphere formation using an integrated microfluidics platform, which has garnered significant attention and funding.

Accolades and Recognition 🏆

Long Pang’s contributions to the field of biomedical research have been widely recognized. His work has resulted in over 21 publications in high-impact journals, including TRAC-Trends in Analytical Chemistry, Analytical Chemistry, and Sensors & Actuators B: Chemical. He has also authored a chapter in the Handbook of Single-Cell Technologies, published by Springer, highlighting his expertise in digital microfluidics for single-cell manipulation and analysis. In addition to his publications, Pang has been granted two Chinese patents related to his innovations in microfluidic technology, further establishing his reputation as a leading researcher in his field.

Pang’s achievements have also been acknowledged through various editorial appointments. He has served as a Youth Editorial Board Member of Glioma and the E-Journal of Translational Medicine, where he has contributed to the advancement of research dissemination and knowledge sharing in the scientific community. His contributions to the academic community extend beyond research, as he is an active member of several professional organizations, including the Shaanxi Pharmacology Association, the Chinese Society of Micro-Nano Technology (CSMNT), and the Chinese Chemistry Society (CCS).

Impact and Influence 🌍

The impact of Long Pang’s research extends beyond academia. His work on microfluidic devices has the potential to revolutionize the way single-cell analysis is conducted, offering new tools for researchers and clinicians in the diagnosis and treatment of diseases, particularly cancer. His contributions to the development of organ-on-a-chip technology are also significant, providing a platform for more accurate and efficient drug testing, which could lead to more effective treatments for various diseases.

Pang’s research has influenced a new generation of scientists and engineers, inspiring them to explore the possibilities of microfluidics and its applications in biomedical research. His collaborations with other leading researchers and institutions, both in China and internationally, have further expanded the reach of his work, fostering innovation and knowledge exchange in the global scientific community.

Legacy and Future Contributions 🚀

Long Pang’s legacy in the field of biomedical research is characterized by his innovative approach to solving complex problems in cell biology and medicine. His contributions to the development of microfluidic technology and single-cell analysis tools have set new standards in the field, paving the way for future research and innovation. As he continues his work at Xi’an Medical University, Pang remains committed to advancing the frontiers of biomedical engineering, with a focus on developing new technologies that can improve human health and well-being.

Looking to the future, Long Pang’s ongoing research projects, such as the construction of a 3D microenvironment for single-cell level tumor cells, promise to yield further breakthroughs in our understanding of cancer and other diseases. His work is likely to continue to influence the field for years to come, as he mentors the next generation of researchers and contributes to the global effort to improve healthcare through technological innovation.

🎓Publication 

Tumor microenvironment-derived exosomes-assisted single-cell-derived tumor-sphere formation and drug-resistance by a microfluidic system

Construction of multiple concentration gradients for single-cell level drug screening

Droplets microfluidics platform—A tool for single cell research

Microfluidics-Based Single-Cell Research for Intercellular Interaction

Digital Microfluidics for Single Cell Manipulation and Analysis

  • Authors   :Pang, L., Ding, J., Fan, S.-K.
  • Journal    :Handbook of Single-Cell Technologies
  • Year         :2021

Prof. Lei Ren |Drug Delivery Systems| Best Researcher Award-1331

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Prof. Lei Ren|Drug Delivery Systems |Best Researcher Award|

Prof. Lei Ren at mus alparslan university, Turkeys

PROFILE  

Orcid 

Early Academic Pursuits 📚

Lei Ren’s academic journey began in the vibrant city of Tianjin, where she pursued her Bachelor of Science in Material Science & Engineering at Tianjin University, graduating in 1990. This foundational period was marked by her strong dedication to understanding the principles of material science, a field that would later shape her illustrious career. Tianjin University’s rigorous curriculum provided Ren with a solid grounding in the fundamentals of material science, equipping her with the skills and knowledge to explore its applications in various domains.

Ren’s academic curiosity led her to pursue further education at Peking Union Medical College, one of China’s most prestigious institutions. In 1997, she earned her Master of Science in Biomedical Engineering, a field that bridged her interests in material science and its applications in medicine. This interdisciplinary approach was a hallmark of Ren’s early academic endeavors, reflecting her passion for integrating diverse fields of study to address complex scientific challenges.

