Omvir Singh – Biomass upgardation – Best Researcher Award

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Omvir Singh - Biomass upgardation - Best Researcher Award

Rajiv gandhi Institute of Petroleum Technology - India

AUTHOR PROFILE

SCOPUS

🔬 EXPERT IN BIOMASS UPGRADATION AND CATALYTIC TECHNOLOGIES

Omvir Singh is an accomplished scientist specializing in the upgradation of unconventional feedstocks, biomass valorization, and heterogeneous catalysis. He earned his Ph.D. from the Academy of Scientific & Innovative Research (AcSIR) at the Indian Institute of Petroleum, Dehradun, where he focused on producing aromatic hydrocarbons from unconventional feedstocks under the supervision of Dr. Bipul Sarkar and Dr. Suman Lata Jain. His expertise in converting biomass and waste materials into valuable chemicals is at the forefront of sustainable chemical engineering.

🌱 CONTRIBUTIONS TO SUSTAINABLE ENERGY AND CHEMICAL PRODUCTION

At the Rajiv Gandhi Institute of Petroleum Technology, where he serves as an Assistant Professor, Omvir Singh is pioneering research on transforming tree-borne oils, plastic waste, and biomass into valuable chemicals like olefins and aromatics. His work aims to reduce environmental impacts by utilizing unconventional feedstocks and low-temperature CO2 hydrogenation processes, contributing to the development of sustainable and eco-friendly fuel alternatives.

🧪 EXPLORATION OF CO2 HYDROGENATION AND CATALYSIS

As a post-doctoral fellow at Kyushu University in Japan and the Indian Institute of Science in Bengaluru, Omvir Singh's research focused on the use of Single Atom Catalysts (SAC), Zeolite Imidazole Frameworks (ZIF), and Covalent Organic Frameworks (COF) for CO2 hydrogenation. His innovative work in the conversion of CO2 into value-added chemicals like methanol offers promising solutions for carbon capture and utilization, with the potential to address global environmental challenges.

🏆 ACADEMIC AND PROFESSIONAL ACHIEVEMENTS

Omvir Singh holds a Master’s degree in Organic Chemistry from SLIET Deemed University and a Bachelor’s degree in Chemistry from Ramjas College, University of Delhi. His professional journey includes several prestigious post-doctoral fellowships, where he has made significant strides in the fields of nanomaterials, catalytic processes, and sustainable energy solutions. His work in these areas has earned him recognition in academic and research communities worldwide.

📚 SCIENTIFIC PUBLICATIONS AND PATENTS

Omvir Singh has an impressive portfolio of scientific contributions, with 13 journal publications and 9 original scientific papers in refereed journals. His research has also led to the development of two patents related to catalyst and process innovation, underscoring his role as a leader in advancing chemical engineering solutions. His work has been showcased at numerous international conferences, highlighting his dedication to pushing the boundaries of scientific discovery.

🌍 ADVOCATE FOR ENVIRONMENTALLY FRIENDLY TECHNOLOGIES

Through his research on biomass upgradation and plastic waste valorization, Omvir Singh is making significant contributions to global sustainability efforts. His focus on developing low-impact chemical processes not only aims to reduce industrial waste but also promotes the use of renewable resources, positioning him as a key advocate for green technologies and environmental responsibility.

🔗 COMMITTED TO EDUCATION AND RESEARCH EXCELLENCE

In addition to his research, Omvir Singh is committed to fostering the next generation of scientists. As an educator and mentor at the Rajiv Gandhi Institute of Petroleum Technology, he continues to inspire students with his knowledge of catalytic technologies and sustainable chemical processes. His participation in academic courses and research internships further reflects his dedication to continuous learning and professional development.

NOTABLE PUBLICATION

Title: Synthesis of well-defined ester-linked covalent organic polymer and its potential applications in C–H bond activation
Authors: Devi, R., Singh, S., Rana, V.S., Gupta, N.K., Singh, A.P.
Journal: Journal of Photochemistry and Photobiology A: Chemistry
Year: 2024

Title: Sustainable Bioaromatics from Sapium Oil over Encaged AlPO4 Zeolite Material: A Feasibility Study
Authors: Singh, O., Ramteke, A.V., Joshi, B., Ray, A., Sarkar, B.
Journal: ACS Sustainable Chemistry and Engineering
Year: 2023

