Brenda Yanin Azcárraga Salinas | Bioenergy | Best Researcher Award

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Prof. Brenda Yanin Azcárraga Salinas | Bioenergy | Best Researcher Award

PhD student | Instituto Politécnico Nacional | Mexico

Dr. Brenda Yanin Azcárraga Salinas is a distinguished biotechnology researcher specializing in microalgal bioprocesses, environmental biotechnology, and the circular bioeconomy. Her work focuses on transforming agro-industrial and livestock residues into biodiesel, bioactive compounds, and biostimulants, contributing to sustainable energy production and waste valorization. With a strong foundation in analytical chemistry and applied biotechnology, she combines precision in techniques such as HPLC, GC-MS, FTIR, and UV-Vis spectroscopy with innovative approaches to green process design. Her research explores the production of value-added compounds from Scenedesmus obliquus and Chlorella vulgaris cultivated in organic waste-based media, the generation of phytohormones through anaerobic digestion, and the development of biofertilizers derived from microalgal biomass. She has authored and co-authored multiple peer-reviewed publications on renewable bioenergy, green chemistry, and sustainable agriculture, collaborating with national and institutional research networks to advance environmental biotechnology and clean energy innovations. Through her interdisciplinary work, she promotes the development of circular, low-carbon solutions aligned with global sustainability goals. Dr. Azcárraga’s academic excellence and research influence are reflected in her growing global recognition, with 1,117 citations, 33 publications, and an h-index of 9, underscoring her impactful contributions to the advancement of environmental biotechnology and circular bioeconomy.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate 

Featured Publications

1. Solís, M., Solís, A., Pérez, H. I., Manjarrez, N., & Flores, M. (2012). Microbial decolouration of azo dyes: A review. Process Biochemistry, 47(12), 1723–1748. Cited by: 1,026

2. Butrón, E., Juárez, M. E., Solis, M., Teutli, M., González, I., & Nava, J. L. (2007). Electrochemical incineration of indigo textile dye in filter-press-type FM01-LC electrochemical cell using BDD electrodes. Electrochimica Acta, 52(24), 6888–6894. Cited by: 101

3. Solís-Oba, M., Ugalde-Saldívar, V. M., González, I., & Viniegra-González, G. (2005). An electrochemical–spectrophotometrical study of the oxidized forms of the mediator 2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid) produced by immobilized laccase. Journal of Electroanalytical Chemistry, 579(1), 59–66. Cited by: 97

4. Solís-Oba, M., Teniza-García, O., Rojas-López, M., & Delgado-Macuil, R. (2011). Application of infrared spectroscopy to the monitoring of lactose and protein from whey after ultra and nano filtration process. Journal of the Mexican Chemical Society, 55(3), 190–193. Cited by: 37

5. Castro Rivera, R., Solís Oba, M. M., Chicatto Gasperín, V., & Solís Oba, A. (2020). Producción de biogás mediante codigestión de estiércol bovino y residuos de cosecha de tomate (Solanum lycopersicum L.). Revista Internacional de Contaminación Ambiental, 36(3), 529–539. Cited by: 34

Dr. Brenda Yanin Azcárraga Salinas advances sustainable biotechnology by transforming organic waste into renewable energy and high-value bioproducts, fostering circular bioeconomy solutions that mitigate environmental impact. Her research bridges science and industry, driving global innovation in green technologies and sustainable resource management.

Ao Wang | Biomass | Best Researcher Award

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Dr. Ao Wang | Biomass | Best Researcher Award

Institute of Chemical Industry of Forest Products, Chinese Academy of Forestry | China

