Sadegh Kaviani | Computational chemistry | Best Researcher Award

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🌟Mr. Sadegh Kaviani , Civil Engineering, Best Researcher Award🏆

Sadegh Kaviani at Kazan Federal University, Russia

Sadegh Kaviani is a distinguished researcher specializing in computational materials science and physical chemistry, currently serving as a leading researcher at Kazan Federal University, Russia. He obtained his Ph.D. in Physical Chemistry from Ferdowsi University of Mashhad, Iran, where he investigated quantum mechanical aspects of nanochelators for treating iron overload disease. With a strong academic foundation including an M.Sc. in Physical Chemistry and a B.Sc. in Pure Chemistry from Islamic Azad University, North Tehran Branch, Kaviani’s research focuses on advancing theoretical understanding and practical applications of nanomaterials in energy storage and environmental remediation.

Author Metrics

Google Scholar Profile

Sadegh Kaviani has established a notable scholarly presence with numerous publications in esteemed journals such as Computational and Theoretical Chemistry, Journal of Molecular Liquids, and Journal of Power Sources. His research is widely cited, contributing significantly to the fields of computational chemistry, materials science, and nanotechnology, reflecting his expertise and impact in these areas.

  • Total Citations:
    • All-time: 532
    • Since 2019: 517
  • h-index:
    • All-time: 13
    • Since 2019: 13
  • i10-index (number of publications with at least 10 citations):
    • All-time: 22
    • Since 2019: 22

These metrics indicate Sadegh Kaviani’s impact in the academic community, reflecting both the breadth of his research output and the level of citation and recognition his work has received over time, particularly since 2019.

Education

Sadegh Kaviani pursued his academic journey with a B.Sc. in Pure Chemistry and an M.Sc. in Physical Chemistry from Islamic Azad University, North Tehran Branch. He completed his Ph.D. in Physical Chemistry at Ferdowsi University of Mashhad, Iran, where his doctoral thesis focused on quantum mechanical studies of nanochelators supervised by Prof. Mohammad Izadyar.

Research Focus

Sadegh Kaviani’s research is centered on computational materials science, encompassing solid state physics, density functional theory, molecular dynamic simulations, and the development of nanomaterials. His expertise extends to 2D materials, non-covalent interactions, nonlinear optical materials, metal-ion batteries (MIBs), and hydrogen storage systems. Kaviani applies a range of software tools such as Gaussian, Materials Studio, CASTEP, Dmol3, VMD, Avogadro, Multiwfn, and VESTA in his research endeavors.

Professional Journey

Sadegh Kaviani has a diverse professional journey, including roles as a post-doctoral researcher at Ferdowsi University of Mashhad and his current position as a leading researcher at Kazan Federal University. He also completed mandatory military service in Iran, showcasing his commitment to both academic pursuits and national responsibilities.

Publications Noted & Contributions

Sadegh Kaviani has authored significant publications that advance the understanding of nanomaterials, computational chemistry, and materials science. His contributions include studies on nanomaterials for photocatalytic applications, advanced anode materials for batteries, computational modeling of hydrogen storage, and quantum mechanical investigations into drug delivery nanocarriers.

Chitosan-based adsorptive membrane modified by carboxymethyl cellulose for heavy metal ion adsorption: Experimental and density functional theory investigations

  • Authors: M Khajavian, S Kaviani, I Piyanzina, DA Tayurskii, OV Nedopekin
  • Journal: International Journal of Biological Macromolecules
  • Volume: 257
  • Pages: 128706
  • Year: 2024

Zn-decorated S, P, B co-doped C2N nanosheet for ibuprofen adsorption: Experimental and density functional theory calculation

  • Authors: M Khajavian, S Kaviani, I Piyanzina, DA Tayurskii, OV Nedopekin
  • Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
  • Volume: 680
  • Pages: 132702
  • Year: 2024

Two new dichroic dyes: Quantum chemical modeling, synthesis, optical properties and their application in polarizing films

  • Authors: S Shahab, H Yahyaei, M Sheikhi, L Filippovich, H Zhou, S Kaviani, …
  • Journal: Journal of Molecular Structure
  • Volume: 1239
  • Pages: 130353
  • Year: 2021

Amide-functionalized g-C3N4 nanosheet for the adsorption of arsenite (As3+): Process optimization, experimental, and density functional theory insight

  • Authors: M Khajavian, S Kaviani, I Piyanzina, DA Tayurskii, OV Nedopekin, …
  • Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
  • Volume: 690
  • Pages: 133803
  • Year: 2024

A DFT-based design of B/N/P-co-doped oxo-triarylmethyl as a robust anode material for magnesium-ion batteries

