Songtao Lv | Particle Experiments | Research Excellence Award

Research Excellence Award

Songtao Lv
Changsha University of Science and Technology

Songtao Lv
Affiliation Changsha University of Science and Technology
Country China
Scopus ID 57169645600
Documents 189
Citations 4900
h-index 38
Subject Area Particle Experiments
Event Global Particle Physics Excellence Awards
ORCID 0000-0003-0426-5033

Songtao Lv is a professor and doctoral supervisor at Changsha University of Science and Technology whose research activity has focused on pavement engineering, asphalt materials, fatigue behavior, and infrastructure performance assessment. Academic profile indicators demonstrate sustained publication output with substantial citation activity and continued contribution to engineering literature. Research records indexed through international databases indicate broad participation in collaborative scientific work and interdisciplinary engineering studies.[1]

Abstract

This article presents an overview of the scholarly profile, publication activity, and research output associated with Songtao Lv of Changsha University of Science and Technology. Available publication indicators and indexing information demonstrate sustained research productivity across multiple engineering topics and collaborative scientific studies. Research records suggest continued engagement in material characterization, pavement performance studies, and analytical investigations within modern engineering research environments. The profile further reflects measurable scholarly visibility through publication metrics and international indexing systems.[2]

Introduction

Modern infrastructure research increasingly requires advanced evaluation techniques capable of understanding material behavior under complex operational conditions. Engineering studies in pavement materials have become important because of their relationship with transportation durability and long-term structural performance. Research associated with Songtao Lv reflects continuing investigation into these scientific areas through experimental analysis and performance evaluation approaches. Multiple studies indicate an emphasis on practical engineering applications supported by analytical methodology.[3]

Research Profile

Academic records indicate that Songtao Lv has participated in research activities involving asphalt mixtures, fatigue damage mechanisms, rheological assessment, and infrastructure material studies. Publication trends suggest broad engagement across laboratory experimentation and engineering modeling methods. Scholarly collaboration with researchers from multiple institutions is also evident through co-authored publications and multidisciplinary contributions. These activities demonstrate continuity in research participation and publication output.[4]

Research Contributions

Research contributions include investigations related to fatigue behavior analysis, modified asphalt performance, self-healing material systems, and structural response modeling. Published findings also discuss aging characteristics and dynamic behavior under changing environmental conditions. Several studies propose assessment frameworks designed to improve understanding of engineering material performance and durability mechanisms. Such contributions indicate active involvement in methodological development and engineering analysis.[5]

Publications

Published work associated with Songtao Lv includes studies addressing fatigue evolution, self-healing behavior, rheological performance, dynamic response analysis, and pavement material assessment. Recent scholarly activity additionally discusses recycled material applications and modified asphalt systems under varying environmental conditions. Publication records indicate continuity across engineering topics while maintaining relevance to broader material science and infrastructure research objectives. The available research profile suggests ongoing contribution to peer-reviewed academic literature.

Research Impact

Publication metrics including citation activity and h-index indicators are commonly used to assess scholarly influence within academic environments. Available information indicates that Songtao Lv has developed measurable visibility through sustained publication output and research dissemination practices. Citation patterns suggest that published findings have received attention from related scientific communities and engineering researchers. Such indicators contribute to understanding broader research influence and academic reach.[1]

Award Suitability

Academic recognition programs frequently consider publication records, citation indicators, collaborative research activity, and sustained scholarly contribution during evaluation processes. Based on available profile information, the publication history and engineering research activity associated with Songtao Lv may align with several commonly used academic assessment criteria. The combination of productivity and scholarly visibility provides supporting context for research-related recognition evaluation. Assessment outcomes nevertheless remain dependent upon independent award selection procedures.

Conclusion

The academic profile of Songtao Lv reflects substantial engagement in engineering research through publication activity and collaborative scientific participation. Available metrics and publication records indicate continued involvement in material science and infrastructure-related investigations. Research output demonstrates consistency across several engineering themes while contributing to broader technical understanding and analytical development. The profile therefore represents an active and sustained scholarly research presence.