Dr. Ao Wang is an Associate Research Fellow at the Institute of Chemical Industry of Forest Products, Chinese Academy of Forestry (CAF) and currently serves as a visiting scholar at Nanyang Technological University, fostering international research collaborations. His professional expertise centers on the preparation and application of advanced functional carbon materials derived from biomass, with a particular focus on electrochemical energy storage. He has led major research projects, including national key programs and fundamental research initiatives at CAF. Dr. Wang’s contributions include elucidating the evolution mechanism of carbon microcrystals during lignin and cellulose pyrolysis, demonstrating that the isotropy of carbon crystal seeds drives the ordered growth of graphite-like microcrystals, and revealing the critical influence of catalyst-induced pore sizes on the formation of closed pore structures in energy storage carbon materials. He has published over 30 articles in high-impact journals such as Progress in Materials Science, Advanced Functional Materials, and Carbon Energy, and has been granted 8 invention patents. His research skills encompass biomass carbon material synthesis, catalytic carbonization, pore structure engineering, and electrochemical characterization for lithium-ion and sodium-ion batteries, as well as supercapacitors. Dr. Wang continues to advance the field of biomass-derived carbon materials for energy storage, demonstrating a strong commitment to sustainable energy solutions and functional material innovation, with a documented record of 1,899 citations, 99 documents, and an h-index of 24.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Fan, M., Yuan, Q., Zhao, Y., Wang, Z., Wang, A., Liu, Y., Sun, K., Wu, J., Wang, L., … (2022). A facile “double‐catalysts” approach to directionally fabricate pyridinic N–B‐pair‐doped crystal graphene nanoribbons/amorphous carbon hybrid electrocatalysts for efficient … Advanced Materials, 34(13), 2107040. Cited by 163.

2. Fan, M., Wang, Z., Sun, K., Wang, A., Zhao, Y., Yuan, Q., Wang, R., Raj, J., Wu, J., … (2023). N–B–OH site-activated graphene quantum dots for boosting electrochemical hydrogen peroxide production. Advanced Materials, 35(17), 2209086. Cited by 150.

3. Wang, A., Sun, K., Xu, R., Sun, Y., Jiang, J. (2021). Cleanly synthesizing rotten potato-based activated carbon for supercapacitor by self-catalytic activation. Journal of Cleaner Production, 283, 125385. Cited by 118.

4. Chen, C., Sun, K., Huang, C., Yang, M., Fan, M., Wang, A., Zhang, G., Li, B., Jiang, J., … (2023). Investigation on the mechanism of structural reconstruction of biochars derived from lignin and cellulose during graphitization under high temperature. Biochar, 5(1), 51. Cited by 66.

5. Cao, M., Liu, Y., Sun, K., Li, H., Lin, X., Zhang, P., Zhou, L., Wang, A., Mehdi, S., … (2022). Coupling Fe3C nanoparticles and N‐doping on wood-derived carbon to construct reversible cathode for Zn–Air batteries. Small, 18(26), 2202014. Cited by 58.

 

Tesfa Nega Gesese | Bioenergy | Best Researcher Award

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Mr. Tesfa Nega Gesese | Bioenergy | Best Researcher Award

Lecturer and Bioenergy research group coordinator | Bahir Dar University | Ethiopia

Mr. Tesfa Nega Gesese is a Lecturer and Bioenergy Research Group Coordinator at Bahir Dar Institute of Technology, Bahir Dar University, Ethiopia, with over seven years of teaching and research experience. He holds an M.Sc. in Chemical Engineering and has built a strong academic foundation in renewable energy, waste valorisation, and greenhouse gas mitigation. His professional experience includes serving as a lecturer, course chair, and project leader, where he has coordinated large-scale research initiatives such as the mega project on integrated production of bioethanol, bio-hydrogen, and biogas from sesame stalk feedstock, as well as thematic research on computational modelling of anaerobic digestion and photosynthetic algae integration. His research interests span biomass valorisation, biofuels, pyrolysis, gasification, bio-composite materials, and sustainable energy systems. He has demonstrated advanced research skills in biomass pyrolysis kinetics, waste-to-energy conversion, and the development of renewable energy pathways tailored to local resources. Mr. Tesfa has authored and co-authored more than 15 peer-reviewed publications indexed in Scopus and Web of Science, focusing on biomass conversion technologies, bio-based materials, and environmental sustainability. His leadership role as a bioenergy research coordinator has enabled him to foster collaborative research, mentor young scholars, and deliver impactful solutions addressing Ethiopia’s energy challenges. He has also contributed to the scientific community as a reviewer for international journals and as a member of the Society of Ethiopian Chemical Engineers. His dedication to research excellence has earned recognition through funded research projects and academic achievements that align with global sustainability goals. Overall, Mr. Tesfa is committed to advancing bioenergy innovation, expanding international collaborations, and influencing policy toward clean energy transitions. Mr. Tesfa Nega Gesese’s growing academic impact is reflected in 26 citations, 10 documents, and an h-index of 3, demonstrating his emerging influence in the field of bioenergy and sustainable engineering.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate

