Swati Gangwar | Chemical Engineering | Women Researcher Award

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Ms. Swati Gangwar | Chemical Engineering | Women Researcher Award

Research scholar from Indian institute of Technology, India

Swati Gangwar is a dedicated research scholar currently pursuing her PhD in Chemical Engineering at the Indian Institute of Technology (IIT), Jammu. With a strong academic foundation marked by a first-class chemical engineering degree from AITH Kanpur and a Master’s degree from Harcourt Butler Technical University (HBTU), Kanpur, she has steadily advanced her expertise in thermal hydraulics and fluid flow. Under the mentorship of P.K. Vijayan, a distinguished expert with extensive experience at BARC, Swati has focused on natural circulation systems, which are critical in energy-efficient and safe passive heat transfer technologies. Her research contributions include experimental, numerical, and analytical studies of thermosyphon heat transport devices, indoor solar cooktops, and passive cooling systems applicable to renewable energy and nuclear safety sectors. Swati’s work has been published in prestigious international journals such as Nuclear Engineering and Design and IEEE Electrification Magazine, demonstrating her ability to contribute novel insights to her field. With ongoing projects and collaborative efforts, she continues to advance research that bridges theoretical understanding and practical innovation in heat transfer mechanisms, positioning herself as a promising leader in chemical engineering research.

Professional Profile

Education

Swati Gangwar completed her Bachelor of Technology (B.Tech) degree in Chemical Engineering from AITH Kanpur in 2016, graduating with first-class honors. She pursued her Master of Technology (M.Tech) in Chemical Engineering at Harcourt Butler Technical University (HBTU), Kanpur, completing it in 2019. Her graduate studies laid a solid foundation in core chemical engineering principles, with a growing interest in thermal systems and fluid mechanics. Currently, she is enrolled in a PhD program at the Indian Institute of Technology Jammu, focusing on heat transfer and fluid flow under the guidance of Professor P.K. Vijayan. The doctoral program enables her to engage deeply in research related to natural circulation loops, thermosyphon heat transport devices, and their applications in sustainable energy systems and nuclear safety. Her education trajectory reflects a consistent focus on advancing her expertise in thermal hydraulics and related engineering challenges, supported by rigorous academic training and research exposure at premier Indian institutions.

Professional Experience

Swati’s professional experience is primarily academic and research-oriented, centered on her PhD studies at IIT Jammu. She has actively contributed to research projects involving thermosyphon heat transport devices and natural circulation systems, focusing on experimental design, numerical modeling, and performance analysis. Her collaboration with her supervisor, Prof. P.K. Vijayan, who has a rich background in nuclear thermal hydraulics and reactor engineering, has enriched her exposure to practical challenges in energy systems design and safety. Swati has also worked on projects related to solar indoor cooktops, a novel application of thermosyphon technology, reflecting her ability to translate research into practical innovations. She has been involved in publishing several peer-reviewed papers in high-impact journals and presenting findings at scientific forums, contributing to the academic community. Although her experience is mainly research-focused, it reflects strong technical skills, teamwork in collaborative environments, and dedication to advancing applied thermal engineering solutions.

Research Interests

Swati’s research interests lie in the field of heat transfer, fluid dynamics, and passive cooling systems. Specifically, she focuses on natural circulation loops (NCLs) and thermosyphon heat transport devices (THTDs), which utilize buoyancy-driven flow to enable efficient heat transfer without mechanical pumps. Her work encompasses both single-phase and two-phase natural circulation systems, with a strong emphasis on stability analysis and flow instabilities. She is particularly interested in developing innovative applications of these passive heat transfer technologies, such as solar indoor cooking devices, passive fuel cooling systems in small modular reactors (SMRs), and sustainable energy solutions like solar space heating. Swati’s research aims to address critical challenges in renewable energy and nuclear safety by optimizing thermal-hydraulic performance and enhancing system stability. Her work bridges theoretical modeling, numerical simulations, and experimental validations to provide comprehensive insights into these systems’ behavior under various boundary conditions, contributing to safer and more efficient energy technologies.

