Antonio Cantalapiedra | Mitigation Technologies | Excellence in Innovation Award

Excellence in Innovation Award

Antonio Cantalapiedra
University of Santiago de Compostela

             Antonio Cantalapiedra
Affiliation University of Santiago de Compostela
Country Spain
Scopus ID 25031286100
Documents 67
Citations 1,107
h-index 22
Subject Area Mitigation Technologies
Event World Green Energy Awards
ORCID 0000-0002-8586-956X

Antonio Cantalapiedra is a researcher at the University of Santiago de Compostela whose scientific work has contributed to mitigation technologies and sustainable environmental research. His publication record, citation performance, and interdisciplinary collaborations demonstrate continuous engagement with innovative scientific approaches that support climate mitigation and resource-efficient technologies. These scholarly achievements provide a strong academic foundation for recognition through the Excellence in Innovation Award at the World Green Energy Awards.[1]

Abstract

Antonio Cantalapiedra has established a distinguished academic profile through research focused on mitigation technologies, sustainability, and innovative environmental solutions. His scholarly contributions demonstrate consistent scientific productivity, interdisciplinary collaboration, and measurable research influence reflected in publications, citations, and an established h-index. His work supports technological progress addressing climate-related challenges while promoting evidence-based innovation for sustainable development. These accomplishments illustrate significant contributions to contemporary environmental research and provide a strong academic basis for recognition through the Excellence in Innovation Award at the World Green Energy Awards.[1][2]

Keywords

Mitigation Technologies, Environmental Innovation, Climate Research, Sustainable Development, Green Energy, Scientific Publications, Research Excellence, Innovation Award.

Introduction

Scientific innovation plays a central role in addressing environmental and climate challenges through the development of sustainable technologies and evidence-based research. Antonio Cantalapiedra has contributed to these objectives by participating in research that advances mitigation technologies while supporting scientific collaboration and knowledge dissemination across environmental disciplines.[1]

Research Profile

Based at the University of Santiago de Compostela, Antonio Cantalapiedra has authored 67 indexed publications that have received more than 1,100 citations and produced an h-index of 22. These bibliometric indicators reflect sustained scholarly productivity, research visibility, and continued influence within mitigation technologies and related environmental research fields.[1]

Research Contributions

His research has contributed to improving scientific understanding of technologies that reduce environmental impacts while supporting sustainable resource management. Through interdisciplinary investigations, methodological development, and collaborative publications, his work has expanded knowledge applicable to climate mitigation and environmentally responsible innovation.[2]

Publications

The research portfolio includes peer-reviewed journal articles and collaborative scientific publications indexed in major international databases. These publications address mitigation technologies and sustainability-related topics while contributing reproducible scientific evidence and advancing innovation within environmental sciences.[1][2]

Research Impact

The combination of 67 indexed publications, 1,107 citations, and an h-index of 22 indicates measurable scientific influence within the international research community. These indicators suggest that the research has been recognized, cited, and utilized by other scholars working on sustainability, environmental science, and mitigation technologies.[3]

Award Suitability

Antonio Cantalapiedra demonstrates characteristics commonly associated with academic innovation awards, including sustained publication activity, interdisciplinary collaboration, measurable citation impact, and research addressing environmental sustainability. These achievements align with the objectives of the Excellence in Innovation Award presented by the World Green Energy Awards, recognizing contributions that advance scientific knowledge and practical environmental solutions.[4]

Conclusion

Antonio Cantalapiedra’s academic record reflects consistent scientific productivity, recognized research impact, and meaningful contributions to mitigation technologies. His publication history, citation performance, and commitment to sustainable environmental research provide a well-supported scholarly basis for recognition through the Excellence in Innovation Award.[5]

References

  1. Elsevier. (n.d.). Scopus author details: Antonio González-Cantalapiedra, Author ID 25031286100. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=25031286100
  2. World Green Energy Awards. (n.d.). Official Awards Website.
    https://greenenergyaward.com/
  3. Cambeiro-Camarero, N., Fernández-Martín, S., & González-Cantalapiedra, A. (2026). Preoperative oral tasipimidine in dogs undergoing elective ovariectomy: Anxiolysis, handling quality and cardiovascular effects. Veterinary Sciences, 13(7), 618.
    https://doi.org/10.3390/vetsci13070618
  4. García-González, M., Vidal-Negreira, F., & González-Cantalapiedra, A. (2026). Photobiomodulation applications in clinical veterinary surgery: Current status and future perspectives. Lights, 2(1), 2.
    https://doi.org/10.3390/lights2010002
  5. García-González, M., Valiño-Cultelli, V., Fernández-Martín, S., Vila-Pastor, M., & González-Cantalapiedra, A. (2026). Coexistence of rete ovarii cysts and cystic endometrial hyperplasia in a guinea pig (Cavia porcellus)—A detailed clinical case report. Veterinary Sciences, 13(1), 31.
    https://doi.org/10.3390/vetsci13010031