Featured Publications

1. Mersha, D. A., Gesese, T. N., Sendekie, Z. B., Admase, A. T., & Bezie, A. J. (2024). Operating conditions, products and sustainable recycling routes of aminolysis of polyethylene terephthalate (PET)–A review. Polymer Bulletin, 81(13), 11563–11579. Cited by: 20

2. Bantie, Z., Tezera, A., Abera, D., & Nega, T. (2024). Nanoclays as fillers for performance enhancement in building and construction industries: State of the art and future trends. In Developments in Clay Science and Construction Techniques. Cited by: 11

3. Gesese, T. N., Fanta, S. W., Mersha, D. A., & Satheesh, N. (2022). Physical properties and antibacterial activity of cotton fabric treated with methanolic extracts of Solanum incanum fruits and red onion peels. The Journal of The Textile Institute, 113(2), 292–302. Cited by: 6

4. Gesese, T. N., Getahun, E., & Getahun, A. A. (2024). Investigation of thermal degradation properties and chemical kinetic characteristics of biomass pyrolysis via TG/DTG and FTIR techniques: Sesame stalks as a potential source. International Journal of Energy Research, 2024(1), 8891126. Cited by: 4

5. Gesese, T. N., Getahun, E., & Getahun, A. A. (2025). Pyrolysis kinetics, thermodynamics, and reaction performance of wheat straw and water hyacinth using TGA‐DTG analysis: Bioenergy potential in Ethiopia. Biofuels, Bioproducts and Biorefining, 19(3), 705–729.  Cited by: 2

 

Valeria Cafaro | Bioenergy | Best Researcher Award

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Dr. Valeria Cafaro | Bioenergy | Best Researcher Award

Post – Doc researcher | National Research Council of Italy – Institute of BioEconomy| Italy

Dr. Valeria Cafaro is a dedicated Post-Doctoral Researcher at the National Research Council of Italy – Institute of BioEconomy (CNR–IBE), Catania, Sicily, specializing in crop physiology, sustainable agronomic practices, and genetic improvement of Mediterranean crops under abiotic stress. She holds a Ph.D. in Agricultural, Food, and Environmental Science (Doctor Europaeus, University of Catania), where her research focused on strategies to improve crop resilience and productivity under challenging climate conditions. Professionally, she contributes to the Agritech PNRR project on tomato adaptation to climate change and collaborates on research initiatives including Multicanapa and Ricinolio. Her research interests encompass plant adaptation to drought, salinity, and climate variability, seed biology, sowing optimization, and integrating molecular tools with field experimentation to improve yield, quality, and nutraceutical properties. Dr. Cafaro’s research skills include advanced plant phenotyping, statistical data analysis, experimental design, and development of sustainable crop management protocols. She has authored 11 peer-reviewed articles in Scopus/WoS-indexed journals, with one under review, and presented over 20 contributions at international conferences such as SIA, SOI, EUBCE, and ISHS, earning multiple awards for excellence in plant physiology and agronomy research. She serves as Guest Editor for Horticulturae (Special Issue: “Seed Biology in Horticulture: From Dormancy to Germination”) and peer reviewer for reputed journals including Agronomy, Plants, and International Journal of Molecular Sciences. Professionally, she is a member of the Società Italiana di Agronomia (SIA) and holds formal qualifications as Agronomist and Biologist. Dr. Cafaro’s growing academic impact is reflected in 59 citations, 15 documents, and an h-index of 5, demonstrating her significant and sustained influence in the field of crop physiology and climate-resilient agriculture.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn 