Her pursuit of knowledge did not stop there. Ren continued her academic journey in Japan, where she completed her Ph.D. in Material Science at Okayama University in 2001. This period was crucial in shaping her research trajectory, as she delved into advanced materials and their potential biomedical applications. Her time in Japan also exposed her to a new scientific culture, broadening her perspective and fostering a global approach to research that would later define her career.

Professional Endeavors 🌟

Upon completing her doctoral studies, Ren embarked on a career that seamlessly blended research and academia. Her first professional role was as a Research Associate at the Institute of Biomedical Engineering, Chinese Academy of Medical Sciences, where she worked from 1990 to 1997. During this time, Ren honed her research skills, contributing to various projects that explored the interface between material science and biomedical engineering.

In 2001, Ren transitioned to a global stage, joining the Singapore-MIT Alliance at the National University of Singapore as a Research Fellow. This opportunity allowed her to collaborate with leading scientists from around the world, further enhancing her research capabilities and expanding her professional network. Her work during this period focused on cutting-edge biomedical engineering projects, laying the groundwork for her future contributions to the field.

In 2002, Ren returned to China to join the Research Center of Biomedical Engineering at the College of Medicine, Xiamen University, as an Associate Professor. Over the next five years, she played a pivotal role in advancing the center’s research agenda, mentoring students, and publishing influential papers. Her dedication and expertise earned her a promotion to full Professor in 2007, a position she holds to this day at the Department of Biomaterials, College of Materials, Xiamen University.

Contributions and Research Focus 🧬

Ren’s research has primarily focused on the development and application of biomaterials, particularly in the context of biomedical engineering. Her work has explored the synthesis and characterization of novel materials designed to interact with biological systems, with the goal of improving medical devices, implants, and tissue engineering applications.

One of her significant contributions to the field has been her research on biocompatible materials that can be used in medical implants. Ren’s work has helped advance the understanding of how materials interact with the human body, leading to the development of safer and more effective implants that reduce the risk of rejection and improve patient outcomes. Her research has also explored the use of biomaterials in tissue engineering, where she has contributed to the development of scaffolds that support the growth and regeneration of tissues.

In addition to her work on biomaterials, Ren has also been involved in interdisciplinary projects that integrate material science with other fields, such as nanotechnology and regenerative medicine. Her ability to bridge these diverse areas of study has positioned her as a leader in the field of biomedical engineering, with her work having a profound impact on both academic research and practical medical applications.

Accolades and Recognition 🏅

Throughout her career, Lei Ren has received numerous accolades in recognition of her contributions to the field of biomedical engineering. Her research has been widely published in leading scientific journals, earning her a reputation as a highly respected scholar in her field. Her work has also been recognized by various professional organizations, both in China and internationally, highlighting her status as a pioneering figure in the field of biomaterials.

Ren has been invited to speak at numerous international conferences, where she has shared her insights on the latest developments in biomaterials and biomedical engineering. These speaking engagements have not only showcased her research but also facilitated the exchange of ideas with other leading scientists, furthering the advancement of the field.

Impact and Influence 🌍

Ren’s influence extends beyond her research and academic roles. As a professor at Xiamen University, she has mentored numerous students who have gone on to make their own contributions to the field of biomedical engineering. Her commitment to teaching and mentorship has helped shape the next generation of scientists, ensuring that her impact will be felt for years to come.

Moreover, Ren’s work has had a tangible impact on the medical field. The biomaterials she has developed have been used in various medical devices and implants, improving the quality of life for patients around the world. Her interdisciplinary approach to research has also inspired new collaborations between scientists from different fields, leading to innovative solutions to some of the most pressing challenges in medicine.

Legacy and Future Contributions 🔮

As Lei Ren continues her work at Xiamen University, her legacy as a pioneer in the field of biomaterials is already well established. Her contributions to the development of biocompatible materials and her interdisciplinary approach to research have left an indelible mark on the field of biomedical engineering. Moving forward, Ren is likely to continue pushing the boundaries of what is possible in her field, exploring new frontiers in material science and its applications in medicine.

