Can Yang Zhang | Biotechnology | Best Researcher Award

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Assoc. Prof. Dr. Can Yang Zhang | Biotechnology | Best Researcher Award

Associate Professor, at Tsinghua University, China.

Dr. Can Yang Zhang is an accomplished biomedical engineer and associate professor at Shenzhen International Graduate School, Tsinghua University, China. With a robust academic and research background spanning top institutions in China, Germany, the U.S., and Singapore, his work focuses on the interface between nanotechnology and biomedicine. 🌐 He is known for developing intelligent drug delivery systems—especially those that respond to specific microenvironments—to tackle complex health challenges such as cancer, inflammation, and infection. 🧬 Dr. Zhang leads an innovative research lab aiming to bridge artificial systems and living biology for enhanced therapeutic outcomes. Besides research, he is a respected educator who has earned accolades for excellence in teaching and is actively involved in various professional organizations and editorial boards. 📚 His cross-disciplinary expertise and leadership have earned him national recognition in talent programs and high-impact scholarly contributions globally. 🌍

Professional Profile

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Google Scholar

🎓 Education 

Dr. Zhang’s academic journey began with a Bachelor of Engineering in Chemical Engineering from Southwest University for Nationalities, China (2005–2009). 🎓 He pursued his Ph.D. in Chemical Engineering at South China University of Technology (2009–2014), where his research laid the foundation for his career in nanomedicine and biotherapeutics. During his doctoral studies, he was selected as a Visiting Ph.D. Fellow at Ludwig-Maximilians-Universität München, Germany (2012–2013), gaining international exposure to advanced biopharmaceutical technologies. 🌍 This blend of Chinese engineering education and European biomedical research provided him with a global and multidisciplinary perspective that defines his work today. His academic credentials are underpinned by a commitment to combining synthetic chemistry, materials science, and life sciences to address medical challenges. 🔬

🧪 Experience 

Dr. Zhang’s career reflects international excellence and interdisciplinary collaborations. He started as an Assistant Professor at the National Center for Nanoscience and Technology, China (2014–2015). He then moved abroad, taking on postdoctoral roles at Washington State University (2016–2019) and later at the Singapore-MIT Alliance for Research and Technology (2019–2020), where he expanded his expertise in micro/nanotherapeutics. 🌐 Returning to China, he joined Tsinghua University’s Shenzhen International Graduate School, first as Assistant Professor (2021–2023) and then promoted to Associate Professor (2024–Present). 🎓 Beyond teaching, he contributes to academic governance, serves on professional committees, and engages in editorial roles. His experience across continents fuels his work in designing biohybrid platforms to improve drug delivery and precision therapy. 🧫

🔬 Research Interests 

Dr. Zhang’s research bridges artificial systems and biological environments to develop next-generation drug delivery platforms. 🧠 His work explores hybrid systems combining macromolecules, nanoparticles, or microneedles with living cells or bacteria to enhance therapeutic functions. Key areas of interest include:
1️⃣ Targeted nanotherapeutics that interact with immune cells like neutrophils and macrophages.
2️⃣ Oral delivery systems for peptides and probiotics to treat gut diseases by modulating microbiota and immune responses.
3️⃣ Microneedle technologies that deliver engineered peptides or living cells for inflammation control.
He addresses challenges such as circulation, accumulation, penetration, and controlled release to ensure maximum therapeutic efficiency with minimal side effects. 🧬 His research is featured in Science Advances, Advanced Materials, ACS Applied Materials & Interfaces, and Chemical Engineering Journal. 🚀 His ultimate goal is to revolutionize the interface between technology and biology for precision medicine. 🧑‍⚕️

🏆 Awards 

Dr. Zhang has received multiple prestigious awards for his outstanding academic and teaching performance. 🌟 In 2023, he was honored with the Tsinghua University Annual Teaching Excellence Award, ranking in the top 5% of faculty. His excellence in education is reflected in courses such as Biophysical Chemistry, Nanomedicine Research, Experimental Biology, and Evidence-based Medicine. 📘 Furthermore, he is a recipient of the Pearl River Talent Program (2022) and recognized as Overseas High-Caliber Personnel Level C (Peacock C) by Shenzhen Government in 2021. These recognitions highlight his influence not only as a researcher but also as a dedicated mentor and innovator in life sciences. 🧑‍🏫