Alexey Beskopylny | Green Technology | Best Researcher Award

Best Researcher Award

Alexey Beskopylny
Don State Technical University

Alexey Beskopylny
Affiliation Don State Technical University
Country Russia
Scopus ID 57212303470
Documents 207
Citations 2,630
h-index 26
Subject Area Green technology
Event World Green Energy Awards
ORCID 0000-0002-6173-9365

The Best Researcher Award recognizes distinguished scholarly achievements and sustained scientific contributions in the field of green technology and sustainable engineering. Alexey Beskopylny of Don State Technical University has established a significant academic profile through interdisciplinary research related to advanced construction materials, environmental sustainability, engineering systems, and innovative green technologies. His publication record, citation metrics, and research visibility demonstrate measurable influence within contemporary engineering and sustainability studies.[1]

Abstract

Alexey Beskopylny is recognized for scholarly contributions associated with sustainable engineering, construction technologies, and environmentally responsible materials research. His academic activities include publication development, interdisciplinary collaboration, and applied engineering investigations relevant to green technology innovation. The researcher has contributed to scientific discourse through peer-reviewed publications indexed in international databases, demonstrating consistent engagement with modern sustainability challenges and engineering optimization methods.[1][2]

Keywords

Green technology, sustainable engineering, environmental materials, structural engineering, construction innovation, energy-efficient systems, sustainable development, engineering research, advanced materials, academic excellence.

Introduction

The advancement of green technology has become increasingly important within modern engineering and environmental sciences. Researchers contributing to sustainable infrastructure, resource-efficient materials, and ecological engineering practices are central to contemporary scientific progress. Alexey Beskopylny has participated in research areas associated with construction engineering and sustainability-oriented technological development. His scholarly output reflects active involvement in scientific initiatives aimed at improving engineering performance while supporting environmentally conscious methodologies.[1]

Research Profile

Alexey Beskopylny is affiliated with Don State Technical University in Russia and maintains an established research presence within engineering and green technology studies. According to Scopus indexing data, the researcher has authored more than 200 scholarly documents and achieved over 2,600 citations, with an h-index of 26, indicating consistent citation activity across multiple publications.[1]

Research Contributions

The researcher has contributed to scientific studies involving sustainable construction technologies and advanced engineering materials. Several investigations address durability optimization, structural efficiency, and environmentally responsible design strategies intended to support modern sustainability goals.[4]

Publications

Selected publications and indexed research outputs associated with Alexey Beskopylny demonstrate sustained scholarly engagement in engineering and green technology disciplines.[4]

Research Impact

Citation metrics and publication indexing indicate measurable academic influence within engineering and sustainability research communities. The researcher’s h-index and citation record demonstrate that published works have contributed to ongoing scientific discussions in areas associated with green technology and applied engineering sciences.[1]

Award Suitability

Alexey Beskopylny demonstrates suitability for recognition through the World Green Energy Awards based on documented research productivity, international indexing visibility, interdisciplinary engineering contributions, and citation impact. His academic work aligns with themes related to sustainability, green technology innovation, and environmentally responsible engineering advancement.[3]

Conclusion

The academic profile of Alexey Beskopylny reflects sustained engagement with engineering research and sustainability-oriented technological development. Through publication activity, collaborative research, and measurable citation influence, the researcher has contributed to scientific discussions associated with green technology and advanced engineering systems. Recognition through the Best Researcher Award category within the World Green Energy Awards framework is supported by documented scholarly performance and relevance to contemporary sustainability objectives.[1][3]