Research Skills

Swati possesses a robust set of research skills combining experimental, analytical, and computational techniques. She is proficient in designing and conducting experiments related to thermosyphon heat transport devices and natural circulation loops, including setup fabrication, instrumentation, and data acquisition. Her skills include numerical modeling and simulation using system codes to predict thermo-hydraulic behavior and flow stability. She has experience in analytical methods for stability criteria development and performance analysis under varying operating conditions. Swati’s ability to integrate experimental data with numerical models allows her to validate and refine theoretical predictions effectively. Additionally, she has strong scientific writing skills, demonstrated through multiple publications in reputed journals. Her research also involves using computational fluid dynamics (CFD) tools for detailed flow analysis. Collaborating with multidisciplinary teams and managing complex research projects further highlights her organizational and teamwork capabilities. Overall, Swati’s research skills position her to make meaningful contributions to passive cooling and heat transfer technologies.

Awards and Honors

Swati Gangwar’s recognition primarily stems from her academic excellence and research contributions during her ongoing PhD. While specific external awards or honors were not explicitly mentioned, her work’s acceptance and publication in high-impact, peer-reviewed journals such as Nuclear Engineering and Design and IEEE Electrification Magazine are significant markers of her research quality and impact. Being mentored by a leading expert in the field, Prof. P.K. Vijayan, also adds to her academic prestige. Her participation in advanced research projects and collaborations, coupled with acceptance of her work in reputed journals, reflects peer recognition within the scientific community. Future recognition may include awards related to innovations in renewable energy or nuclear safety, given the societal relevance of her research areas. Encouragingly, her trajectory and ongoing scholarly output suggest a promising career with potential for further accolades and honors as she continues to contribute to her field.

Conclusion

Swati Gangwar exemplifies a promising young researcher with strong academic foundations, relevant professional experience, and a clear focus on impactful research in thermal hydraulics and fluid flow. Her work on natural circulation loops and thermosyphon devices addresses important challenges in renewable energy and nuclear safety, combining theoretical, numerical, and experimental approaches. With multiple high-quality journal publications and ongoing innovative projects, she is steadily establishing herself as a capable and impactful researcher. To strengthen her profile further, opportunities to demonstrate leadership in research projects, increase engagement with the wider scientific community through conferences, and pursue external funding or patents would be beneficial. Overall, Swati’s dedication and contributions position her well as a deserving candidate for the Women Researcher Award, highlighting her potential as a future leader in engineering research.

Publications Top Notes

  1. Title: Insight on the steady-state performance of single-phase Natural circulation loops
    Year: 2025
    Authors: Swati Gangwar, P. K. Vijayan, Goutam Dutta
    Journal: Nuclear Engineering and Design, Volume 440, 114128

  2. Title: Insights on the instability and stabilizing techniques for natural circulation loops
    Year: 2025
    Authors: P. K. Vijayan, Swati Gangwar, Dev Banitia, U. C. Arunachala, S. Nakul, D. N. Elton, K. Varun
    Journal: Nuclear Engineering and Design, Volume 438, 114017

  3. Title: Intrinsically Safe Thermohydraulic Designs for SMRs: Design advantages and challenges
    Year: 2024
    Authors: P. K. Vijayan, Swati Gangwar
    Journal: IEEE Electrification Magazine, Volume 12, Issue 4, pp. 75–83
    DOI: 10.1109/MELE.2024.3473332

  4. Title: CFD analysis of the steady-state performance of a cooktop integrated Thermosyphon heat transport device with two bends
    Year: 2025
    Authors: Sonu Kumar, Pallippattu Krishnan Vijayan, Swati Gangwar, Satya Sekhar Bhogilla
    Journal: Heat Transfer Engineering Journal (Accepted for publication)

  5. Title: Experimental performance of a novel solar indoor cooktop using THTD
    Year: 2024
    Authors: Swati Gangwar, A. Budakoti, S. S. Bhogilla, G. Dutta, P. K. Vijayan
    Journal: ASTFE Digital Library, Begell House Inc.