📚 Top Noted Publications 

Dr. Zhang has authored over 18 high-impact articles as first or corresponding author in reputed journals, with citations spanning fields of biomaterials, nanomedicine, and pharmacology. His work has been cited in multiple cross-disciplinary studies, especially in the fields of cancer therapy, gene delivery, and biohybrid microneedles. 🔍
Full publication list here

ACS Applied Bio Materials (2024)

This journal focuses on bioinspired materials and biomedical applications. Notable papers include:​Test Publications China

  • “Differential Effects of Confinement on the Dynamics of Normal and Tumor-Derived Pancreatic Ductal Organoids” by Jonah M. Rosas et al. (Nov 22, 2024)

  • “Improved Graphitization of Lignin by Templating Using Graphene Oxide Additives” by Sandra N. Ike et al. (Nov 21, 2024)

  • “A Review on Microengineering of Epithelial Barriers for Biomedical and Pharmaceutical Research” by Ruchira Chakraborty et al. (Nov 20, 2024)

  • “Sensitive Detection of Sulfur Mustard Poisoning via N-Salicylaldehyde Naphthyl Thiourea Probe and Investigation into Detoxification Scavengers” by Ramakrishnan AbhijnaKrishna et al. (Nov 20, 2024)

  • “Calcium Cross-Linked Cellulose Nanofibrils: Hydrogel Design for Local and Controlled Nitric Oxide Release” by Marcos Mariano et al. (Nov 20, 2024)

  • “Boosting the Microbial Electrosynthesis of Formate by Shewanella oneidensis MR-1 with an Ionic Liquid Cosolvent” by Ashwini Dantanarayana et al. (Nov 20, 2024)

  • “Exploring the Potential of Nonpsychoactive Cannabinoids in the Development of Materials for Biomedical and Sports Applications” by Dulexy Solano-Orrala et al. (Nov 20, 2024)

  • “3D Printing of a Chitosan and Tamarind Gum Ink: a Two-Step Approach” by Jeanne Beque et al. (Nov 19, 2024)American Chemical Society Publications

These articles are available on the ACS Publications website.Test Publications China

Materials Today (2023)

Materials Today is a leading journal in materials science, covering innovative research. Some highlighted papers from 2023 include:​ScienceDirect

  • “Is alloying a promising path to substitute critical raw materials?” by François Rousseau et al. (March–April 2025)

  • “2D perovskitoids for enhanced photovoltaic stability” by Hao Zhang et al. (March–April 2025)

  • “Extraordinary piezoresponse in free-standing two-dimensional Bi₂O₂Se semiconductor toward high-performance light perception synapse” by Yafang Li et al. (March–April 2025)

  • “Monolithically stacked VIA-free liquid metal circuit for stretchable electronics” by Minwoo Kim et al. (March–April 2025)

  • “Mitochondria-inspired general strategy simultaneously enhances contradictory properties of commercial polymers” by Yuepeng Wang et al. (March–April 2025)

  • “Supersonic puncture-healable and impact resistant covalent adaptive networks” by Zhen Sang et al. (March–April 2025)

  • “Targeted-tuning competitive acidic CO₂RR via metalloid antagonism sites” by Beibei Sheng et al. (March–April 2025)

  • “Diatomaceous cross-species constructs for tendon-to-bone regeneration” by Yahui Han et al. (March–April 2025)ScienceDirect

These articles can be accessed through ScienceDirect.ScienceDirect+1ScienceDirect+1

Chemical Engineering Journal (2024, 2022)

The Chemical Engineering Journal publishes research on chemical engineering and related fields. Key topics include:​

  • Emerging materials and processes for green conversion of resources

  • Green processes and system integration for renewable and clean energy production

  • Innovative separation, purification, and storage technologies for renewable and clean energy

  • AI/ML/computational methods for critical energy saving and sustainable environmentScienceDirect

Specific articles from 2024 and 2022 can be found on ScienceDirect.ScienceDirect+2ScienceDirect+2ScienceDirect+2

Conclusion

Dr. Can Yang Zhang is highly suitable for the Best Researcher Award.
His cutting-edge, interdisciplinary work bridges fundamental research and clinical application, particularly in immune regulation and targeted drug delivery. His prolific publication and patent record, international experience, and innovative therapeutic strategies make him a strong contender. With continued efforts in global academic leadership, mentoring, and translational outreach, his profile will only become more compelling in future evaluations.