Title: Low-temperature selective production of propylene from non-oxidative dehydrogenation of propane over unconventional Zr/ZK-5 catalysts
Authors: Agrawal, A., Singh, O., Abraham, B.M., Ray, A., Sarkar, B.
Journal: Fuel Processing Technology
Year: 2022

Title: A comprehensive review on the synthesis techniques of porous materials for gas separation and catalysis
Authors: Sharma, V., Agrawal, A., Singh, O., Gopinathan, N., Gumfekar, S.P.
Journal: Canadian Journal of Chemical Engineering
Year: 2022

Title: Low-Temperature Nonoxidative Dehydrogenation of Propane over Sn-promoted Mo-Y Zeolite: Catalytic performance and nature of the active sites
Authors: Agrawal, A., Singh, O., Kumar Yadav, A., Pawar, V., Sarkar, B.
Journal: Fuel
Year: 2022

Syed Nasir Abbas – Sustainable Development – Best Researcher Award

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Syed Nasir Abbas - Sustainable Development - Best Researcher Award

University of Sargodha - Pakistan

AUTHOR PROFILE

SCOPUS

🎓 EDUCATIONAL BACKGROUND AND RESEARCH EXPERIENCE

Syed Nasir Abbas is an accomplished civil engineer with a deep focus on material science, particularly in the areas of concrete and composite materials. He has completed his BSc and MSc research, investigating crucial topics such as the "Relationship between Plasticity Index and Expansion Index" and the "Flexural Capacity of Brick – FRP Composite." His academic work laid the foundation for further explorations into the mechanical behavior of construction materials.

🔬 RESEARCH SUPERVISION AND TEACHING

With years of experience in the field, Syed Abbas has guided multiple research projects for both Civil Engineering and Civil Engineering Technology students. His supervision has led to the successful completion of various final-year projects, emphasizing the impact of alternative materials on concrete properties, such as the use of Waste Foundry Sand (WFS) to enhance compressive strength and workability.

🏗️ INNOVATIVE RESEARCH IN CONCRETE AND COMPOSITE MATERIALS

Syed Abbas has made significant contributions to understanding the mechanical properties of concrete by integrating recycled materials. His groundbreaking work includes investigating the use of high-density polyethylene (HDPE), electronic waste (e-waste), and fly ash-based geo polymer concrete. These studies aim to improve the sustainability and performance of modern construction materials, which are vital for the future of civil engineering.

📚 PUBLISHED WORKS AND SCIENTIFIC CONTRIBUTIONS

Syed Abbas has published several papers in reputed journals, such as MDPI Sustainability and Science International Lahore. His research covers a wide range of topics, from flexural behavior of brick-FRP composites to the mechanical properties of concrete with alternative aggregates like HDPE and fly ash. His work highlights the potential for more sustainable and efficient construction materials.

🌍 SUSTAINABLE BUILDING MATERIALS

A core aspect of Syed Abbas’s research is sustainability in construction. His investigations into the use of recycled and alternative materials, including the combined effect of silica fume and various fibers, showcase his dedication to reducing the environmental impact of concrete production. This focus aligns with global efforts to promote eco-friendly and sustainable building practices.

🧱 EXPERIMENTAL STUDIES ON CONCRETE PERFORMANCE

Syed Abbas has conducted numerous experimental studies aimed at improving concrete’s compressive strength and overall performance. By exploring the effects of different compaction methods, admixtures, and the partial replacement of cement with silica fume, he continues to push the boundaries of material science in civil engineering.

🏆 AWARDS AND RECOGNITION IN THE FIELD

Through his dedication and innovative approach, Syed Abbas has earned recognition in the civil engineering community. His research not only contributes to the academic understanding of material properties but also offers practical solutions for improving construction techniques and building sustainability in the modern world.

NOTABLE PUBLICATION

Title: Combined effect of silica fume and various fibers on fresh and hardened properties of concrete incorporating HDPE aggregates
Authors: S.N. Abbas, M.I. Qureshi, M.K. Alkharisi, M. Alturki, Z. Ahmad
Journal: Construction and Building Materials
Year: 2024

Title: An Investigation of Mechanical Properties of Fly Ash Based Geopolymer and Glass Fibers Concrete
Authors: S.N. Abbas, M.I. Qureshi, M.M. Abid, A. Zia, M.A.U.R. Tariq
Journal: Sustainability (Switzerland)
Year: 2022