Evelyn Faife | Chemical Engineering | Women Researcher Award

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Dr. Evelyn Faife | Chemical Engineering | Women Researcher Award

Doctorate from Cuban Research Institute of Sugarcane Derivatives Research, Cuba

Dr. Evelyn Faife Pérez is a distinguished Chemical Engineer with a career spanning more than two decades in the fields of biotechnology, microbial fermentation, and the sustainable use of agro-industrial residues. She graduated from the Technologic University José Antonio Echevarría (ISPJAE) in 1995 and has since developed extensive experience in academic, research, and project leadership roles across top Cuban and international institutions. Currently serving as a researcher at the Cuban Research Institute of Sugar Cane Derivatives (ICIDCA), Dr. Faife Pérez’s work has centered on biotechnological innovations aimed at transforming waste into valuable products such as microbial oils, carotenoids, and agricultural bioproducts. She has led numerous national and international projects, including those supported by the United Nations Development Programme and intergovernmental initiatives with countries like China. Her international training across countries such as France, India, Japan, China, and Spain reflects her global engagement and commitment to scientific advancement. Dr. Faife Pérez has authored several peer-reviewed papers and contributed chapters in biotechnology-focused books. She has received multiple awards recognizing the scientific and societal impact of her research. Her multifaceted profile demonstrates a deep commitment to sustainable science, making her a valuable contributor to the global research community.

Professional Profile

Education

Dr. Evelyn Faife Pérez holds a strong academic foundation rooted in chemical engineering and advanced biotechnology. She began her academic journey by obtaining a degree in Chemical Engineering from the Technologic University José Antonio Echevarría (ISPJAE) in 1995. Motivated to specialize further, she earned a Master’s degree in Science and Technology of Biotechnological Processes from Havana University in 2001. Her academic path culminated in a Ph.D. in Technical Sciences from her alma mater, ISPJAE, in 2021. This academic trajectory reflects a consistent dedication to scientific development, emphasizing the practical application of bioprocesses in environmental and industrial contexts. Throughout her academic training, Dr. Faife Pérez has cultivated deep expertise in biochemical engineering, microbial fermentation, and sustainable use of biomass. Her doctoral and master’s research provided the framework for her later professional and investigative pursuits in the valorization of agro-industrial waste, development of microbial strains, and bio-based technologies for energy and agriculture. This solid educational background has not only shaped her research competencies but also positioned her as a leader in her field. Her academic progression showcases her enduring commitment to integrating theory with application in solving real-world challenges through biotechnology.

Professional Experience

Dr. Evelyn Faife Pérez’s professional experience is marked by a rich blend of academic instruction, applied research, and project leadership. She began her career as a professor and researcher at the Biotechnology Department of the Pharmacy and Food Faculty at Havana University, where she served from 1995 to 1999. She then transitioned to the Center of Molecular Immunology (CIM) in Havana, contributing a decade (1999–2009) to biotechnological development within the institution’s research division. Since 2009, Dr. Faife Pérez has been a senior researcher in the Biotechnology Directorate at ICIDCA, where she continues to innovate in microbial technology and agro-industrial applications. Her leadership has been pivotal in several prominent projects, including enterprise and intergovernmental collaborations such as those between Cuba and China. Notably, she has directed international projects funded by the UNDP, advancing the use of tolerant yeasts for high-value additives. Dr. Faife Pérez’s professional journey reflects a commitment to converting scientific research into viable industrial and agricultural solutions. Her role at ICIDCA positions her at the intersection of academic rigor and applied science, enabling the transfer of laboratory innovations into scalable technologies. Her experience is further enhanced by international training in countries such as France, India, Japan, and China.