Featured Publications

1. Badagliacca, G., Testa, G., La Malfa, S. G., Cafaro, V., Lo Presti, E., & Monti, M. (2024). Organic fertilizers and bio-waste for sustainable soil management to support crops and control greenhouse gas emissions in Mediterranean agroecosystems: A review. Horticulturae, 10(5), 427. Cited by: 28

2. Arlotta, C., Ciacciulli, A., Strano, M. C., Cafaro, V., Salonia, F., Caruso, P., & Others. (2020). Disease resistant citrus breeding using newly developed high resolution melting and CAPS protocols for Alternaria brown spot marker assisted selection. Agronomy, 10(9), 1368. Cited by: 24

3. Cafaro, V., Alexopoulou, E., Cosentino, S. L., & Patanè, C. (2023). Germination response of different castor bean genotypes to temperature for early and late sowing adaptation in the Mediterranean regions. Agriculture, 13(8), 1569. Cited by: 12

4. Lippolis, A., Gezan, S. A., Zuidgeest, J., Cafaro, V., van Dinter, B. J., Elzes, G., & Others. (2025). Targeted genotyping (90K-SPET) facilitates genome-wide association studies and the prediction of yield-related traits in faba bean (Vicia faba L.). BMC Plant Biology, 25(1), 558. Cited by: 3

5. Cafaro, V., Alexopoulou, E., Cosentino, S. L., & Patanè, C. (2023). Assessment of germination response to salinity stress in castor through the hydrotime model. Agronomy, 13(11), 2783. 
Cited by: 6

Renjith Krishnan | Bioenergy | Young Researcher Award

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Dr. Renjith Krishnan | Bioenergy | Young Researcher Award   

R&D Engineer | Nasser S. Al Hajri Corporation | United Arab Emirates

Dr. Renjith Krishnan is a distinguished mechanical engineer and educator with nearly a decade of experience in science and engineering, specializing in sustainable energy, waste management, biofuel production, lithium-ion batteries, and Industry 5.0 applications. He earned his Ph.D. in Mechanical Engineering from the National Institute of Technology Mizoram, India (2022), with a thesis on the production, characterization, and testing of bamboo biodiesel in a variable compression ratio engine. He also holds an M.Tech in Computer Integrated Manufacturing from the University of Calicut (2015) and a B.Tech in Mechanical Engineering from the University of Kerala (2013). Dr. Krishnan has served in multiple academic and industry roles, including Assistant Professor positions at Saveetha Engineering College, Madanapalle Institute of Technology & Science, and SHM Engineering College, as well as R&D Piping Engineer at Nasser S. Al Hajri Corporation, UAE. His research interests encompass biofuels, biomass gasification, lithium extraction, machine learning for sustainability, and clean energy systems. He possesses strong research skills in experimental design, process optimization, computational modeling, and data analysis using tools such as Ansys, SolidWorks, Origin, and Python. Dr. Krishnan has an impressive publication record, including Q1 and Q2 journals such as Cleaner Engineering and Technology, Energy Science & Engineering, and Environmental Science and Pollution Research, along with 14 patents in areas ranging from water flow measurement to portable air purifiers. He actively contributes to professional communities as a member of the World Society of Sustainable Energy Technologies and AICTSD and has completed certifications in AI, Python, and Product Management. Dr. Krishnan is committed to mentoring students and fostering innovation in academia and industry. He is the recipient of multiple recognitions for his teaching and research. His growing academic impact is reflected in 80 citations, 9 documents, and an h-index of 4, demonstrating his significant and sustained influence in the field of sustainable energy and mechanical engineering.