References

  1. Lv, S., Peng, X., Liu, C., Ge, D., Tang, M., & Zheng, J. (2020). Laboratory investigation of fatigue parameters characteristics of aging asphalt mixtures: A dissipated energy approach. Construction and Building Materials, 242, 116972.
    DOI: https://doi.org/10.1016/j.conbuildmat.2019.116972
  2. Lv, S., Zhao, T., Xia, C., Zhao, S., Liu, T., Liu, Y., Liu, B., & Cabrera, M. B. (2022). A new method for characterizing the fatigue performance of high-modulus asphalt mixtures. Journal of Testing and Evaluation, 50(4).
    DOI: https://doi.org/10.1520/JTE20210719
  3. He, L., Li, G., Lv, S., Gao, J., Kowalski, K. J., Valentin, J., & Alexiadis, A. (2020). Self-healing behavior of asphalt system based on molecular dynamics simulation. Construction and Building Materials, 254, 119225.
    DOI: https://doi.org/10.1016/j.conbuildmat.2020.119225
  4. Lv, S., Ge, D., Wang, Z., Wang, J., Liu, J., Ju, Z., Peng, X., Fan, X., Cao, S., & Liu, D. (2023). Performance assessment of self-healing polymer-modified bitumens by evaluating the suitability of current failure definition, failure criterion, and fatigue-restoration criteria. Materials, 16(6), 2488.
    DOI: https://doi.org/10.3390/ma16062488
  5. Xia, C., Lv, S., You, L., Chen, D., Li, Y., & Zheng, J. (2019). Unified strength model of asphalt mixture under various loading modes. Materials, 12(6), 889.
    DOI: https://doi.org/10.3390/ma12060889

Chun-Wang Ma | Nuclear Physics | Best Scholar Award

Best Scholar Award

Chun-Wang Ma
Affiliation Henan Normal University
Country China
Scopus ID 8723805700
Documents 190
Citations 2,117
h-index 24
Subject Area Nuclear Physics
Event Global Particle Physics Excellence Awards
ORCID 0000-0001-9372-518X

Chun-Wang Ma

Professor Chun-Wang Ma is a nuclear physicist affiliated with Henan Normal University, China, whose research has contributed to the understanding of heavy-ion collisions, projectile fragmentation reactions, nuclear symmetry energy, neutron-rich isotopes, photonuclear reactions, and modern computational approaches in nuclear science. His scholarly work spans theoretical modeling, experimental nuclear physics, information entropy applications, and machine learning methodologies for nuclear reaction analysis. Through extensive publication activity and international collaboration, he has contributed to advancing contemporary nuclear and particle physics research.[1][2]

Abstract

The Best Scholar Award recognizes researchers whose sustained academic contributions demonstrate scientific excellence, innovation, and measurable impact. Chun-Wang Ma has established a notable research profile in nuclear physics through studies involving heavy-ion collisions, projectile fragmentation, neutron-rich nuclei, nuclear symmetry energy, photonuclear reactions, and data-driven methodologies. His publication record, citation performance, and leadership in funded research projects reflect continued engagement with important scientific questions in nuclear science and technology. The breadth of his scholarly activities supports his recognition within the international nuclear physics community.[1][3]

Keywords

Nuclear Physics, Heavy-Ion Collisions, Projectile Fragmentation, Nuclear Symmetry Energy, Neutron-Rich Isotopes, Photonuclear Reactions, Rare Isotopes, Machine Learning in Physics, Bayesian Neural Networks, Information Entropy, Nuclear Analysis, Particle Physics.