🎓Publication 

Oral biomimetic virus vaccine hydrogel for robust abscopal antitumour efficacy

  • Authors   :Chufan Wang; Haobo Tang; yufei Duan; Qiang Zhang; Wenjun Shan; Xiumin Wang; Lei Ren
  • Journal    :Colloid and Interface Science
  • Year         :2024

Tumor‐Associated Myeloid Cells Selective Delivery of a Therapeutic Tumor Nano‐Vaccine for Overcoming Immune Barriers for Effective and Long‐Term Cancer Immunotherapy

  • Authors   :Chufan Wang; Jinglian Zhao; Yufei Duan; Liping Lin; Qiang Zhang; Haiping Zheng; Wenjun Shan; Xiumin Wang; Lei Ren
  • Journal    :Healthcare Materials
  • Year         :2024

Seamless Integration of Rapid Separation and Ultrasensitive Detection for Complex Biological Samples Using Multistage Annular Functionalized Carbon Nanotube Arrays

  • Authors   :Lihuang Li; Jialing Zhang; Zhengqi Jiao; Xi Zhou; Lei Ren; Miao Wang.
  • Journal    :Materials
  • Year         :2024

Generalized Multifunctional Coating Strategies Based on Polyphenol-Amine-Inspired Chemistry and Layer-by-Layer Deposition for Blood Contact Catheters

  • Authors   :Jiahao Du; Xiaoting Zhang; Wenlong Li; Miao Wang; Xi Zhou; Lei Ren
  • Journal    :Biomaterials Science & Engineering
  • Year         :2024

Driving modes and characteristics of biomedical micro-robots

  • Authors   :Engineered Regeneration
    .

  • Journal    :Libing Huang; Yueyuan Pan; Miao Wang; Lei Ren
  • Year         :2023

Prof. Fatma YURT|pharmaceuticals | Best Researcher Award

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Prof. Fatma YURT |pharmaceuticals|Best Researcher Award|

Prof. Fatma YURT atEge University,Turkey

PROFILE  

scopus

Orcid

Early Academic Pursuits 🎓

Prof. Dr. Fatma Yurt’s journey into the scientific world began at Ege University, one of Turkey’s leading institutions. She completed her undergraduate studies at the Faculty of Science in the Department of Chemistry between 1982 and 1987. Her passion for science and dedication to learning set the stage for her illustrious career in nuclear sciences. Following her bachelor’s degree, she pursued a doctorate at Ege University in the Institute of Nuclear Sciences, specializing in Nuclear Sciences. From 1991 to 1998, she immersed herself in the study of nuclear applications, gaining a deep understanding of the field’s complexities and potential. This period of intense academic focus and research laid a solid foundation for her future contributions to nuclear medicine, radiopharmacy, and related fields.

Professional Endeavors 💼

Prof. Dr. Fatma Yurt’s professional career is marked by her steady rise through the academic ranks at Ege University. She began her career as a Research Assistant in the Nuclear Applications Department of the Institute of Nuclear Sciences, where she served from 1994 to 1997. This role allowed her to engage in cutting-edge research and contribute to the development of nuclear sciences in Turkey.

In 1999, she was promoted to Assistant Professor, and later in the same year, she achieved the rank of Associate Professor. Her commitment to education and research was evident as she continued to mentor students and lead research projects in nuclear applications. By 2007, she had earned the title of Professor, solidifying her position as a leading expert in her field.

Prof. Dr. Yurt’s expertise is not limited to academia; she has also held significant administrative roles. Since 2016, she has served as the Director of the Institute of Nuclear Sciences at Ege University. In this capacity, she has been instrumental in shaping the direction of nuclear research and education in Turkey, overseeing various projects and initiatives that have expanded the institute’s influence both nationally and internationally.

Contributions and Research Focus 🔬

Prof. Dr. Fatma Yurt’s research spans several critical areas within nuclear sciences, with a particular emphasis on nuclear medicine, radiopharmacy, and pharmacology. Her work in these fields has been pivotal in advancing the understanding and application of nuclear techniques in medicine, particularly in diagnosing and treating various diseases.