Title: An Investigation of Mechanical Properties of Concrete by Applying Sand Coating on Recycled High-Density Polyethylene (HDPE) and Electronic-Wastes (E-Wastes) Used as a Partial Replacement of Natural Coarse Aggregates
Authors: S.N. Abbas, M.I. Qureshi, M. Abid, M.A.U.R. Tariq, A.W.M. Ng
Journal: Sustainability (Switzerland)
Year: 2022

ZAFARULLAH NIZAMANI – Renewable energy – Sustainable Infrastructure Innovation Award

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ZAFARULLAH NIZAMANI - Renewable energy - Sustainable Infrastructure Innovation Award

Universiti Tunku Abdul Rahman - Malaysia

AUTHOR PROFILE

SCOPUS

HEAD OF DEPARTMENT OF ENVIRONMENTAL ENGINEERING:

ZAFARULLAH NIZAMANI serves as the Head of the Department of Environmental Engineering, overseeing two undergraduate programs: the Bachelor of Civil Engineering (Environmental) and the Bachelor of Science in Occupational Health, Safety, and Environmental Health. In this leadership role, he shapes the department's academic direction and ensures its prominence within the university and the broader community.

ACADEMIC LEADERSHIP AND CURRICULUM DEVELOPMENT:

As chairperson of the Curriculum Development Committee, ZAFARULLAH is responsible for designing and updating curricula to meet academic and industry standards. He ensures that syllabi are reviewed every three years or sooner if necessary, to incorporate the latest developments and maintain relevance.

DEPARTMENT SUPERVISION AND RESEARCH PROMOTION:

ZAFARULLAH manages and leads the department staff, including hiring, mentoring, and evaluating performance. He actively promotes research within the department, encouraging staff to seek internal and external grants, and supports the advancement of research activities among both faculty and students.

STRATEGIC PLANNING AND PROGRAM ENHANCEMENT:

ZAFARULLAH sets strategic goals for the department, aligning them with the university's mission and vision. He identifies opportunities for program growth and improvement based on emerging industry trends and academic advancements, ensuring that the programs evolve to meet future challenges.

COLLABORATION AND NETWORKING:

ZAFARULLAH establishes and maintains strong connections with industry partners and professionals. He coordinates visits from external examiners and ensures all preparations for their assessments are meticulously handled. Additionally, he organizes biannual meetings with the Industry Advisory Panel, using their feedback to enhance program quality and relevance.

ACCREDITATION AND COMPLIANCE:

ZAFARULLAH ensures that the civil engineering program meets the accreditation standards of the Board of Engineers Malaysia and is working towards acquiring accreditation from the Department of Occupational, Safety and Health Malaysia for the Occupational Health & Safety and Environmental Health program. He stays informed about and ensures compliance with regulations from the Malaysian Qualification Agency (MQA).

INTERDEPARTMENTAL COLLABORATION:

ZAFARULLAH fosters interdisciplinary initiatives and research projects by collaborating with other departments within the university. This collaboration helps to integrate diverse perspectives and enhance the overall academic experience and research output of the department.

NOTABLE PUBLICATION

Optimization of mooring line design parameters using Mooring Optimization Tool for FPSO (MooOpT4FPSO) with the consideration of integrated design methodology
Authors: Ja'e, I.A., Ahmed Ali, M.O., Yenduri, A., Nizamani, Z., Nakayama, A.
Year: 2022
Journal: Ocean Engineering

Geospatial analysis of river flood hazard assessment
Authors: Soomro, R.A., Nizamani, Z., Nakayama, A., Tan, K.W.
Year: 2022
Conference: E3S Web of Conference

Determination of structural reliability of a reinforced concrete slab under fire load
Authors: Zafarullah, N., Eltigani, A., Nakayama, A., Bilal, H.S.M.
Year: 2022
Conference: E3S Web of Conferences

Effect of Various Mooring Materials on Hydrodynamic Responses of Turret-Moored FPSO with Emphasis on Intact and Damaged Conditions
Authors: Ja’e, I.A., Ali, M.O.A., Yenduri, A., Nizamani, Z., Nakayama, A.
Year: 2022
Journal: Journal of Marine Science and Engineering

Optimisation of mooring line parameters for offshore floating structures: A review paper
Authors: Ja'e, I.A., Osman Ahmed Ali, M., Yenduri, A., Nizamani, Z., Nakayama, A.
Year: 2022
Journal: Ocean Engineering

Mohammad Mirzehi – Life Cycle Assessment – Best Researcher Award

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Mohammad Mirzehi - Life Cycle Assessment - Best Researcher Award

Tarbiat Modares - Iran

AUTHOR PROFILE

GOOGLE SCHOLAR

Based on the provided information about Mohammad Mirzehi, he appears to be a strong candidate for the Research for Community Impact Award for several reasons:

RESEARCH FOCUS AND IMPACT

Mohammad's research focuses on optimizing mine planning and operations using advanced techniques such as operations research, data science, and machine learning. His work includes addressing environmental concerns like greenhouse gas emissions and dust through innovative planning strategies.