Introduction

Nuclear physics remains fundamental to understanding the structure, interactions, and evolution of matter. Researchers in this field investigate nuclear reactions, isotope production, radiation effects, and particle interactions that have implications for both fundamental science and technological applications. Within this landscape, Chun-Wang Ma has developed a research portfolio focused on heavy-ion reaction mechanisms, neutron-rich nuclear systems, and quantitative approaches for interpreting complex nuclear phenomena. His investigations integrate experimental observations with theoretical and computational techniques, contributing to improved predictive capabilities in nuclear reaction studies.[1][4]

Research Profile

Chun-Wang Ma serves as Professor in the College of Physics at Henan Normal University and has additionally held leadership responsibilities within the Institute of Nuclear Science and Technology of the Henan Academy of Sciences. His academic background includes studies in physics and nuclear physics, supporting a career dedicated to nuclear reaction dynamics, isotope production, and advanced nuclear measurement techniques.[1]

  • Professor, College of Physics, Henan Normal University.
  • Research interests include heavy-ion collisions, photonuclear physics, nuclear radiation applications, and nuclear analysis.
  • Principal investigator and participant in multiple nationally funded scientific projects.
  • Author of a substantial body of peer-reviewed publications in internationally recognized journals.

Research Contributions

Professor Ma’s contributions encompass several interconnected domains of nuclear physics. His work on projectile fragmentation reactions has improved understanding of fragment production mechanisms and isotope distributions. He has also investigated neutron-skin thickness, symmetry energy behavior, and isospin effects in nuclear reactions, providing analytical frameworks useful for interpreting experimental observations.[5]

A notable aspect of his research is the integration of machine learning and Bayesian neural network methodologies into nuclear physics. These approaches have been applied to fragment production prediction, charge-radius estimation, spallation reaction analysis, and nuclear data evaluation, illustrating the growing role of artificial intelligence in modern physics research.

His investigations into information entropy and heavy-ion collisions have also contributed to the quantitative characterization of nuclear reaction systems, linking statistical concepts with observable nuclear phenomena.

Publications

Selected publications representative of Chun-Wang Ma’s research activities include:

  • Nuclear Fragments in Projectile Fragmentation Reactions (Progress in Particle and Nuclear Physics, 2021).
  • Systematic Behavior of Fragments in Bayesian Neural Network Models for Projectile Fragmentation Reactions (Physical Review C, 2023).
  • Determination of Neutron-Skin Thickness Using Configurational Information Entropy (Nuclear Science and Techniques, 2022).
  • Shannon Information Entropy in Heavy-Ion Collisions (Progress in Particle and Nuclear Physics, 2018).
  • A Novel Bayesian Neural Network Approach for Nuclear Root-Mean-Square Charge Radii (IEEE Transactions on Nuclear Science, 2025).
  • Bubble 36Ar and its New Breathing Modes (Physics Letters B, 2024).
  • A Possible Probe to Neutron-Skin Thickness by Fragment Parallel Momentum Distribution in Projectile Fragmentation Reactions (2024).

Research Impact

The research impact of Chun-Wang Ma is reflected in a substantial publication portfolio, more than two thousand scholarly citations, and an h-index of 24. His studies have appeared in journals including Physical Review C, Physical Review Letters, Physics Letters B, Progress in Particle and Nuclear Physics, Nuclear Science and Techniques, Chinese Physics C, and IEEE Transactions on Nuclear Science. These publications contribute to ongoing discussions regarding nuclear structure, rare isotope production, reaction dynamics, and advanced computational modeling.[2]

His participation in competitive research grants further demonstrates scientific leadership and sustained engagement with nationally significant research initiatives focused on rare isotopes, projectile fragmentation, and neutron-rich nuclear systems.[3]

Award Suitability

The nomination of Chun-Wang Ma for the Best Scholar Award is supported by several indicators of academic achievement. These include a sustained publication record, recognized contributions to nuclear physics research, successful acquisition of competitive research funding, interdisciplinary integration of machine learning methods, and active participation in advancing understanding of nuclear reaction mechanisms. His work demonstrates both depth within specialized areas of nuclear physics and adaptability to emerging computational techniques, characteristics frequently associated with scholarly distinction and research excellence.[1][3]