Her research contributions include the development of novel radiopharmaceuticals, which are essential for diagnosing and treating conditions such as cancer. Prof. Dr. Yurt’s expertise in nuclear chemistry and physical chemistry has enabled her to explore the intricate processes involved in the synthesis and application of these compounds. She has also contributed significantly to the field of health sciences, particularly in the areas of internal medicine and pharmaceutical technology.

With a Scopus publication count of 123 and a Unisis publication count of 296, Prof. Dr. Yurt’s research output is impressive. Her work has been cited over 1,447 times on Scopus, reflecting the impact and relevance of her research. Her H-Index, a measure of both the productivity and citation impact of her publications, stands at 21 on Scopus, further underscoring her influence in the field.

Accolades and Recognition 🏆

Throughout her career, Prof. Dr. Fatma Yurt has received numerous accolades and recognition for her contributions to nuclear sciences and medicine. Her research has been widely acknowledged by her peers, and she has been invited to present her findings at various national and international conferences. Her role as the Director of the Institute of Nuclear Sciences is a testament to her leadership abilities and her dedication to advancing the field of nuclear applications.

Prof. Dr. Yurt’s work has not only advanced scientific understanding but has also had a tangible impact on healthcare. Her contributions to radiopharmacy have been particularly significant, with her research playing a crucial role in the development of new diagnostic and therapeutic methods. Her dedication to her field is further demonstrated by her ongoing involvement in academic mentorship, helping to train the next generation of scientists in nuclear sciences.

Impact and Influence 🌍

Prof. Dr. Yurt’s influence extends beyond her research and academic roles. As a leader in nuclear sciences, she has been instrumental in promoting the importance of nuclear applications in medicine and other fields. Her work has helped to bridge the gap between basic research and practical applications, ensuring that the benefits of nuclear science are realized in clinical settings.

Her leadership at the Institute of Nuclear Sciences has also been pivotal in shaping the research agenda in Turkey, encouraging interdisciplinary collaboration and fostering a culture of innovation. Under her guidance, the institute has strengthened its position as a center of excellence in nuclear research, attracting students and researchers from around the world.

Legacy and Future Contributions 🌟

Prof. Dr. Fatma Yurt’s legacy is one of dedication, innovation, and leadership. Her contributions to nuclear medicine, radiopharmacy, and related fields have had a lasting impact on both the scientific community and the broader healthcare sector. As she continues her work, her influence will undoubtedly grow, inspiring new research and leading to further advancements in nuclear applications.

🎓Publication 

An in vitro evaluation of Hypericum perforatum loaded-chitosan nanoparticle/agarose film as a Wound dressing

Unveiling combat strategies against Candida spp. biofilm structures: Demonstration of photodynamic inactivation with innovative phthalocyanine derivatives

Platinum (II) Schiff Base Complexes and their Effects on the Inhibition of Amyloid β1–42 Aggregation

In Vitro Assessment of 177Lu-Labeled Trastuzumab-Targeted Mesoporous Carbon@Silica Nanostructure for the Treatment of HER2-Positive Breast Cancer

  • Authors   :Tunçel, A., Maschauer, S., Prante, O., Yurt, F.
  • Journal    :Pharmaceuticals
  • Year         :2024

 

Ms. Faezeh Aghajannataj Ahangarkola|Drug Delivery Systems | Best Researcher Award

Published on by Top Pharmaceutical

Ms. Faezeh Aghajannataj Ahangarkola |Drug Delivery Systems|Best Researcher Award|

Ms. Faezeh Aghajannataj Ahangarkola at Babol Noshirvani University of Technology,Iran

PROFILE  

Google scholar

 

Early Academic Pursuits 🎓

Faezeh Aghajannataj began her academic journey with a strong foundation in pure chemistry, earning a Bachelor of Science degree from the University of Mazandaran (UMZ) in Babolsar, Iran, in September 2018. Her undergraduate studies focused on the synthesis of pharmaceutical heterocyclics, particularly through multi-component reactions. Under the guidance of Dr. Robabeh Baharfar, Faezeh’s final project received a stellar grade of 4.0/4.0, demonstrating her early aptitude for research and her keen interest in the intersection of chemistry and pharmaceuticals.