Profiles: Google Scholar | Scopus | ORCID | LinkedIn

Featured Publications

1. Krishnan, R., & Gopan, G. (2024). A comprehensive review of lithium extraction: From historical perspectives to emerging technologies, storage, and environmental considerations. Cleaner Engineering and Technology, 20, 100749. Cited by: 64

2. Krishnan, R., Hauchhum, L., Gupta, R., & Pattanayak, S. (2018). Prediction of equations for higher heating values of biomass using proximate and ultimate analysis. In 2nd International Conference on Power, Energy and Environment: Towards Smart Technology. IEEE.  Cited by: 28

3. Gopan, G., Hauchhum, L., Pattanayak, S., Kalita, P., & Krishnan, R. (2022). Prediction of species concentration in syngas produced through gasification of different bamboo biomasses: A numerical approach. International Journal of Energy and Environmental Engineering, 13(4), 1383–1394. Cited by: 9

4. Krishnan, R., Hauchhum, L., Gupta, R., & Gopan, G. (2022). Production and characterisation of biodiesel extracted from Indian bamboos. International Journal of Oil, Gas and Coal Technology, 31(3), 316–331. Cited by: 6

5. Gopan, G., Hauchhum, L., Kalita, P., Krishnan, R., & Pattanayak, S. (2021). Parametric study of tapered fluidized bed reactor under varied taper angle using TFM. AIP Conference Proceedings, 2396(1), 020020. Cited by: 4

 

Miftah Fekadu Kedir | Bioenergy | Best Researcher Award

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Dr. Miftah Fekadu Kedir | Bioenergy | Best Researcher Award

Researcher | Ethiopian Forestry Development | Ethiopia

Dr. Miftah Fekadu Kedir, a distinguished researcher at Ethiopian Forestry Development, holds a Ph.D. in Bioenergy Development and Climate Change, an M.Sc. in Tropical Forestry, and a B.Sc. in General Forestry. With extensive experience in socio-economic and policy impact assessment, climate innovation, sustainable renewable energies, and carbon management, he has significantly contributed to Ethiopia’s green energy and climate adaptation initiatives. Dr. Kedir has led and coordinated national and international projects, including the National Industrial Forest Plantation Project, the National Climate Change Adaptation Research Division, and collaborative work with the African Forest Forum, DAAD, SNV, and the Barr Foundation (USA). His research focuses on bioenergy, improved biomass cookstoves, biogas, liquid biofuels, carbon storage, and greenhouse gas emission measurement, integrating policy, technological innovation, and socio-economic assessment. He has published 22 peer-reviewed articles in reputed journals such as Frontiers in Environmental Science, JAEID, Bionatura, and Sustainable Forestry, authored one book (ISBN: 978-3-659-56185-6), and contributed to multiple consultancy and industry projects on biogas, biofuels, and cookstoves. His work has demonstrated measurable impacts on indoor air quality, carbon emissions, deforestation, and sustainable energy adoption, while identifying key challenges in liquid biofuel production and policy implementation. As a mentor and educator, he has guided students in ATVET colleges and promoted capacity-building in forestry and renewable energy sectors. Dr. Kedir is a member of professional organizations including the African Forest Forum, Association of Ethiopian Soil Society, and AEGE, reflecting his commitment to advancing research and knowledge exchange. His growing academic impact is reflected in 22 citations by 22 documents, 2 indexed publications, and an h-index of 2, demonstrating his significant and sustained influence on bioenergy and climate change research.

Profiles: Google Scholar | ScopusORCID

Featured Publications

1. Miftah, F. K., & Mutta, D. (2024). Potential markets and policies for sustainable liquid biofuel production with emphasis to Eastern Africa countries: A review. Energy, Sustainability and Society, 14(1), 1. (Citations: 15)

2. Kedir, M. F., Onchieku, M. J., Ntalikwa, J. S., & Mutta, D. (2022). Developing circular economy in Eastern Africa through liquid biofuels: Cases of Ethiopia, Kenya and Tanzania. African Forest Forum, 5. (Citations: 5)

3. Kedir, M. F. (2021). Pyrolysis bio-oil and bio-char production from firewood tree species for energy and carbon storage in rural wooden houses of southern Ethiopia. In African handbook of climate change adaptation (pp. 1313–1329). (Citations: 5)