Conclusion

Chun-Wang Ma has established a respected academic profile through sustained contributions to nuclear physics, particularly in the areas of heavy-ion collisions, projectile fragmentation, neutron-rich nuclei, and computational nuclear science. His combination of theoretical insight, experimental engagement, and methodological innovation has produced a body of work that continues to influence ongoing research in the field. Based on his scholarly achievements, research productivity, and scientific impact, he represents a strong candidate for recognition through the Best Scholar Award presented at the Global Particle Physics Excellence Awards.

References

  1. ORCID. (n.d.). Chun-Wang Ma (0000-0001-9372-518X) researcher profile. ORCID.
    https://orcid.org/0000-0001-9372-518X
  2. Elsevier. (n.d.). Scopus author details: Chun-Wang Ma, Author ID 8723805700. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=8723805700
  3. National Natural Science Foundation of China. Research funding projects led and participated in by Chun-Wang Ma.
    https://orcid.org/0000-0001-9372-518X
  4. Ma, C.-W. et al. (2021). Nuclear Fragments in Projectile Fragmentation Reactions. Progress in Particle and Nuclear Physics.
    DOI: https://doi.org/10.1016/j.ppnp.2021.103911
  5. Ma, C.-W. et al. (2022). Determination of Neutron-Skin Thickness Using Configurational Information Entropy. Nuclear Science and Techniques.
    DOI: https://doi.org/10.1007/s41365-022-00997-0

Gregory Vereshchagin | Cosmology and Physics | Research Excellence Award

Research Excellence Award

Gregory Vereshchagin — ICRANet
Gregory Vereshchagin
Affiliation ICRANet
Country Italy
Scopus ID 8686090800
Documents 104
Citations 1,628
h-index 19
Subject Area Cosmology and Physics
Event Global Particle Physics Excellence Awards

The Research Excellence Award recognizes the sustained scholarly contributions of Gregory Vereshchagin in the fields of cosmology, gravitation, and theoretical physics. Affiliated with ICRANet, Vereshchagin has contributed to the advancement of contemporary astrophysical and cosmological research through publications, collaborative investigations, and theoretical modeling relevant to particle physics and early-universe studies.[1] His work has addressed important themes involving relativistic cosmology, inflationary models, dark energy, and quantum aspects of the universe.[2]

Abstract

Gregory Vereshchagin has developed a research portfolio centered on cosmological physics, gravitational theory, and particle cosmology. His scholarly work explores theoretical frameworks associated with the evolution of the universe, relativistic astrophysics, and inflationary cosmology. The academic record associated with his Scopus profile indicates broad engagement with interdisciplinary studies connecting gravitation, cosmology, and high-energy theoretical physics.[1] The Research Excellence Award acknowledges these scientific contributions and their relevance to the ongoing development of cosmological research methodologies and theoretical interpretation.[3]

Keywords

Cosmology, Particle Physics, Relativistic Astrophysics, Inflationary Models, Gravitation Theory, Early Universe Physics, Quantum Cosmology, High-Energy Physics, Dark Energy, Theoretical Physics

Introduction

The study of cosmology and particle physics has increasingly relied on interdisciplinary theoretical approaches capable of integrating astrophysical observations with advanced mathematical frameworks. Researchers contributing to this field often address questions concerning the origin, structure, and evolution of the universe. Gregory Vereshchagin has participated in this scientific discourse through investigations connected to cosmological dynamics and relativistic models.[2]

His research activity has been associated with ICRANet, an institution internationally recognized for work in relativistic astrophysics and cosmology. Through collaborative publications and theoretical analyses, Vereshchagin has contributed to scientific discussions regarding inflationary cosmology, quantum gravity considerations, and cosmological perturbation theory.[4]

Research Profile

The Scopus profile associated with Gregory Vereshchagin identifies a sustained publication record comprising more than one hundred indexed documents and a citation count exceeding one thousand references from the scientific community.[1] His h-index reflects continued scholarly engagement and measurable research visibility within the domains of cosmology and theoretical physics.