Research Interests

Dr. Evelyn Faife Pérez’s research interests lie at the intersection of biotechnology, sustainable development, and microbial engineering. Her work predominantly focuses on the biotechnological conversion of agro-industrial residues—particularly sugarcane derivatives—into valuable bio-products such as microbial oils, carotenoids, and enzymes. She is highly engaged in developing bioprocesses that utilize efficient microorganisms, especially yeasts like Rhodotorula toruloides, for biofuel production, animal feed, and agricultural applications. Her interest extends to microbial tolerance studies, fermentation technologies, and the use of renewable substrates like vinasse and raw glycerol in industrial bioprocessing. Additionally, she is involved in solvent extraction techniques for natural product isolation, particularly applying group contribution methods and solubility theory. Dr. Faife Pérez is also interested in enhancing sustainable waste management by introducing microbial treatments that reduce environmental impact and add value to waste streams. These research interests reflect a profound commitment to bioeconomic principles and environmental stewardship, reinforcing her contribution to both academic science and real-world sustainability. Her focus on interdisciplinary and applied research ensures that her findings address current industrial and environmental challenges while offering innovative, cost-effective solutions for the future of biotechnology and renewable energy sectors.

Research Skills

Dr. Evelyn Faife Pérez has developed a comprehensive skill set in biotechnological research, underpinned by years of practical and academic experience. Her core competencies include microbial cultivation, fermentation technologies, enzymatic analysis, and biomass valorization. She is adept at isolating and optimizing microbial strains, particularly oleaginous yeasts such as Rhodotorula toruloides, for bio-production processes. Additionally, she has expertise in handling inhibitory compounds during fermentation, selecting tolerant mutants, and improving product yields. Her technical knowledge extends to solvent selection methodologies using Hansen Solubility Parameters and Group Contribution Models, enhancing her capabilities in the extraction and purification of bioactive compounds. Dr. Faife Pérez also demonstrates strong project management skills, having led national and international research initiatives from conception to implementation. She is experienced in cross-cultural collaborations and the integration of renewable energy concepts into biotechnological workflows. Her international training has expanded her methodological toolkit, incorporating technologies and best practices from global centers of excellence. She is proficient in scientific writing and communication, contributing to journals, book chapters, and symposiums. Collectively, her research skills enable her to conduct high-impact studies that integrate innovation, sustainability, and practical application, reinforcing her position as a capable and forward-thinking biotechnologist.

Awards and Honors

Dr. Evelyn Faife Pérez has been the recipient of several awards recognizing her contributions to science, particularly in biotechnology and sustainable bioprocess development. In 2017 and 2019, she received the Award to the Best Scientific Work from AZCUBA, Cuba’s leading sugar industry organization. These awards were granted for her innovative research on the fermentation processes using microbial oils from vinasse and glycerol, as well as for her work on selecting microbial strains tolerant to inhibitors derived from sugarcane bagasse hydrolysis. In 2019, she was also honored with the ICIDCA Scientific Award for her pivotal study on identifying cyclic lipopeptides from Bacillus amyloliquefaciens with antifungal activity. These recognitions underscore the scientific and practical value of her research, particularly its relevance to Cuba’s sugar industry and agricultural sectors. Her achievements highlight her capability to bridge scientific inquiry with industrial application, making her a valuable contributor to national development and international scientific progress. The consistent recognition of her work not only validates the impact of her research but also reflects her leadership in advancing biotechnological innovations that are sustainable, scalable, and economically beneficial.