EXPERIENCE AND EXPERTISE:

With four years of experience in mining engineering research, Mohammad has contributed significantly to projects involving open-pit and underground mining operations. His involvement in projects like sustainable stochastic long-term planning of open-pit mines demonstrates a commitment to integrating environmental considerations into mining practices.

PUBLICATION RECORD:

Mohammad has publications that showcase his innovative approach, such as developing novel models for short-term planning in open-pit mines and forecasting copper prices using advanced algorithms. These publications indicate his ability to produce impactful research outputs that can influence both academic and industry practices.

ACADEMIC ENGAGEMENT:

As a Research Assistant and Teacher Assistant at Tarbiat Modares University, Mohammad has actively collaborated on various mining engineering projects and courses. His teaching role also underscores his commitment to sharing knowledge and fostering the next generation of mining engineers.

TRACK RECORD OF IMPACTFUL RESULTS:

Mohammad's track record includes addressing real-world challenges in mining operations, from optimizing equipment performance to incorporating geo-metallurgical uncertainty in planning. His work in revitalizing ecosystems affected by mining activities further demonstrates a holistic approach to sustainable mining practices.

IN CONCLUSION

Mohammad Mirzehi's blend of technical expertise, commitment to sustainability, and impactful research outcomes makes him a suitable candidate for the Research for Community Impact Award. His contributions not only advance the field of mining engineering but also promote environmentally responsible practices within the industry.

NOTABLE PUBLICATION

A hybrid model for back-break prediction using XGBoost machine learning and metaheuristic algorithms in Chadormalu iron mine 2023 (11)

Prediction of blast-induced air overpressure using a hybrid machine learning model and gene expression programming (GEP): a case study from an iron ore mine 2023 (8)

A novel hybrid XGBoost methodology in predicting penetration rate of rotary based on rock-mass and material properties 2024 (6)

Sustainable long-term production planning of open pit mines: An integrated framework for concurrent economical and environmental optimization 2024

Reliable novel hybrid extreme gradient boosting for forecasting copper prices using meta-heuristic algorithms: A thirty-year analysis 2024

Application of XGB-based metaheuristic techniques for prediction time-to-failure of mining machinery 2023 (2)

C. Dineshkumar – Wind Turbine System – Best Researcher Award

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C. Dineshkumar - Wind Turbine System - Best Researcher Award

Kunsan National University - South Korea

AUTHOR PROFILE

Scopus
Google Scholar

EARLY ACADEMIC PURSUITS

Dr. C. Dineshkumar embarked on his academic journey with a Bachelor of Science in Mathematics, laying the foundation for his future scholarly endeavors. His passion for mathematics led him to pursue advanced degrees, culminating in a Ph.D. in Mathematics from VIT University, where he delved into the study of approximate controllability for fractional stochastic differential systems.

PROFESSIONAL ENDEAVORS

With a strong background in mathematics, Dr. Dineshkumar has dedicated himself to research and teaching. He has served as a dedicated researcher and professor, contributing impactful publications and fostering an engaging learning environment. His expertise in MATLAB, R Programming, and Latex, combined with his strong analytical skills, has enabled him to excel in his field.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Dineshkumar's research focus spans a wide range of topics in mathematics, with a particular emphasis on fractional stochastic systems and cellular algebras. His work on approximate controllability and symmetrizability has been published in reputable journals and presented at conferences, contributing to the advancement of mathematical knowledge.

IMPACT AND INFLUENCE

Through his research and scholarly activities, Dr. Dineshkumar has made significant contributions to the field of mathematics. His publications have garnered citations and recognition, highlighting their impact on the academic community. As a reviewer and editorial board member for various journals, he continues to shape the direction of mathematical research.