Building on her success at UMZ, Faezeh pursued a Master of Science degree in Biotechnology at the Babol Noshirvani University of Technology (BNUT), Babol, Iran. Her graduate research centered on the development of enteric hard capsules for targeting the small intestine, utilizing innovative materials like Pullulan and Eudragit L-100. This research culminated in a thesis titled “Enteric Hard Capsules for Targeting Small Intestine by Pullulan and Eudragit L-100: Processing, Characterization, and In-vitro Drug Release,” which was awarded a perfect grade of 4.0/4.0 (19/20), reflecting the high quality and significance of her work under the mentorship of Dr. Ghasem Najafpour.

Professional Endeavors 🏢

Faezeh’s professional career is marked by a strong focus on research and development in the pharmaceutical and biotechnology industries. During her time at Iran Gelatin Capsule in Tehran, she played a pivotal role as a member of the R&D team from February 2022 to May 2023. Her work primarily involved researching and formulating pullulan capsules at an industrial scale, a task that required both technical expertise and innovative thinking. Additionally, she contributed to the formulation and evaluation of controlled release systems designed to produce enteric-coated capsules without synthetic materials or external coatings, a project that aligns with the growing demand for more natural and sustainable pharmaceutical solutions.

Faezeh also gained significant experience as a teaching assistant during her academic career. She assisted in courses such as Organic Chemistry Laboratory and Physical Chemistry Laboratory at UMZ, and Advanced Engineering Mathematics at BNUT, showcasing her ability to convey complex scientific concepts to students. Her teaching roles not only enriched her understanding of the subjects but also allowed her to contribute to the academic growth of her peers.

Contributions and Research Focus 🔬

Faezeh’s research interests lie at the crossroads of biotechnology, pharmaceutical sciences, and chemistry. Her master’s thesis on enteric hard capsules represents a significant contribution to the field of drug delivery systems, particularly in the development of targeted delivery mechanisms for the small intestine. This work, which involved detailed processing, characterization, and in-vitro drug release studies, has the potential to impact the way oral medications are formulated and administered, particularly in terms of improving drug efficacy and patient outcomes.

Her research has been recognized through the publication of her work in reputable scientific journals. One notable publication is “Towards a Novel Pullulan and Pullulan-Enteric Hard Capsules: Study of Drug Release and Crucial Capsule Features,” co-authored with Dr. Gh. Najafpour and R. Ramezani. This paper, accessible , highlights the innovative approach Faezeh has taken in her research, contributing valuable knowledge to the field of drug delivery systems.

Accolades and Recognition 🏆

Throughout her academic and professional career, Faezeh has consistently achieved high marks and recognition for her work. Her thesis was awarded a perfect grade, reflecting the high esteem in which her research is held. Additionally, her academic achievements during her bachelor’s and master’s studies are underscored by her strong GPA, which stands at 3.6/4.0 (16.95/20) for her master’s degree, and her consistently high grades in her coursework.

Her work has also been recognized within the academic community through her roles as a teaching assistant, where she earned the trust of her professors to guide and mentor students in complex scientific subjects.

Impact and Influence 🌍

Faezeh’s research on drug delivery systems, particularly her focus on enteric capsules, has the potential to significantly impact the pharmaceutical industry. By developing more effective and targeted drug delivery mechanisms, her work could lead to improved patient outcomes, particularly for those with conditions that require precise delivery of medication to the small intestine.

Her influence extends beyond her research, as her roles as a teaching assistant and R&D member have allowed her to mentor and collaborate with others in the field, spreading her knowledge and fostering innovation in both academic and industrial settings.

Legacy and Future Contributions 🌟

Faezeh Aghajannataj is poised to make lasting contributions to the fields of biotechnology and pharmaceutical sciences. Her innovative approach to drug delivery systems and her commitment to research excellence set her apart as a leading figure in her field. As she continues her career, her work is likely to inspire future research and development in the industry, particularly in the creation of more sustainable and effective pharmaceutical solutions.