Conclusion

Dr. Evelyn Faife Pérez embodies a dynamic and impactful profile in the realm of biotechnological research, with notable contributions in microbial fermentation, renewable resource utilization, and sustainable agriculture. Her extensive educational background and multifaceted professional experience allow her to approach scientific problems with both theoretical depth and practical insight. As a leader in research projects and an active contributor to academic literature, she has shown a consistent ability to translate complex scientific ideas into applicable technologies. Her work aligns with global priorities such as sustainability, waste reduction, and green energy, making her research both timely and socially relevant. The international recognition of her work through awards and scholarly collaborations further reinforces her role as a respected and influential scientist. By continuing to innovate in areas like microbial oil production, yeast biotechnology, and agro-industrial waste treatment, Dr. Faife Pérez remains at the forefront of applied biosciences. Her career stands as a testament to the value of science in addressing environmental challenges and improving industrial processes. With her continued dedication, she is well-positioned to contribute to future advancements in sustainable biotechnology on both a national and global scale.

Publications Top Notes

  1. Use of wastewaters from ethanol distilleries and raw glycerol for microbial oils production from Rhodsporidium toruloides

    • Authors: Faife E., Ochoa N., Dehua Liu et al.

    • Year: 2025 (Accepted)

  2. Current Advances in Carotenoid Production by Rhodotorula sp.

    • Authors: Ochoa N., Alonso D., Pacios S., García A., Ramos R., Faife E., et al.

    • Year: 2024

    • Journal: Fermentation, 10(4), 190

  3. Use of Group Contribution Methods, Hansen’s Theory of Solubility and Microsoft Excel in the Selection of Solvents for the Extraction of Natural Products

    • Authors: Días M., Faife E.

    • Year: 2023 (Preprint)

  4. Rhodotorula toruloides as a biofactory of carotenoids, lipids and enzymes. Microbial fermentations in nature and as designed processes

    • Authors: Ochoa N., Alonso D., Faife E., et al.

    • Year: 2023

    • Book Chapter: Microbial Fermentations in Nature and as Designed Processes, Chapter 2

    • DOI link

  5. Use of efficient microorganisms (ME) as an alternative for the treatment of residuals (Review)

    • Authors: Faife-Pérez E., Roget-Guevara D., Fandiño C.A., et al.

    • Year: 2018

    • Journal: ICIDCA Sobre los derivados de la caña de azúcar, Vol. 52(3)

    • ISSN: 2410-8529

  6. Selection and evaluation of Rhodosporidium toruloides mutants tolerant to inhibitors generated from the acid hydrolysis of sugarcane bagasse

    • Authors: Ochoa Viñals N., Faife E., Michelena G.

    • Year: 2017

    • Type: Master’s Thesis, University of Havana (U.H.)

  7. Use of wastewaters from ethanol distilleries and glycerol mixtures for microbial oils production

    • Authors: Faife E., Martínez A., Martínez Y., et al.

    • Year: 2016

    • Journal: American Journal of Bioscience and Bioengineering, 4(4): 41-48

    • DOI: 10.11648/j.bio.20160404.11

  8. Evaluation of the growth of the oleaginous yeast R. toruloides in the presence of sugarcane bagasse hydrolyzate inhibitors

    • Authors: Ochoa-Viñals N., Faife-Perez E., Du W., Zhao Xuebing, Liu Dehua

    • Year: 2016

    • Journal: ICIDCA Sobre los derivados de la caña de azúcar, Vol. 50(3), pp. 50-53

    • ISSN: 0138-6204

Ishika Pal | Chemistry | Best Scholar Award

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Ms. Ishika Pal | Chemistry | Best Scholar Award