4. Fekadu, M., Mekonnen, Z., & Tesfaye, M. (2021). Comparison of kitchen performance test on firewood consumption and emission of improved mirt and traditional three stone open cook stoves in Amaya, and Bure districts of Ethiopia. Climate Change, 7(23), 1–10. (Citations: 3)

5. Kedir, M. F. (2023). Prospects for rural transformation and socioenvironmental dilemma in the production and uses of liquid biofuels in Eastern Africa countries. In Rural Areas–Development and Transformations. (Citations: 2)

 

Sergey Barykin | Bioenergy | Best Researcher Award

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Prof. Dr. Sergey Barykin | Bioenergy | Best Researcher Award

Head of dissertation council | Peter the Great St. Petersburg Polytechnic University | Russia

Professor Dr. Sergey E. Barykin is a renowned economist and academic leader specializing in digital platforms, financial logistics, digital economy, international logistics networks, Industry 4.0, integrated logistics, and sustainable economic modeling. He holds advanced academic qualifications, including a diploma, a Ph.D., and a Doctor of Sciences in Economics, reflecting his extensive research expertise. He currently serves as Professor and Deputy Director for Scientific Research and Development at SPbPU’s Institute of Industrial Management, Economics, and Trade and heads a dissertation council focusing on regional and industrial economics, logistics, and marketing, having previously held faculty and leadership roles at other prominent institutions. His research encompasses digital and financial logistics, logistics network management, digital transformation of trade and services, smart city logistics, ESG goals, and the integration of digital finance for sustainable development. He possesses strong skills in economic and mathematical modeling, stochastic processes, digital twin modeling, decision-making in complex systems, and strategic management applications in logistics and energy sectors. Professor Barykin has published extensively in high-impact journals, contributing significantly to the fields of sustainability, innovation, and digital economics, and has led multiple national and international research projects while maintaining extensive global collaborations. He serves on editorial boards of leading journals and has received several awards recognizing his excellence in peer review. Recognized among the most-cited scientists globally, Professor Barykin demonstrates outstanding contributions to digital logistics, corporate logistics theory, and digital economy research, combining scholarly achievement with leadership, mentorship, and a vision to advance sustainable socio-economic development through innovative applications of technology and economic research.

Profile: Google Scholar | Scopus | ORCID

Featured Publications

Barykin, S. Y., Kapustina, I. V., Kirillova, T. V., Yadykin, V. K., & Konnikov, Y. A. (2020). Economics of digital ecosystems. Journal of Open Innovation: Technology, Market, and Complexity, 6(4), 124. Cited by 214.

Barykin, S. Y., Bochkarev, A. A., Kalinina, O. V., & Yadykin, V. K. (2020). Concept for a supply chain digital twin. International Journal of Mathematical, Engineering and Management Sciences, 5, … Cited by 148.

Iqbal, K. M. J., Khalid, F., & Barykin, S. Y. (2021). Hybrid workplace: The future of work. Handbook of Research on Future Opportunities for Technology Management, … Cited by 143.

Li, J., Yüksel, S., Dınçer, H., Mikhaylov, A., & Barykin, S. E. (2022). Bipolar q-ROF hybrid decision making model with golden cut for analyzing the levelized cost of renewable energy alternatives. IEEE Access, 10, 42507–42517. Cited by 103.

Barykin, S., Kapustina, I., Sergeev, S., Kalinina, O., Vilken, V., De la Poza, E., … (2021). Developing the physical distribution digital twin model within the trade network. Academy of Strategic Management Journal, 20(1), 1–24. Cited by 97.