🎓Publication 

Ethanol fermentation in an immobilized cell reactor using Saccharomyces cerevisiae

  • Authors   :Ghasem Najafpour, Habibollah Younesi, Ku Syahidah Ku Ismail
  • Journal    :Bioresource technology
  • Year         :2024

Piperine—the bioactive compound of black pepper: from isolation to medicinal formulations

  • Authors   :Leila Gorgani, Maedeh Mohammadi, Ghasem D Najafpour, Maryam Nikzad
  • Journal    :Comprehensive reviews in food science and food safety
  • Year         :2017

High-rate anaerobic digestion of palm oil mill effluent in an upflow anaerobic sludge-fixed film bioreactor

  • Authors   :GD Najafpour, AAL Zinatizadeh, AR Mohamed, M Hasnain Isa, H Nasrollahzadeh
  • Journal    :Process Biochemistry
  • Year         :2006

Treatment of pulp and paper mill wastewater by polyacrylamide (PAM) in polymer induced flocculation

  • Authors   :SS Wong, TT Teng, AL Ahmad, A Zuhairi, G Najafpour
  • Journal    :Journal of hazardous materials
  • Year         :2006

Power generation from organic substrate in batch and continuous flow microbial fuel cell operations

  • Authors   :Mostafa Rahimnejad, Ali Asghar Ghoreyshi, Ghasem Najafpour, Tahereh Jafary
  • Journal    :Applied Energy
  • Year         :2011

Prof. Cedrick MUTOMBO SHAKALENGA |Medicinal Chemistry| Best Researcher Award

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Prof. Cedrick MUTOMBO SHAKALENGA,Medicinal Chemistry,Best Researcher Award

Prof. Cedrick MUTOMBO SHAKALENGA, at University of Lubumbashi,Democratic Republic Congo

PROFILE

Orcid

Scopus

Google scholar

📚Early Academic Pursuits :

Cedrick Mutombo Shakalenga was born on February 26, 1991, in Manono, a town located in the Democratic Republic of Congo. His academic journey began in Mukushi / Manono Primary School, where he obtained his Primary School Certificate in 2003. Cedrick then pursued secondary education at the Bunyinge / Manono Institute, earning a State Diploma in General Pedagogy in 2009. His passion for pharmaceutical sciences led him to enroll at the University of Lubumbashi, where he completed a Pharmacist Diploma with a specialization in Hospital & Community Pharmacy in 2016.

🏢Professional Endeavors :

Cedrick’s professional career is marked by significant milestones and diverse roles within the pharmaceutical field. His early work experience includes teaching at Maendeleo/Lusa Primary School in Manono from 2009 to 2010 and serving as a Pharmacist at the Tamtam Pharmacy in Lubumbashi during 2014-2015. His academic career took off when he joined the University of Lubumbashi’s Faculty of Pharmaceutical Sciences as a Teaching Assistant from 2018 to 2022.

In 2023, Cedrick was promoted to Associate Professor at the same institution, where he now lectures on Biophysics I and II and Traditional Medicine. Additionally, he has contributed significantly to the scientific community through his role as a Scientific Research Officer at the “Jardin d’Etude Pharmaceutiques” club.

🔬Contributions and Research Focus :

Cedrick’s research is centered on integrating traditional medicine into the official health system of DR Congo. His Ph.D. thesis, titled “Conditions for the Integration of Traditional Medicine into the Official Health System in DR Congo, Case of Lubumbashi city,” reflects his dedication to this cause. He has co-authored several influential publications that explore various aspects of traditional medicine, pharmacognosy, and public health. His research not only highlights the socio-economic importance of medicinal plants but also addresses public health challenges in DR Congo.

 

🏅Accolades and Recognition :

Cedrick’s dedication and contributions to the field of pharmaceutical sciences have been widely recognized. In 2023, he received the prestigious “Peter Hylands award” for his poster presentation at the 11th Annual Meeting of The Good Practice in Traditional Chinese Medicine Research Association (GP-TCM RA). His research on the authentication of Securidaca longepedunculata Fresen., a highly sought-after medicinal plant, earned him this accolade.