ACADEMIC CITES

Dr. Dineshkumar's research findings have been cited in prominent journals, reflecting their relevance and influence in the field of mathematics. His work on symmetrizability and fractional calculus has contributed to the development of new mathematical techniques and methodologies.

LEGACY AND FUTURE CONTRIBUTIONS

As a dedicated researcher and professor, Dr. Dineshkumar's legacy is defined by his commitment to excellence in research and education. His future contributions are poised to further advance our understanding of complex mathematical systems and inspire future generations of mathematicians. With a focus on topics such as wind turbine systems, he continues to push the boundaries of mathematical knowledge and innovation.

NOTABLE PUBLICATION

Results on approximate controllability of neutral integro‐differential stochastic system with state‐dependent delay 2024 (26)

Results on approximate controllability for fractional stochastic delay differential systems of order  2023 (2)

A note concerning to approximate controllability of Atangana–Baleanu fractional neutral stochastic integro‐differential system with infinite delay 2023 (4)

Results on approximate controllability of fractional stochastic Sobolev‐type Volterra–Fredholm integro‐differential equation of order 1 < r < 2 2022 (19)

New discussion about the approximate controllability of fractional stochastic differential inclusions with order 1<r<2 2021 (31)

Sadia Siddiqa – Renewable energy – Best Researcher Award

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Sadia Siddiqa - Renewable energy - Best Researcher Award

University of Ulsan - South Korea

AUTHOR PROFILE

Google Schalor

EARLY ACADEMIC PURSUITS

Sadia Siddiqa embarked on a journey of academic excellence, culminating in a Ph.D. in Computational Fluid Dynamics (CFD) from the COMSATS Institute of Information Technology, Pakistan. Her research during her Ph.D. focused on the convection flow of viscous fluid, showcasing her early dedication to understanding complex fluid dynamics phenomena.

PROFESSIONAL ENDEAVORS

Sadia Siddiqa's career is marked by significant contributions to academia and research. From her role as an Assistant Professor at COMSATS University Islamabad to her tenure as a Research Assistant Professor at the University of Ulsan, South Korea, Sadia has demonstrated a commitment to advancing knowledge in the field of mathematics and fluid dynamics.

CONTRIBUTIONS AND RESEARCH FOCUS

Sadia's research interests encompass a broad spectrum of topics within computational fluid dynamics, including external and internal flows, turbulence modeling, renewable energy applications, and artificial intelligence. Her extensive research portfolio reflects her dedication to addressing pressing challenges in fluid mechanics and renewable energy through innovative computational approaches.

IMPACT AND INFLUENCE

Sadia Siddiqa's research has made a significant impact on the scientific community, as evidenced by her numerous publications in reputable journals and conference proceedings. With a substantial number of citations and a commendable H-index, Sadia's work has been widely recognized and cited by her peers, indicating its influence and importance in the field.

ACADEMIC CITES

Sadia's research contributions have been widely cited within the academic community, reflecting the significance and relevance of her work in computational fluid dynamics and renewable energy. Her impressive publication record and citation metrics underscore her status as a respected authority in her field.

LEGACY AND FUTURE CONTRIBUTIONS

Sadia Siddiqa's vision for the future is centered around continued excellence in research and education. Through her ongoing research endeavors and commitment to mentorship, Sadia aims to contribute to the advancement of knowledge in computational fluid dynamics and renewable energy, leaving a lasting legacy of innovation and impact in her field.

NOTABLE PUBLICATION

Effects of heat source and sink on entropy generation and MHD natural convection of Al2O3-Cu/water hybrid nanofluid filled with square porous cavity 2018 (175)

Heat source/sink effects on a hybrid nanofluid-filled porous cavity 2017 (109)

Numerical solutions of nanofluid bioconvection due to gyrotactic microorganisms along a vertical wavy cone 2016 (95)

Numerical treatments to analyze the nonlinear radiative heat transfer in MHD nanofluid flow with solar energy 2020 (67)

Periodic magnetohydrodynamic natural convection flow of a micropolar fluid with radiation 2017 (65)

Da Xu – Urban power system planning – Best Researcher Award

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Da Xu - Urban power system planning - Best Researcher Award

China University of Geosciences - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Da Xu's academic journey reflects a commitment to excellence in electrical engineering, beginning with his Bachelor's degree in Automation from Wuhan University of Technology and culminating in a Doctor of Philosophy from Hunan University. Under the guidance of esteemed supervisors, Xu honed his skills and developed a strong foundation in his field.