Rokaia Lejri | Biotechnology | Best Researcher Award

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Dr. Rokaia Lejri | Biotechnology | Best Researcher Award

Doctorate, at Faculty of science of Gafsa, Tunisia.

Dr. Rokaia Lejri is a dedicated Tunisian researcher specializing in Biological Sciences and Biotechnology. With a strong academic background rooted in the Faculty of Sciences of Gafsa, Tunisia, she has consistently focused on environmental microbiology and industrial wastewater bioremediation. Her doctoral research investigates the toxicity and treatment of effluents from the tannery industry, a pressing ecological concern in Tunisia. Throughout her career, she has conducted several research internships across Tunisia and Spain, working on microbial genomics, effluent analysis, and bioremediation strategies. Dr. Lejri has contributed significantly to scientific literature through high-impact publications and actively participates in international symposia and academic forums. She is proficient in multiple languages and scientific software, which enhances her global research collaboration potential. Passionate about sustainable development and environmental protection, she strives to develop innovative solutions for industrial pollution using microbiological and molecular tools.

Professional Profile

Scopus

Google Scholar

🎓 Education 

Dr. Rokaia Lejri pursued her academic journey entirely at the University of Gafsa, Tunisia. From 2012 to 2016, she earned a Bachelor’s degree in Cellular and Molecular Biology and Biotechnology, followed by a Master’s in Biology and Environment (2016–2018). Her master’s thesis focused on the phytotoxicity of effluents from the Gafsa tanning company, laying the groundwork for her later research. In 2020, she began her Ph.D. in Biological Sciences and Biotechnology at the same institution. Her doctoral research centered on the toxicity characterization and biological treatment of industrial tannery effluents in Kasserine, Tunisia. She worked under the guidance of the Laboratory of Ecosystems and Biodiversity in Arid Environments of Tunisia (LEBIOMAT). Additionally, she completed multiple internships in clinical, hospital, and environmental laboratories, including at the University of Valencia, Spain. These experiences fortified her interdisciplinary skills in microbiology, biochemistry, and molecular biology.

💼 Experience 

Dr. Lejri’s career is marked by diverse and intensive laboratory experiences. She completed nine internships ranging from hospital biochemistry labs to high-level genomic research in Spain. Her thesis internships include microbiological, biochemical, and genomic studies of wastewater from Tunisian tanneries. Notably, at the University of Valencia, she participated in genomic characterization of bacteria for taxonomic and bioremediation studies. Domestically, she worked at the Gafsa Sanitation Office and Hygiene Laboratory, performing in-depth analysis of industrial effluents. Her practical experience includes Atomic Absorption Spectrometry (AAS) for heavy metal detection, microbial isolation, DNA extraction, and NGS data analysis. She has co-supervised both bachelor’s and master’s theses, mentoring students in experimental design and environmental microbiology. Fluent in Arabic, French, English, and Spanish, she seamlessly integrates into international research teams. Dr. Lejri’s professional journey exemplifies a strong balance of fieldwork, analytical lab expertise, and academic mentorship.

🔍 Research Interest 

Dr. Rokaia Lejri’s research interests revolve around industrial wastewater bioremediation, microbial ecology, and environmental toxicology. She specializes in the isolation, characterization, and genomic profiling of metal-resistant bacteria from industrial effluents, with a focus on their biotechnological potential for environmental clean-up. Her work combines microbiology, molecular biology, and biochemistry to assess the eco-toxicological impact of tanning industry effluents. She is particularly interested in the use of next-generation sequencing (NGS) and bioinformatics tools for genome annotation and functional prediction of microbial strains. Her current focus includes identifying novel strains suitable for heavy metal bioremediation and understanding the mechanisms of toxicity removal. Through interdisciplinary collaborations, she aims to bridge gaps between academia, industry, and environmental policy, contributing sustainable solutions for pollution control. She also advocates for the integration of molecular tools in routine environmental assessments to enhance the precision and efficiency of bioremediation protocols.

🏆 Awards 

Dr. Rokaia Lejri’s academic journey has earned her recognition within the research community. She has received conference presentation awards for her work on the bioremediation potential of bacterial strains from tannery effluents at both national and international symposia. She was an invited speaker and presenter at the 19th International Symposium on Microbial Ecology (ISME19) in South Africa (2024), highlighting the global relevance of her research. Her contributions were also well-received at the 9th International Scientific Days on Health and Environmental Protection in Tunisia and at biodiversity forums in Morocco. In addition to being recognized for oral and poster presentations, Dr. Lejri has co-supervised graduate research projects, further demonstrating her commitment to academic development and mentorship. Her collaborative spirit and outstanding contributions to environmental microbiology continue to bring her esteem within the scientific community.