References

  1. Elsevier. (n.d.). Scopus author details: Alexey Beskopylny, Author ID 57212303470. https://www.scopus.com/authid/detail.uri?authorId=57212303470
  2. ORCID. (n.d.). ORCID profile for Alexey Beskopylny.
    https://orcid.org/0000-0002-6173-9365
  3. World Green Energy Awards. (n.d.). Official award and recognition platform.
    https://greenenergyaward.com/
  4. Beskopylny, A. N., Stel’makh, S. A., Shcherban’, E. M., Mailyan, L. R., Meskhi, B., Razveeva, I., Chernil’nik, A., & Beskopylny, N. (2022). Concrete strength prediction using machine learning methods CatBoost, k-nearest neighbors, support vector regression. , 12(21), 10864.
    https://doi.org/10.3390/app122110864
  5. Özkılıç, Y. O., Karalar, M., Aksoylu, C., Beskopylny, A. N., Stel’makh, S. A., Shcherban, E. M., Qaidi, S., Pereira, I. da S. A., Monteiro, S. N., & Azevedo, A. R. G. (2023). Shear performance of reinforced expansive concrete beams utilizing aluminium waste. Journal of Materials Research and Technology, 24, 5433–5448. https://doi.org/10.1016/j.jmrt.2023.04.120

Tao Sun | Renewable Energy Systems | Best Researcher Award

Prof. Tao Sun | Renewable Energy Systems | Best Researcher Award

Professor | Northwest University | China

Dr. Tao Sun is a distinguished Professor at the School of Chemical Engineering, Northwest University, China, widely recognized for his pioneering contributions to the fields of energy conversion and environmental catalysis. His research focuses on the rational design and synthesis of nanostructured and single-atom materials for electrocatalysis, photocatalysis, water splitting, fuel cells, metal–air batteries, and CO₂ reduction. By integrating advanced concepts in atomic-level engineering, heterojunction construction, and defect chemistry, he has developed highly efficient and durable materials that address pressing global challenges in clean energy generation and pollutant degradation. Dr. Sun has authored more than ninety peer-reviewed publications, including numerous papers as first or corresponding author in internationally renowned journals such as Nature Nanotechnology, Advanced Materials, Advanced Functional Materials, ACS Nano, ACS Catalysis, and Advanced Science. His research has achieved substantial global recognition, reflected by thousands of citations and a strong h-index, underscoring his scientific influence and leadership in catalysis and materials chemistry. In addition to his prolific research output, Dr. Sun serves as a reviewer for over fifty leading international journals and contributes to the scholarly community as a youth editor for EcoEnergy, Advanced Powder Materials, and Carbon Energy. His work bridges fundamental science and applied technology, offering innovative strategies for sustainable energy conversion, carbon-neutral pathways, and environmental protection. Through his commitment to advancing catalyst design and clean energy technologies, Dr. Tao Sun continues to make impactful contributions that shape the future of green chemistry and sustainable materials engineering. Dr. Tao Sun’s academic excellence is reflected in his global research influence, with 6,780 citations, 94 publications, and an h-index of 38, highlighting his leading role in the field of materials and energy science.

Profiles: Scopus | ORCID

Featured Publications

1. Sun, T., et al. (2025). Photocatalytic H₂ evolution over Ni₃(PO₄)₂/twinned-Cd₀.₅Zn₀.₅S S-scheme homo-heterojunction using degradable plastics as electron donors. Journal of Materials Science and Technology. Citations: 8

2. Sun, T., et al. (2025). Efficient hydrogen production coupled with polylactic acid plastic electro-treatment over a CoFe LDH/MoSe₂/NixSey/NF heterostructure electrocatalyst. ACS Sustainable Chemistry & Engineering. Citations: 4

3. Sun, T., et al. (2025). Co₃S₄/MnS p–p heterojunction as a highly efficient electrocatalyst for water splitting and electrochemical oxidation of organic molecules. Journal of Colloid and Interface Science. Citations: 10

4. Sun, T., et al. (2025). Efficient photocatalytic H₂ evolution over SnS₂/twinned Mn₀.₅Cd₀.₅S hetero-homojunction with double S-scheme charge transfer routes. Journal of Materials Science and Technology. Citations: 31

5. Sun, T., et al. (2025). Tuning interfacial charge transfer for efficient photodegradation of tetracycline hydrochloride over Ti₃C₂/Bi₁₂O₁₇Cl₂ Schottky heterojunction and theoretical calculations. Applied Surface Science. Citations: 16

Dr. Tao Sun’s pioneering research in photocatalysis and electrocatalysis advances sustainable hydrogen production and plastic waste valorization, bridging clean energy generation with environmental remediation. His innovative heterostructure designs drive global progress toward carbon-neutral technologies and circular energy systems, fostering transformative impact across science, industry, and society.

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

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.