🌍Impact and Influence :

Cedrick’s work has had a profound impact on the field of traditional medicine in DR Congo. His efforts to integrate traditional practices into the formal health system have the potential to improve healthcare accessibility and affordability for many Congolese citizens. By advocating for the scientific validation and quality control of traditional medicines, Cedrick is helping to bridge the gap between traditional and modern medical practices.

🚀Legacy and Future Contributions :

Cedrick Mutombo Shakalenga’s legacy lies in his unwavering commitment to enhancing the pharmaceutical landscape in DR Congo. His pioneering research and advocacy for traditional medicine integration have set a foundation for future advancements in the field. As an Associate Professor, he continues to inspire and mentor the next generation of pharmaceutical scientists, ensuring that his impact will resonate for years to come.

📝Conclusion :

Cedrick Mutombo Shakalenga’s journey from a small town in Manono to becoming an influential figure in pharmaceutical sciences is a testament to his dedication, hard work, and visionary approach. His contributions to traditional medicine, his extensive research portfolio, and his role as an educator highlight his multifaceted impact on the scientific community and society at large. Cedrick’s ongoing efforts and future endeavors promise to further advance the integration of traditional and modern medicine, ultimately improving healthcare outcomes in DR Congo and beyond.

🎓Publication 

Quality control of herbal drugs and preparations: The methods of analysis, their relevance and applications

  • Authors   :N.W Muyumba, S.C Mutombo, H Sheridan, A Nachtergael, Duez P
  • Journal    :Talanta Open
  • Year         : 2021

Perceptions and use of traditional African medicine in Lubumbashi, Haut-Katanga province (DR Congo): A cross-sectional study

    • Authors :SC Mutombo, AS Bakari, NV Ntabaza, A Nachtergael, SJB Lumbu, P Duez, BJ Kahumba
    • Journal   :PLoS ONE
    • Year       : 2022

Knowledge, attitudes and practices among the population, towards COVID-19 in the Lubumbashi city (DR Congo): An online cross-sectional survey

  • Authors  :MH Manya, SC Mutombo, CV Bashige, Nzuzi MG, TA Kabamba, MA Mutombo, MC Kibwe, MO Moke, JC Nkwanga, NT Nsumbu, AS Bakari, BJ Kahumba, SJB Lumbu
  • Journal    :World Journal of Biology Pharmacy and Health Sciences
  • Year         :  2021

Knowledge, attitude, and practice towards hepatitis B and C viruses among the population of Lubumbashi, Democratic Republic of Congo

  • Authors  :TA Kabamba, MH Manya, SC Mutombo, BC Kasongo, CKC Kakisingi, KS Matanda, MA Mutombo, MC Mwamba, NA Ngulu, MB Kabamba, OA Longanga
  • Journal   :African Journal of Gastroenterology and Hepatology
  • Year        :   2023

 

Mineral elements analysis and total flavonoids content in the fresh leaves from two varieties of Hibiscus sabdariffa L. consumed as vegetable in Lubumbashi (DR Congo)

  • Authors  :Shakalenga Cedrick Mutombo, Mboni Henry Manya, Nkulu Salvator Nsenga, Mavungu Gaël Nzuzi, Mwenya Cynthia Kibwe, Mwinensenge James Maloba, Chiribagula Valentin Bashige, Amuri Salvius Bakari, Byanga Joh Kahumba, Badibanga Bualufu Victor Ndibualonji
  • Journal   :World Journal of Advanced Research and Reviews
  • Year        :   2021

Assoc Prof Dr. Djalila Boudemagh| Pharmaceutical Chemistry| Best Researcher Award-1220

Published on by Top Pharmaceutical

Assoc Prof Dr. Djalila Boudemagh,Pharmaceutical Chemistry ,Best Researcher Award

Assoc Prof Dr. Djalila Boudemagh, at Ferhat Abbas University Setif 1, Algeria

 Profile

Scopus

    

🎓Early Academic Pursuits :

Djalila Boudemagh was born on October 31, 1973, in Constantine, Algeria. Her academic journey began at the University of Mentouri Brothers Constantine 1, where she earned her Bachelor of Science (BSc) in Chemistry in 1994. She continued her studies at the same institution, receiving her Master of Science (MSc) in Material Chemistry in 2000. Her master’s thesis focused on the effect of temperature on aluminum hydroxide, magnesium hydrogen phosphate, and their mixtures. Djalila’s passion for chemistry led her to pursue a Ph.D. in material physics at Joseph Fourier University in Grenoble, France. She completed her dissertation on the synthesis and study of thermoelectric materials of the Mg2Si1-xSnx system, earning her doctorate in 2010.