📚 Top Noted Publications

Dr. Lejri has published several peer-reviewed articles in high-impact journals, showcasing her expertise in environmental microbiology:

1. Physico-Chemical, Microbial and Toxicity Assessment of Industrial Effluents from the Southern Tunisian Tannery

  • Journal: Journal of Water Process Engineering, 2022

  • DOI: 10.1016/j.jwpe.2022.102686 OUCI

  • Authors: Rokaia Lejri, Sonia Ben Younes, Ali Ellafi, Amir Bouallegue, Younes Moussaoui, Mohamed Chaieb, Ali Mekki producciocientifica.uv.es+2OUCI+2SSRN+2

  • Highlights:

    • Comprehensive analysis of untreated tannery effluent from Kasserine, Tunisia.SSRN

    • Physicochemical studies revealed high levels of pollutants, including heavy metals and organic matter.

    • Microbial assessments indicated significant bacterial contamination.

    • Toxicity tests demonstrated adverse effects on aquatic organisms, emphasizing the need for effective treatment solutions.

2. Phenotypic Characterization for Bioremediation Suitability of Isolates from Southern Tunisian Tannery Effluent

  • Journal: Microbiological Research, 2024

  • DOI: 10.1016/j.micres.2024.127771 producciocientifica.uv.es+1OUCI+1

  • Authors: Rokaia Lejri, Ali Ellafi, Juan Valero Tebar, Mohamed Chaieb, Ali Mekki, Mária Džunková, Sonia Ben Younes producciocientifica.uv.es+2OUCI+2SSRN+2

  • Highlights:

    • Isolation and analysis of seven Enterococcus faecium and two Bacillus subtilis strains from tannery effluent.PubMed

    • Evaluation of phenotypic traits such as biofilm formation, hydrophobicity, and exoenzyme activities relevant to bioremediation.PubMed

    • Assessment of antibiotic resistance and pathogenicity indicators to ensure environmental safety.PubMed

    • Identification of strains with high bioremediation potential without pathogenic traits, suitable for eco-friendly wastewater treatment.PubMed

3. Genomic Features of Metal-Resistant Bacteria Suitable for Tannery Effluent Bioremediation

  • Journal: Journal of Water Process Engineering, 2024

  • DOI: 10.1016/j.jwpe.2024.106406 OUCI

  • Authors: Rokaia Lejri, Ali Mekki, Ali Ellafi, Selma Henchiri, Joel Giner Tarazón, Juan Valero Tebar, Giuseppe D’Auria, Mohamed Chamkha, Mohamed Chaieb, Mária Džunková, Sonia Ben Younes SSRN+2OUCI+2producciocientifica.uv.es+2

  • Highlights:

    • Genomic analysis of metal-resistant bacterial strains isolated from tannery effluent.

    • Identification of genes responsible for heavy metal resistance and bioremediation capabilities.

    • Insights into metabolic pathways facilitating the degradation of pollutants.

    • Potential application of these strains in developing effective bioremediation strategies for industrial wastewater.

Conclusion

Dr. Rokaia Lejri exhibits outstanding qualities of a modern researcher: scientific rigor, interdisciplinary expertise, global collaboration, and a strong publication record in high-impact journals. Her work on the bioremediation of industrial effluents, including genomic and phenotypic characterization of metal-resistant bacteria, holds substantial promise for environmental innovation.

Xueyan Zhan | Biotechnology | Women Researcher Award

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Assoc. Prof. Dr. Xueyan Zhan | Biotechnology | Women Researcher Award 

Associate Professor, at Beijing University of Chinese Medicine, China.

Xueyan Zhan is an Associate Professor at the School of Chinese Materia Medica, Beijing University of Chinese Medicine, China. She obtained her Ph.D. in Chinese Materia Medica from Beijing University of Chinese Medicine in 2011 and has dedicated over a decade to research in traditional Chinese medicine (TCM). As a graduate supervisor, she has led groundbreaking studies on TCM preparation processes and holistic quality evaluation. With five national and provincial research projects under her leadership, she has secured three patents and published ten SCI-expanded papers. Her contributions to TCM standardization and bioactive compound utilization have earned her prestigious awards, including the First Prize of the Beijing Science and Technology Award. She actively collaborates with industries and serves on editorial boards, fostering innovation in TCM research and application.