 

Vivek Garg | Waste-to-Energy Conversion | Best Researcher Award

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Dr. Vivek Garg | Waste-to-Energy Conversion | Best Researcher Award

Senior Lecturer and Applied Engineering Research Specialist at University of Greenwich | United Kingdom

Dr. Vivek Garg is an accomplished researcher and technical leader specializing in powder technology, bulk solids handling, mineral processing, and formulation science. Currently serving as a Senior Lecturer and Applied Engineering Research Specialist at the University of Greenwich, he leads interdisciplinary projects across the pharmaceutical, food, chemical, and environmental sectors. His expertise lies in bridging the gap between academic research and industrial application, delivering scalable solutions for formulation design, process optimization, and test method development. He has successfully secured competitive research funding and major consultancy projects, demonstrating his ability to attract resources and deliver measurable impact. His scholarly contributions include research publications in reputed international journals, patents in advanced systems and technologies, and book chapters addressing innovative engineering solutions. Widely recognized for his innovation and leadership, Dr. Garg actively contributes to scientific communities through invited talks, technical committees, and journal reviewing, while mentoring early-career researchers.

Professional Profile 

Google Scholar | Scopus Profile | ORCID Profile 

Education

Dr. Vivek Garg’s academic journey reflects a strong foundation in engineering and applied sciences. He earned his Ph.D. in Bulk Solids and Handling from the University of Greenwich, where his research focused on powder flow properties and their implications in industrial applications. Prior to that, he completed his Master’s degree in Thermal Engineering from Thapar University, where he expanded his expertise in advanced mechanical processes and energy systems. He began his academic pursuit with a Bachelor of Technology in Mechanical Engineering from IET Bhaddal, India, where he built the fundamental skills that would later shape his career as a researcher. Throughout his education, Dr. Garg has combined theoretical knowledge with practical experimentation, contributing to his expertise in formulation, process optimization, and sustainable solids handling. His academic achievements have been complemented by his strong engagement with industrial projects, enabling him to integrate academic learning with practical engineering challenges.

Experience

Dr. Vivek Garg brings over a decade of professional and research experience in powder technology, formulation science, and mineral processing. At the University of Greenwich, he has worked as a Senior Lecturer and Applied Engineering Research Specialist, where he has led industry-oriented R&D and consultancy projects, developed laboratory rigs for powder characterization, and guided students and researchers. His work spans diverse sectors including pharmaceuticals, food, chemicals, and environmental systems, focusing on developing innovative methods for powder flow measurement, material characterization, and process optimization. Earlier in his career, he contributed to engineering roles in leading industries such as Federal Mogul Goetze and Bhushan Power and Steel, where he provided solutions that improved efficiency and reduced operational costs. Through his consultancy and collaborative projects, he has partnered with global industries and academic institutions, successfully translating research outcomes into practical solutions. His leadership in project execution demonstrates his ability to deliver high-impact results.

Research Interest

Dr. Vivek Garg’s research interests lie in the study and advancement of powder technology and bulk solids handling, with applications across pharmaceutical, food, and chemical industries. He focuses on powder formulation and characterization, including flowability, compressibility, segregation, and caking, which are crucial factors in ensuring product quality and process efficiency. He also explores advanced topics such as air permeability, fluidization behavior, and the development of lab-to-full scale rigs for material characterization. In addition, his work in additive manufacturing, particularly 3D tablet printing, highlights his interest in combining pharmaceutical innovation with engineering design. He is equally committed to exploring sustainable solids handling, addressing industrial challenges in waste processing and renewable material applications. His approach integrates experimental methods, material science, and computational modeling to develop innovative solutions that bridge scientific research with industrial needs. By pursuing these areas, Dr. Garg aims to strengthen global research and innovation in material science and engineering.

Awards and Honors

Dr. Vivek Garg has been widely recognized for his contributions to engineering research and innovation through multiple prestigious awards. He has received distinctions for innovation in powder technology, materials handling, and applied research, demonstrating his ability to deliver high-impact solutions that bridge academia and industry. His recognition includes awards celebrating rising talent, newcomer contributions, and international excellence in young research, highlighting both his early promise and continued professional success. Beyond institutional awards, Dr. Garg has earned accolades from professional associations and industrial organizations, affirming the global relevance of his work. These honors reflect his ability to consistently push the boundaries of powder technology and applied engineering. His leadership in winning competitive research grants, along with contributions to interdisciplinary collaborations, further validates his achievements. Collectively, these recognitions underscore his growing influence in his field and affirm his position as a researcher of international distinction, committed to advancing science and innovation.