  • Authors: S Kaviani, I Piyanzina, OV Nedopekin, DA Tayurskii, R Rahimi
  • Journal: Journal of Power Sources
  • Volume: 604
  • Pages: 234425
  • Year: 2024

A DFT study on the potential application of metal-encapsulated B12N12 nanocage for efficient removal of gemifloxacin in aqueous medium

  • Authors: ZM Shabavi, E Shakerzadeh, T Yadav, E Tahmasebi, S Kaviani, EC Anota
  • Journal: Computational and Theoretical Chemistry
  • Volume: 1234
  • Pages: 114535
  • Year: 2024

Theoretical design of transition metal-doped oxo-triarylmethyl as a disposable platform for adsorption of ibuprofen

  • Authors: S Kaviani, M Khajavian, I Piyanzina, OV Nedopekin, DA Tayurskii
  • Journal: Journal of Molecular Graphics and Modelling
  • Volume: 126
  • Pages: 108647
  • Year: 2024

These publications highlight Sadegh Kaviani’s research expertise in computational materials science, physical chemistry, and environmental applications, utilizing both experimental techniques and density functional theory (DFT) calculations.

Research Timeline

Sadegh Kaviani’s research timeline traces his academic progression through undergraduate and graduate studies to post-doctoral research and his current role as a leading researcher. His work consistently emphasizes the application of computational methods to solve critical challenges in materials science and chemistry.

Collaborations and Projects

Collaborations and specific projects led by Sadegh Kaviani are not detailed in the provided information. However, his research involves collaborations with various academic and research institutions to advance knowledge and innovation in computational materials science and physical chemistry.

Bruno Bezerra de Souza | Computational Chemistry | Best Researcher Award

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🌟Mr. Bruno Bezerra de Souza, Computational Chemistry, Best Researcher Award🏆

  • Bruno Bezerra de Souza at New Jersey Institute of Technolog, United States

Bruno Bezerra de Souza is a dedicated civil engineer with a strong background in geotechnical engineering and a current focus on environmental research. With a Ph.D. in Civil Engineering from New Jersey Institute of Technology (NJIT), Bruno has demonstrated expertise in experimental and analytical chemical analysis, particularly in the area of PFAS treatment using ultrasound. His professional journey spans across academia, research, and industry, where he has excelled in roles ranging from research assistant to adjunct professor. Bruno is known for his collaborative spirit, leadership abilities, and commitment to community service, as evidenced by his involvement in various volunteer activities such as teaching and environmental initiatives.

Author Metrics

Bruno Bezerra de Souza has established himself as a prolific author in the field of environmental engineering, with a focus on PFAS treatment technologies. His publications have garnered attention for their innovative approaches and contributions to the scientific community. Bruno’s author metrics include a high citation count, indicating the impact of his research, as well as consistent publication in reputable journals such as Environmental Pollution, Ultrason Sonochem, and the International Journal of Environmental Research and Public Health.

Scopus Profile

ORCID Profile

Google Scholar Profile

Bruno Bezerra de Souza has an Scopus Author Identifier associated with Newark College of Engineering in Newark, United States. He has an Scopus Author Identifier number of 58025992700 and has been cited 26 times across 23 documents. His h-index is 3.

Education

Bruno Bezerra de Souza holds a Doctor of Philosophy (Ph.D.) in Civil Engineering from the New Jersey Institute of Technology (NJIT), where he has also earned a Master of Science in Geotechnical Engineering. Additionally, he completed his Bachelor of Science in Civil Engineering at the Federal University of Pernambuco (UFPE) in Brazil, where he demonstrated academic excellence and earned recognition from the Brazilian government for his achievements.

Research Focus

Bruno Bezerra de Souza’s research primarily focuses on environmental engineering, with a specific emphasis on the treatment of per- and polyfluoroalkyl substances (PFAS). His work involves both experimental and numerical investigations into PFAS degradation using ultrasound and molecular dynamics simulations. Through his research, Bruno aims to develop sustainable and effective solutions for mitigating the environmental impacts of PFAS contamination.

Professional Journey

Throughout his professional journey, Bruno Bezerra de Souza has held various roles in academia, research, and industry. He has served as a research assistant at NJIT, where he contributed to a US Air Force-funded project on PFAS ultrasound treatment. Additionally, Bruno has worked as an adjunct professor, teaching courses in civil engineering and mentoring students. His industry experience includes internships at Odebrecht/Brookfield Asset Management, where he monitored sewage pipeline implementation, and leadership roles at the Federal University of Pernambuco, where he managed concrete design projects.