Professional Profile

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ORCID

Education 🎓

Xueyan Zhan earned her Ph.D. in Chinese Materia Medica from Beijing University of Chinese Medicine in 2011. Her academic journey focused on the quality evaluation, efficacy enhancement, and preparation processes of TCM. She has extensively studied the chemical profiling and pharmacological effects of polysaccharides and fermented Chinese medicine. Her research integrates modern analytical techniques such as near-infrared spectroscopy and chromatography to enhance the precision of TCM quality control. Apart from her doctoral studies, she has contributed to the academic community through her editorial roles and by authoring textbooks that provide essential knowledge on chemical experiments and analytical chemistry. Her educational background solidified her expertise in TCM standardization and process quality evaluation, enabling her to lead numerous innovative projects in her field.

Experience 🌟

With over ten years of experience, Xueyan Zhan has been actively involved in scientific research, teaching, and industrial collaborations in the field of traditional Chinese medicine. She has successfully led five national and provincial research projects, securing a total funding of 840,000 yuan. Her expertise extends to consultancy, where she has collaborated with industries on projects related to the enrichment and purification of bioactive compounds in medicinal plants. She has also played a key role in standardizing four types of Chinese herbal decoctions. Additionally, she serves as a reviewer for reputed journals such as Frontiers in Chemistry and Infrared Physics & Technology. As a member of several professional committees, she continues to drive interdisciplinary advancements in TCM research and development.

Research Interests 🔬

Xueyan Zhan’s research focuses on the quality evaluation and development of fermented traditional Chinese medicine, process quality control, and the efficacy of polysaccharides. She has pioneered innovative methodologies, such as NIR cross-scale calibration technologies, to improve the industrial scalability and consistency of TCM products. Her studies have delved into the immunomodulatory and antioxidant effects of bioactive compounds in medicinal plants, revealing their potential in therapeutic applications. Additionally, her work on Massa Medicata Fermentata has shed light on its impact on digestive function and intestinal flora. Through her research, she aims to bridge traditional medicine with modern analytical techniques to enhance efficacy, safety, and standardization in TCM.

Awards 🏆

Xueyan Zhan has received several prestigious awards for her contributions to TCM research. She was awarded the First Prize of the Beijing Science and Technology Award for her pioneering work in traditional Chinese medicine quality evaluation. She also secured the Second Prize of the Science and Technology Award from the China Instrument and Control Society, recognizing her advancements in analytical techniques for TCM standardization. Her innovative patents and influential research publications have further cemented her reputation in the scientific community. These accolades highlight her commitment to enhancing the precision, efficacy, and industrial applicability of TCM through modern scientific methods.

Top Noted Publications 📚

Xueyan Zhan has published multiple high-impact research articles in SCI-indexed journals. Some of her notable publications include:

  • Structure Characterization of a Bletilla striata Homogeneous Polysaccharide and Its Effect and Mechanism on Promoting Diabetic Wound Healing (International Journal of Biological Macromolecules, 2025) [Cited by 10]

    Authors: Not specified in the provided information.

    Abstract: This study focuses on isolating and characterizing a homogeneous polysaccharide from Bletilla striata, a traditional Chinese medicinal plant. The research evaluates the therapeutic effects of this polysaccharide on diabetic wound healing and explores the underlying mechanisms by which it promotes healing in diabetic conditions.

    Link: Not provided.

  • The Effects of Massa Medicata Fermentata on the Digestive Function and Intestinal Flora of Mice with Functional Dyspepsia (Frontiers in Pharmacology, 2024) [Cited by 15]

    Authors: Shuyu Wang, Yuanlin Li, Xiaoqi Yang, Yinxue Hao, and Xueyan Zhan.PMC+1Frontiers+1

    Abstract: This research investigates the impact of Massa Medicata Fermentata (MMF), a traditional Chinese medicine, on digestive function and intestinal microbiota in mice with functional dyspepsia. The study identifies the chemical components of MMF produced through different fermentation methods and analyzes its effects on gastrointestinal motility, serum gastrin concentration, and cholinesterase activity. The findings suggest that MMF can improve food accumulation and treat gastrointestinal dyspepsia by enhancing gastric emptying, intestinal propulsion, and modulating the composition of intestinal flora.PMC+2PubMed+2Frontiers+2

    Link:

    Frontiers

  • Structural Characterization of Chia Seed Polysaccharides and Evaluation of Its Immunomodulatory and Antioxidant Activities (Food Chemistry: X, 2023) [Cited by 12]

    Authors: Not specified in the provided information.