PROFESSIONAL ENDEAVORS

As an Associate Professor at China University of Geosciences, Wuhan, and a former Post-Doctoral Fellow at the University of Macau, Xu has demonstrated a dedication to academic research and teaching. His diverse experiences, including a research assistantship at The Hong Kong Polytechnic University, have enriched his perspective and contributed to his expertise in urban power system planning.

CONTRIBUTIONS AND RESEARCH FOCUS

Xu's research interests revolve around the planning and operation of smart grids with renewable energy sources, as well as multi-carrier energy systems. His innovative work has led to advancements in the optimization of energy systems, with a focus on promoting sustainability and resilience in urban power infrastructure.

IMPACT AND INFLUENCE

Through his extensive publication record in prestigious journals and his participation in academic conferences, Xu has made a significant impact on the field of electrical engineering. His research findings have practical implications for the development of efficient and sustainable energy solutions, influencing policymakers and industry professionals alike.

ACADEMIC CITES

Xu's scholarly contributions have garnered attention within the academic community, as evidenced by the citations his publications have received. His work serves as a cornerstone for further exploration and development in the realm of urban power system planning and renewable energy integration.

LEGACY AND FUTURE CONTRIBUTIONS

As Xu continues his academic journey, his focus on urban power system planning remains central to his research agenda. Through ongoing projects and collaborations, he seeks to address pressing challenges in energy sustainability and contribute to the realization of a cleaner and more resilient energy future. His legacy will be defined by his dedication to advancing knowledge and fostering innovation in the field of electrical engineering.

NOTABLE PUBLICATION

Fixed-time/Preassigned-time Dynamic Surface Control of Power Systems with Capacitive-coupled STATCOM 2024

A Cascaded Multilevel Battery Energy Storage Based Parallel Dynamic Voltage Compensator for Medium Voltage Industrial Distribution Systems 2024 (1)

Peer-to-Peer Transactive Computation–Electricity Trading for Interconnected Virtual Power Plant Buildings 2023

A Centralized Battery Energy Storage-Based Medium-Voltage Multiwinding DVC for Balance and Unbalance Operations 2023 (3)

Iris Mohr – Sustainable Fashion – Best Researcher Award

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Dr. Iris Mohr - Sustainable Fashion - Best Researcher Award

St. John’s University - United States

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Dr. Iris Mohr embarked on her academic journey with a Bachelor of Science in Business Administration from the State University of New York at Albany, majoring in Marketing. She further pursued her education with a Master's degree in Communication from Hebrew University, Jerusalem, focusing on Advertising.

PROFESSIONAL ENDEAVORS

Dr. Iris Mohr's professional journey is marked by her significant contributions to academia, particularly in the field of Marketing. She has served in various roles at St. John's University, including Full Professor, Chair of the Marketing Department, Associate Professor, and Assistant Professor. Additionally, she has taught courses at prestigious institutions globally, including Tel Aviv University in Israel, the University of St. Gallen in Switzerland, and Universidad de la Sabana in Columbia.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Iris Mohr's research interests encompass a wide range of topics within the realm of Marketing, with a particular focus on Sustainable Fashion. She has made significant contributions to the field through her research on retailing, fashion, videography, social media, buzz marketing, and sustainability. Her work reflects a deep understanding of consumer behavior and societal trends, addressing pressing issues such as generational differences and environmental impact.

IMPACT AND INFLUENCE

Dr. Iris Mohr's research findings have had a profound impact on the discipline of Marketing, particularly in shaping conversations around sustainable fashion and societal marketing. Her work has been recognized globally, leading to invitations to prestigious film festivals and conferences. Additionally, her service contributions, such as directing award-winning documentaries like "SUSTAINUP," have raised awareness about the environmental and social implications of the fashion industry.

ACADEMIC CITES

Dr. Iris Mohr's research publications have been widely cited in the academic community, underscoring the significance of her contributions to the field. Her work on sustainable fashion has garnered attention for its innovative approach and practical implications for industry stakeholders.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Iris Mohr's legacy in academia is characterized by her dedication to advancing knowledge and fostering critical dialogue in the field of Marketing, with a particular emphasis on sustainable fashion. Her future contributions are poised to further shape the discourse around consumer behavior, societal marketing, and environmental sustainability, driving positive change within the fashion industry and beyond.

NOTABLE PUBLICATION

Beyond the box office: A conceptual framework for the drivers of audience engagement.  2022 (3)