Research themes appearing across his publication history include:

  • Inflationary and cyclic cosmological models
  • Relativistic astrophysics and gravitation
  • Quantum cosmological frameworks
  • Dark energy and vacuum dynamics
  • Mathematical approaches to particle cosmology

Research Contributions

Gregory Vereshchagin has contributed to theoretical analyses investigating the relationship between cosmological evolution and particle interactions. Several studies have examined inflationary mechanisms capable of explaining large-scale structure formation and cosmic microwave background phenomena.[5]

Additional work has focused on mathematical models describing the dynamics of the early universe under relativistic conditions. Such investigations are significant within particle physics because they support theoretical interpretations related to matter distribution, cosmological singularities, and quantum gravitational effects.

His publications have also addressed interdisciplinary themes involving astrophysics, gravitation theory, and cosmological perturbations. These contributions support broader efforts to refine predictive cosmological models and improve theoretical consistency within modern astrophysics.

Publications

Selected publication themes and representative scholarly outputs include:

  • Research on inflationary cosmology and early-universe models associated with particle physics.[5]
  • Studies addressing relativistic cosmology and quantum gravitational frameworks.
  • Collaborative publications involving cosmological perturbations and theoretical astrophysics.
  • Scientific discussions concerning dark energy and cosmological expansion theories.

Research Impact

The citation record connected with Gregory Vereshchagin’s publications demonstrates continued engagement from researchers working in cosmology, astrophysics, and particle physics. His contributions are referenced in studies related to inflationary cosmology, relativistic dynamics, and quantum gravity theories.[1]

The international visibility of his work is further reflected through collaborative institutional associations and indexing within global scientific databases. Such metrics indicate sustained scholarly relevance and contribution to theoretical scientific inquiry.[3]

Award Suitability

The Global Particle Physics Excellence Awards recognize researchers whose scientific activities contribute meaningfully to the advancement of theoretical and experimental particle physics. Gregory Vereshchagin’s academic record demonstrates alignment with these objectives through sustained research productivity, citation impact, and theoretical contributions to cosmological physics.

His work within cosmology and high-energy theoretical physics supports ongoing efforts to understand the physical principles governing the universe. The breadth of his scholarly engagement and the interdisciplinary relevance of his publications support his recognition within the context of international scientific awards.[2]

Conclusion

Gregory Vereshchagin has established a notable academic presence within the fields of cosmology and theoretical physics through publications, collaborative research, and contributions to cosmological theory. His affiliation with ICRANet and his documented scientific output reflect sustained engagement with important questions concerning the origin and evolution of the universe.[1] The Research Excellence Award acknowledges these contributions and their continuing relevance to global scientific research in particle physics and cosmology.

References

  1. Elsevier. (n.d.). Scopus author details: Gregory Vereshchagin, Author ID 8686090800. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=8686090800
  2. ORCID. (n.d.). ORCID profile of Gregory Vereshchagin.
    https://orcid.org/0000-0002-1623-3576
  3. Vereshchagin, G. (2003). Pair luminosity and cooling of newborn strange star: Unpaired quarks.
    https://www.researchgate.net/publication/399514216_Pair_luminosity_and_cooling_of_newborn_strange_star_Unpaired_quarks
  4. Vereshchagin, G., et al. (2002). Role of the neutral X-fermion in describing the dark matter of the universe.
    https://link.springer.com/article/10.1140/epjc/s10052-025-14404-6
  5. Physicist Particle. (n.d.). Global Particle Physics Excellence Awards.