Research Skills

Dr. Vivek Garg has developed a strong portfolio of research skills that combine experimental expertise, analytical rigor, and project leadership. He is highly skilled in powder characterization techniques such as particle size analysis, powder flow testing, air permeability, and compressibility studies, supported by tools including DVS, SEM, ImageJ, and pycnometers. He has experience in developing bespoke laboratory rigs and smart test facilities that enable real-time monitoring of powder behavior, a key contribution to both academic research and industrial applications. In addition, his knowledge extends to design software such as SolidWorks and simulation approaches that integrate characterization techniques into virtual toolkits. He has also gained expertise in project management, having secured competitive funding, managed budgets, and led multi-disciplinary research teams. His ability to translate experimental insights into industrial solutions demonstrates both technical competence and applied innovation. These skills, combined with strong stakeholder engagement, make him a versatile and impactful researcher.

Publication Top Notes

Title: An investigation into the flowability of fine powders used in pharmaceutical industries
Authors: V. Garg, S.S. Mallick, P. García-Trinanes, R.J. Berry
Year: 2018
Citations: 93

Title: An experimental investigation on the effect of particle size into the flowability of fly ash
Authors: L. Rohilla, V. Garg, S.S. Mallick, G. Setia
Year: 2018
Citations: 32

Title: An experimental study on free-surface rolling segregation and correlations with angle of repose and particle sphericity
Authors: T. Deng, V. Garg, H. Salehi, M.S.A. Bradley
Year: 2020
Citations: 25

Title: A study of particle adhesion for cohesive powders using a novel mechanical surface energy tester
Authors: T. Deng, V. Garg, M.S.A. Bradley
Year: 2021
Citations: 19

Title: 3D Printing of Personalised Carvedilol Tablets Using Selective Laser Sintering
Authors: A.G. Tabriz, Q. Gonot-Munck, A. Baudoux, V. Garg, R. Farnish, O. Katsamenis, et al.
Year: 2023
Citations: 18

Title: Comparative studies of powder flow predictions using milligrams of powder for identifying powder flow issues
Authors: T. Deng, V. Garg, L.P. Diaz, D. Markl, C. Brown, A. Florence, M.S.A. Bradley
Year: 2022
Citations: 18

Title: Correlations between segregation intensity and material properties such as particle sizes and adhesions and novel methods for assessment
Authors: T. Deng, V. Garg, H. Salehi, M.S.A. Bradley
Year: 2021
Citations: 18

Title: A new method for assessing powder flowability based on physical properties and cohesiveness of particles using a small quantity of samples
Authors: V. Garg, T. Deng, M. Bradley
Year: 2022
Citations: 12

Title: Optimising Spread-Layer Quality in Powder Additive Manufacturing: Assessing Packing Fraction and Segregation Tendency
Authors: H. Salehi, J. Cummins, E. Gallino, V. Garg, T. Deng, A. Hassanpour, et al.
Year: 2023
Citations: 8

Title: Electrostatic Charging of Fine Powders and Assessment of Charge Polarity Using an Inductive Charge Sensor
Authors: T. Deng, V. Garg, M. Bradley
Year: 2023
Citations: 8

Conclusion

In summary, Dr. Vivek Garg exemplifies the qualities of an outstanding researcher through his pioneering contributions in powder technology, interdisciplinary research leadership, and impactful industrial collaborations. His scholarly output, patents, and recognition through awards such as the Best Innovation Award and the Rising Star Award reflect his dedication to advancing both scientific knowledge and industrial practices. With his proven track record of innovation, community engagement, and future-oriented research in sustainable solids handling and pharmaceutical technologies, Dr. Garg is highly deserving of the Best Researcher Award. His potential for continued leadership and global research impact positions him as an emerging leader in engineering science and applied technology.