Ex-Student at Chandigarh University, India

Ishika Pal is an enthusiastic and dedicated chemistry student with a strong academic background and a passion for advancing research in chemical sciences. She holds both a Master of Science (M.Sc.) in Chemistry and a Bachelor of Science and Education (B.Sc. B.Ed.) from Chandigarh University. With hands-on training in quality control at Verka, she has developed a solid understanding of industrial standards and laboratory protocols. Her expertise spans organic synthesis, spectroscopy, and data analysis, making her a capable researcher in the field of chemistry. Ishika has contributed to scientific knowledge through her research on novel hydrolyzed products for dye exclusion and a comprehensive review on guar gum-based hydrogels for environmental remediation. She is proficient in using specialized software such as Gauss View and ChemDraw, which supports her computational chemistry work. Beyond technical skills, her strong communication abilities and problem-solving mindset enable her to present complex scientific concepts effectively. Ishika’s dedication to advancing chemical research and her commitment to maintaining laboratory precision position her as a promising candidate for future research excellence. With a keen interest in industrial quality control, chemosensors, and positive psychology, she aims to contribute significantly to innovative solutions in chemical sciences.

Professional Profile

Education

Ishika Pal holds distinguished academic qualifications in the field of chemistry, reflecting her commitment to both scientific inquiry and educational excellence. She earned a Master of Science (M.Sc.) degree in Chemistry from Chandigarh University, where she developed advanced knowledge of chemical principles and laboratory methodologies. Prior to this, she completed a Bachelor of Science and Education (B.Sc. B.Ed.) degree from the same institution, combining scientific rigor with pedagogical training. This dual qualification not only deepens her understanding of complex chemical processes but also enhances her ability to communicate scientific concepts effectively. Throughout her academic journey, Ishika has actively engaged in practical laboratory work, mastering various analytical techniques, including UV spectroscopy, IR spectroscopy, and chromatography. Her coursework and research projects have provided her with a comprehensive understanding of organic synthesis, data analysis, and chemical modeling. Ishika’s education also encompasses extensive training in laboratory management and quality control, equipping her with the technical precision required for professional research environments. Her academic record reflects a balance between theoretical knowledge and practical application, positioning her to contribute meaningfully to contemporary chemical research. Ishika’s academic foundation in chemistry continues to guide her pursuit of innovative solutions and excellence in scientific exploration.

Professional Experience

Ishika Pal’s professional experience is anchored in her practical training and research contributions within the field of chemistry. She undertook a comprehensive quality control training program at Verka, where she gained firsthand exposure to industrial processes and laboratory protocols. During this period, she honed her ability to perform precise analytical procedures, ensuring product quality and compliance with industry standards. This experience equipped her with essential skills in chemical analysis, documentation, and the use of advanced laboratory equipment. Additionally, Ishika has actively participated in research projects focusing on organic synthesis and environmental chemistry. Her research endeavors include the synthesis of GG-g-PAN-based hydrolyzed products aimed at dye exclusion and the spectroscopic investigation of these novel compounds. This work demonstrates her capacity to apply theoretical knowledge to address real-world challenges. Her professional journey also includes proficiency in laboratory techniques such as titration, chromatography, and spectroscopic analysis. Beyond technical expertise, Ishika’s effective communication skills and attention to detail have enabled her to collaborate seamlessly in research settings. Her professional experience reflects a commitment to scientific innovation, methodological accuracy, and the pursuit of knowledge. Ishika’s ability to bridge academic learning with practical implementation positions her as a promising contributor to advanced chemical research.

Research Interests

Ishika Pal’s research interests lie at the intersection of organic synthesis, environmental remediation, and computational chemistry. She is particularly passionate about developing innovative chemical processes to address industrial and environmental challenges. Her work on Guar Gum-based hydrogels for dye remediation reflects her commitment to sustainable solutions, exploring ways to remove hazardous dyes from aqueous environments. Ishika is also interested in advancing chemosensors—devices that detect and analyze chemical substances—with a focus on improving their sensitivity and application in industrial quality control. Additionally, she is intrigued by the role of positive psychology in scientific innovation, exploring how mental well-being can enhance research productivity and creativity. Ishika’s academic background has sparked her curiosity about computational chemistry, using advanced software like Gauss View to model chemical reactions and analyze molecular interactions. Her interdisciplinary approach integrates experimental methodologies with theoretical frameworks, providing a comprehensive perspective on chemical phenomena. She aspires to contribute to cutting-edge research that combines chemical principles with technological advancements to drive meaningful scientific progress. Through her research, Ishika seeks to develop novel materials and methodologies that improve both environmental sustainability and industrial efficiency, positioning herself as a forward-thinking and solution-oriented scholar in the field of chemistry.