🏢Professional Endeavors :

Djalila Boudemagh has dedicated over two decades to academia and research. She began her teaching career as a temporary teacher at the Chemistry Department of the University of Mentouri Brothers Constantine 1 in 1998 and later taught in the Medicine and Biology Departments until 2000. In November 2001, she joined the Department of Process Engineering at Ferhat Abbas University of Setif -1, Algeria, as an Assistant Professor. After twelve years of dedicated teaching and research, she was promoted to Associate Professor in July 2013.

In addition to her academic role, Djalila provides training and consulting services in the field of intellectual and industrial property. She has extensive experience in tutoring A-level students in various subjects, including biophysics, chemistry, the elaboration and characterization of nanoparticles, spectroscopic analysis of surfaces, and the physicochemical structure of biological macromolecules.

🔬Contributions and Research Focus :

Djalila’s research interests span a wide range of topics in chemistry and material science. Her work primarily focuses on the synthesis and application of materials and nanomaterials for health and environmental purposes, including adsorption and photocatalysis. She has made significant contributions to the field of biomaterials and composites, particularly in polymers and mineral fillers, and the extraction and isolation of bioactive molecules from plants. Her research also extends to pharmaceutical technology, water treatment, crystallization, and the development of thin films using PAPVD methods.

She has successfully supervised five Ph.D. students and twelve MSc students, guiding them through various projects related to her research interests. Djalila’s expertise in the development of nanoparticles and nanocomposites, as well as her proficiency in techniques such as sol-gel and hydrothermal methods, have established her as a prominent figure in her field.

🏅Accolades and Recognition :

In October 2019, Djalila received accreditation to direct research (HDR in Chemistry) from the Department of Chemistry at Ferhat Abbas University, Setif. This significant achievement highlights her expertise and leadership in the field of chemistry. Her research has been recognized and supported through various funded projects, including ongoing initiatives at Ferhat Abbas University Setif-1, focusing on the development of new biomaterials for tissue regeneration and environmental applications.

🌍Impact and Influence :

Djalila Boudemagh’s work has had a profound impact on both the academic and industrial sectors. Her consulting services in product development and intellectual property have benefited numerous companies, and her training programs have equipped professionals with essential skills in industrial and intellectual property. Her participation in various national and international exhibitions and fairs, such as the SIPSA FILAHA & AGROFOOD and the National Agriculture Exhibition “Mosta Expo,” showcases her commitment to sharing knowledge and fostering innovation.

🌟Legacy and Future Contributions :

Djalila Boudemagh’s legacy lies in her dedication to education, research, and the advancement of science. Her contributions to the synthesis and application of materials and nanomaterials have paved the way for future innovations in health and environmental technologies. As a member of the Mediterranean Network Act for Health and the CATI “Technology and Innovation Support Center” at Ferhat Abbas University Setif 1, she continues to collaborate with international experts and institutions, driving forward research and development in her field.

🎓Publication 

Quantification, phytochemical evaluation, and identification of pomegranate yellow peel constituents using LC-MS/MS, the effect of the solvent extract on the antioxidant, in vitro anti-inflammatory, and antibacterial activities

Elaboration of hydroxyapatite nanoparticles and chitosan/hydroxyapatite composites: a present status

Isolation, characterization, antioxidant activity, and protein-precipitating capacity of the hydrolyzable tannin punicalagin from pomegranate yellow peel (Punica granatum)

Crystal structure analysis of the Mg2Si1-xSn x system having potential thermoelectric properties at high temperature

  • Authors  :Boudemagh, D., Fruchart, D., Haettel, R., Toboła, J., Wolfers, P.z
  • Journal   :Solid State Phenomena
  • Year        :   2011