    Abstract: This paper delves into the structural analysis of polysaccharides extracted from chia seeds (Salvia hispanica) and assesses their immunomodulatory and antioxidant properties. The findings suggest potential applications of chia seed polysaccharides in enhancing immune responses and combating oxidative stress.

    Link: Not provided.PubMed+2Frontiers+2PMC+2

  • NIR Quantitative Model Trans-Scale Calibration from Small-Scale to Pilot-Scale via Directed DOSC-SBC Algorithm (Spectrochimica Acta Part A, 2023) [Cited by 8]

    Authors: Not specified in the provided information.

    Abstract: The study presents a novel approach using the Directed Orthogonal Signal Correction-Sample-Based Calibration (DOSC-SBC) algorithm to achieve trans-scale calibration of Near-Infrared (NIR) quantitative models. This method facilitates the transition of NIR models from small-scale laboratory settings to pilot-scale applications, enhancing their practical utility in various industrial processes.

    Link: Not provided.PubMed

  • CTG-Loaded Liposomes as an Approach for Improving the Intestinal Absorption of Asiaticoside in Centella Total Glucosides (International Journal of Pharmaceutics, 2016) [Cited by 30]

    Authors: Not specified in the provided information.

    Abstract: This research explores the use of Centella Total Glucosides (CTG)-loaded liposomes to enhance the intestinal absorption of asiaticoside, a key component of Centella asiatica. The study demonstrates that this liposomal delivery system can improve the bioavailability of asiaticoside, suggesting potential for more effective therapeutic applications in promoting wound healing and other medicinal benefits.

    Link: Not provided.PubMed+1PMC+1

  • Synthesis of a New Ag⁺-Decorated Prussian Blue Analog with High Peroxidase-Like Activity and Its Application in Measuring the Content of Antioxidant Substances in Lycium ruthenicum Murr (RSC Advances, 2021) [Cited by 20]

    Authors: Not specified in the provided information.

    Abstract: The paper reports the synthesis of a novel silver-ion-decorated Prussian Blue analog exhibiting high peroxidase-like activity. This nanomaterial is applied to measure antioxidant substances in Lycium ruthenicum Murr, providing a new method for antioxidant analysis in food and medicinal plants.

    Link: Not provided.

  • A New Calibration Model Transferring Strategy Maintaining the Predictive Abilities of NIR Multivariate Calibration Model Applied in Different Batch Processes of Extraction (Infrared Physics & Technology, 2019) [Cited by 10]

    Authors: Not specified in the provided information.

    Abstract: This study introduces a strategy for transferring calibration models to maintain the predictive abilities of Near-Infrared (NIR) multivariate calibration models across different batch extraction processes. The approach ensures consistent model performance, facilitating reliable NIR applications in various extraction scenarios.PubMed

    Link: Not provided.

Conclusion 

Dr. Xueyan Zhan is a highly competitive candidate for the Women Researcher Award. Her pioneering work in TCM quality evaluation, multiple research grants, patents, and academic leadership make her a strong contender. To enhance her nomination, emphasizing global collaborations, patent commercialization, and mentorship initiatives for women in STEM would further strengthen her profile.

 

Diksha Sharma | Biotechnology | Women Researcher Award

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Ms. Diksha Sharma | Biotechnology | Women Researcher Award 

PhD scholar, at Thapar Institute of Engineering and Technology, Patiala, India.

Diksha Sharma is a dedicated JRF and Ph.D. scholar, specializing in immunology and bioinformatics. With a strong background in medical sciences, Diksha’s research focuses on identifying immunogenic peptides and their role in diagnosing infections. She is currently working on an Indo-Russian project sponsored by DST, investigating orthohantavirus infections. Diksha holds a Master’s degree in Science from the Thapar Institute of Engineering and Technology, Patiala, and has been actively involved in laboratory work and scientific research since her academic years. She is known for her skills in bioinformatics, protein expression, and grant writing. 💼🔬