Research Skills

Ishika Pal possesses a diverse range of research skills that reflect her proficiency in chemical experimentation and data analysis. She is well-versed in organic synthesis techniques, enabling her to design and execute chemical reactions with precision. Her expertise extends to spectroscopic analysis, including UV and IR spectroscopy, which she uses to characterize chemical compounds and investigate molecular structures. Ishika is also skilled in chromatographic techniques, applying methods like gas chromatography to separate and analyze complex mixtures. She has a strong command of laboratory management practices, ensuring the accuracy, safety, and reproducibility of experimental procedures. Her technical toolkit includes proficiency in specialized software such as Microsoft Office, Gauss View, and ChemDraw, which facilitate computational modeling and chemical visualization. Additionally, Ishika’s attention to detail supports her capability in data documentation and interpretation, ensuring comprehensive reporting of experimental outcomes. She adheres strictly to safety protocols and exhibits competence in handling hazardous materials. Beyond technical expertise, her analytical mindset and problem-solving skills allow her to troubleshoot experimental challenges effectively. These research skills position her to contribute to complex scientific investigations while maintaining the integrity and precision required for advanced chemical research.

Awards and Honors

While Ishika Pal’s profile does not explicitly mention formal awards or honors, her research publications and quality control training highlight her academic and professional excellence. Her research paper on GG-g-PAN-based hydrolyzed products reflects a noteworthy contribution to environmental chemistry, addressing the critical issue of dye remediation. Furthermore, her review paper on Guar Gum-based hydrogels underscores her ability to synthesize existing research and provide new insights into sustainable materials. Completing her quality control training at Verka represents a significant achievement, as it provided her with industry-level expertise and practical experience in laboratory methodologies. These milestones demonstrate her dedication to bridging academic research with real-world applications. Ishika’s consistent academic performance in her M.Sc. and B.Sc. B.Ed programs further attests to her scholarly commitment. Although she has not yet received formal accolades, her research output and technical skills position her as a promising candidate for future recognition. With continued work in her areas of expertise, Ishika is well-positioned to receive formal awards and honors for her contributions to the field of chemistry.

Conclusion

Ishika Pal exemplifies the qualities of a dedicated and capable scholar in the field of chemistry. Her robust academic background, combined with practical experience in quality control and chemical research, underscores her readiness for advanced scientific inquiry. She has demonstrated expertise in organic synthesis, spectroscopy, and computational chemistry, supported by a strong command of laboratory techniques and analytical tools. Her research on GG-g-PAN-based hydrolyzed products and Guar Gum-based hydrogels reflects a commitment to solving real-world problems, particularly in environmental sustainability. While she has yet to receive formal awards, her work reflects a trajectory of academic excellence and innovation. Ishika’s interdisciplinary research interests, including chemosensors and positive psychology, further highlight her forward-thinking approach. To strengthen her profile, she could pursue additional publications, conference presentations, and collaborative research projects. With her analytical mindset, problem-solving capabilities, and technical proficiency, Ishika Pal is a promising candidate for the Best Scholar Award in Research. Her dedication to advancing chemical sciences and her aspiration for impactful discoveries make her a valuable contributor to the scientific community.

Publication Top Notes

  1. “Guar Gum: Superabsorbent Hydrogels for Dye Remediation”
  • Authors: Ishika Pal, Lalita Chopra, Subbulakshmi Ganesan, Girish Chandra Sharma, Abhijit Bhowmik, A. Johnson Santhosh
  • Year: 2025
  • Journal: Polymers for Advanced Technologies