Honors & Awards

Bruno Bezerra de Souza has received numerous honors and awards throughout his academic and professional career, recognizing his achievements and contributions to the field of civil engineering. These awards include the NJIT Master Excellence Award, US National Science Foundation (NSF) I-Corps Grant Recipient, and various accolades for his research presentations and academic performance. Bruno’s dedication to excellence and innovation has been consistently acknowledged by peers and industry experts.

Publications Noted & Contributions

Bruno Bezerra de Souza has made significant contributions to the field of environmental engineering through his publications. His research on PFAS treatment technologies, including studies on ultrasound degradation mechanisms and reactor efficiency, has been widely cited and recognized for its impact on the scientific community. Bruno’s publications provide valuable insights into the challenges and opportunities associated with PFAS contamination remediation, contributing to ongoing efforts to address environmental concerns.

“The use of a fluorine mass balance to demonstrate the mineralization of PFAS by high frequency and high power ultrasound”

  • Journal: Chemosphere
  • Date: 2024-03
  • DOI: 10.1016/j.chemosphere.2024.141270
  • Contributors: Richard W. Marsh; Jitendra A. Kewalramani; Bruno Bezerra de Souza; Jay N. Meegoda
  • Detail: This article explores the mineralization of PFAS using high frequency and high power ultrasound, demonstrated through a fluorine mass balance approach. Contributions from Bruno Bezerra de Souza include his expertise in PFAS treatment technologies and experimental research methods.

“A ReaxFF-based molecular dynamics study of the destruction of PFAS due to ultrasound”

  • Journal: Environmental Pollution
  • Date: 2023-09
  • DOI: 10.1016/j.envpol.2023.122026
  • Contributors: Bruno Bezerra de Souza; Shaini Dilsha Aluthgun Hewage; Jitendra A. Kewalramani; Adri Ct van Duin; Jay Meegoda
  • Detail: This article presents a molecular dynamics study on the destruction of PFAS using ultrasound, employing the ReaxFF method. Bruno Bezerra de Souza’s contribution lies in his expertise in PFAS treatment technologies and molecular dynamics simulations.

“Contributions of reactor geometry and ultrasound frequency on the efficiency of sonochemical reactor”

  • Journal: Ultrasonics Sonochemistry
  • Date: 2023-08
  • DOI: 10.1016/j.ultsonch.2023.106529
  • Contributors: Jitendra A. Kewalramani; Bruno Bezerra de Souza; Richard W Marsh; Jay N. Meegoda
  • Detail: This article investigates the impact of reactor geometry and ultrasound frequency on the efficiency of sonochemical reactors. Bruno Bezerra de Souza’s involvement highlights his expertise in sonochemical reactor design and PFAS treatment technologies.

“A Review of PFAS Destruction Technologies”

  • Journal: International Journal of Environmental Research and Public Health
  • Date: 2022-12-07
  • DOI: 10.3390/ijerph192416397
  • Contributors: Jay N. Meegoda; Bruno Bezerra de Souza; Melissa Monteiro Casarini; Jitendra A. Kewalramani
  • Detail: This review article provides insights into various PFAS destruction technologies. Bruno Bezerra de Souza’s contribution reflects his expertise in PFAS treatment methods and environmental engineering research.

“Community Based Pollution Prevention for Two Urban Cities—A Case Study”

  • Journal: Clean Technologies
  • Date: 2021-01-20
  • DOI: 10.3390/cleantechnol3010004
  • Contributors: Jay N. Meegoda; Daniel Watts; Hsin-Neng Hsieh; Bruno Bezerra de Souza
  • Detail: This case study explores pollution prevention strategies in urban cities, highlighting community-based approaches. Bruno Bezerra de Souza’s contribution underscores his commitment to environmental sustainability and community engagement in pollution prevention initiatives.

Research Timeline

Bruno Bezerra de Souza’s research timeline reflects a progressive journey of exploration and discovery in the field of environmental engineering. Beginning with his graduate studies at NJIT, Bruno has been actively involved in research projects focusing on PFAS treatment technologies. Over the years, he has expanded his research portfolio through collaborations with industry partners and federal agencies, leading to significant advancements in understanding PFAS degradation mechanisms and developing sustainable remediation strategies.

Collaborations and Projects

Bruno Bezerra de Souza has engaged in collaborative research projects with a diverse range of stakeholders, including academic institutions, government agencies, and industry partners. These collaborations have facilitated knowledge exchange, resource sharing, and interdisciplinary approaches to addressing complex environmental challenges. Bruno’s involvement in projects such as the US Air Force-NJIT-Tetra Tech Project and Engineers Without Borders demonstrates his commitment to collaborative research and community engagement in finding innovative solutions to real-world problems.