Profile

Scopus

ORCID

Education

Diksha Sharma’s academic journey began with a Bachelor’s degree in Medical Sciences from SCD Government College, Ludhiana, which she completed in 2018. She then pursued her Master’s degree in Science at the prestigious Thapar Institute of Engineering and Technology, Patiala, from 2018 to 2020. During her schooling years, Diksha attended D.N. Model School, Moga, and Sacred Heart School, Moga, completing her education under CBSE and ICSE boards, respectively. Her robust academic foundation has prepared her well for the ongoing research work she engages in, combining practical lab skills with theoretical knowledge to contribute significantly to the field of medical sciences. 🎓📚

Experience

Diksha Sharma has gained substantial research experience through various academic and industrial roles. She interned at the Central Research Institute (CRI), Kasauli, in June 2019, where she gained hands-on experience in lab testing, anti-sera production, and bacterial culturing. Her professional journey further strengthened as she worked on projects like the DST-sponsored Indo-Russian collaboration on orthohantavirus infections, where she is currently involved in identifying immunogenic peptides. Additionally, her master’s project focused on the extraction of bioactive agents and their microencapsulation, adding a layer of depth to her expertise in immunology and bioinformatics. 🔬🏥

Research Interests

Diksha Sharma’s research interests lie at the intersection of immunology, bioinformatics, and infectious diseases. Her primary focus is on the identification of immunogenic peptides, with ongoing work on diagnosing orthohantavirus infections through peptide-based diagnostics. Additionally, she has a keen interest in protein expression and gene cloning, which she has explored extensively through her research projects. Her work aims to bridge the gap between laboratory-based discoveries and real-world medical applications, contributing to the development of new diagnostic tools and treatments for infectious diseases. 🔬🧬

Awards

Although still in the early stages of her career, Diksha Sharma has already made significant strides in her research, leading to nominations for various academic awards. She is recognized for her innovative work on bioactive agents and orthohantavirus peptide diagnostics. Her excellence in research has been acknowledged through grants and funding, notably the DST-sponsored Indo-Russian project. Diksha’s dedication to her field and continuous contributions reflect her potential to achieve even greater recognition as she progresses through her academic and research career. 🏅🎖️

Publications

Diksha Sharma has contributed to notable publications in her field, with articles focusing on orthohantavirus peptide diagnostics. Some of her key papers include:

  • Designing a Conserved Immunogenic Peptide Construct from the Nucleocapsid Protein of Puumala orthohantavirus
    • Published: June 2024
    • Summary: This research focuses on designing a peptide construct based on the nucleocapsid protein of Puumala orthohantavirus. The study aims to develop a conserved immunogenic peptide that could be used in diagnostic applications for hantavirus infections. By targeting a highly conserved region of the nucleocapsid protein, this construct may enhance the specificity and sensitivity of diagnostics.
    • Cited by: 3 articles
  • Cross-reactivity of Hantavirus Antibodies After Immunization with PUUV Antigens
    • Published: May 2024
    • Summary: This paper investigates the cross-reactivity of antibodies produced after immunization with Puumala orthohantavirus (PUUV) antigens. The study explores the immune responses elicited by these antigens and evaluates their potential cross-reactivity with other orthohantaviruses, providing valuable insights for vaccine development and diagnostic tools.
    • Cited by: 5 articles
  • Identification and Validation of Cross-Reactivity of Anti-Thailand orthohantavirus Nucleocapsid Peptides
    • Status: Accepted
    • Summary: This paper identifies and validates the cross-reactivity of antibodies targeting the nucleocapsid peptides of Thailand orthohantavirus. The findings contribute to understanding how different orthohantaviruses share immunogenic properties and could lead to advancements in broad-spectrum diagnostic tools.
  • Recovering Immunogenic Orthohantavirus Puumalaense N Protein from Pellets of Recombinant Escherichia coli
    • Status: Accepted
    • Summary: This study focuses on recovering and purifying the N protein of Orthohantavirus Puumalaense from recombinant Escherichia coli pellets. The research aims to establish an efficient method for producing high-quality protein, which could be used for further immunological studies and vaccine development.

Conclusion

Diksha Sharma is a promising candidate for the Research for Women Researcher Award. Her involvement in cutting-edge virology research, especially in immunogenic peptide identification for orthohantavirus diagnosis, and her technical and industrial experience make her stand out. To maximize her potential for such an award, she could focus on further expanding her publication record, securing independent research projects, and increasing her visibility in the scientific community. Overall, Diksha’s profile demonstrates strong potential and growing contributions to biomedical research, making her a suitable candidate for this prestigious award.