    Global Particle Physics Excellence Awards


Rajiv Kumar | Sciences | Outstanding Scientist Award

Prof. Rajiv Kumar | Sciences | Outstanding Scientist Award

Prof. Rajiv Kumar, University of Delhi, India

Dr. Rajiv Kumar is a distinguished academic and researcher with a Ph.D. from the University of Delhi, India. He has served as faculty at the National Institute of Medical Sciences University and held teaching positions at the University of Delhi and Chaudhary Charan Singh University. In addition to his academic roles, Dr. Kumar has worked as a Research Scientist with the Defense Research and Development Organization (DRDO), where he contributed to cutting-edge research in the defense sector. His work spans both academic and applied research, making significant contributions to his fields of expertise.

PROFILE

Scopus Profile

Google Scholar Profile

Orcid Profile

Educational Details

Dr. Rajiv Kumar holds a Ph.D. in Chemistry from the University of Delhi, awarded in 2004 for his thesis titled “Transition Metal Complexes of Nitrogen-Nitrogen, Nitrogen-Oxygen, and Nitrogen-Sulphur Donor Macrocyclic Ligands.” Prior to this, he earned his M.Sc. in Chemistry from CCS University in 1999, graduating as the top student in his class. He also achieved top honors in his B.Sc. in 1997 from the same institution. Dr. Kumar’s academic excellence extends to his early education, where he was a topper in both his Intermediate (1994) and High School (1992) examinations from the U.P. Board in Allahabad. His consistently outstanding academic record reflects his deep expertise and commitment to the field of chemistry.

Academic Distinction

Dr. Rajiv Kumar has received several prestigious awards throughout his academic career. He was honored with a National Award for being the College Topper and achieving academic distinction in four theory papers during his M.Sc. Chemistry in 1999. In 1994, he was recognized with another National Award for being the School Topper and earning academic distinction in Chemistry and Biology in his XII grade. Additionally, Dr. Kumar was a recipient of the Ekakrit Scholarship, a national fellowship awarded by the U.P. Government for two consecutive years (1990-1992) during his IX and X grades. On the international stage, he was awarded for having the most downloaded article of all time in the journal Advances in Bioscience and Biotechnology in 2020.

Professional Experience:

Dr. Rajiv Kumar has a distinguished career spanning various roles and institutions. From 2020 to 2024, he served as an International Scientist, contributing as an author, editor, and reviewer for international publishers. Prior to this, he was a faculty member at the National Institute of Medical Sciences, India, from 2019 to 2020. His previous roles also include being an International Scientist with responsibilities as an author, editor, and reviewer from 2013 to 2019. Dr. Kumar’s academic career began as a faculty member in Chemistry at the University of Delhi from 2006 to 2013, and earlier at CCS University from 2004 to 2005. He also held research positions at the CFEES, Defence Research and Development Organization, where he worked on “Computational Approaches of Novel Perfluorinated Molecules Used as Potential Fire Extinguishers” in 2008. Additionally, Dr. Kumar completed post-doctoral fellowships at the Indian Agricultural Research Institute and the National Bureau of Plant Genetic Resources in 2005-2006. He began his Ph.D. research at the University of Delhi from 1999 to 2004, focusing on “Transition Metal Complexes of Nitrogen-Nitrogen, Nitrogen-Oxygen, and Nitrogen-Sulphur Donor Macrocyclic Ligands.”

Featured Research Articles

Dr. Rajiv Kumar has published 120 research articles and 90 reviews in prestigious international and national journals. He has also participated in 20 conferences and workshops and contributed to 2 books and 12 book chapters. His research article was featured on the cover page of Molecular Omics, published by the Royal Society of Chemistry, London, in 2021. He co-authored the international book Nanotechnology and Nanomaterials in the Treatment of Life-threatening Diseases with N. Kumar, published by Elsevier in 2014, which has been cited 35 times.

Research Interest

Dr. Rajiv Kumar’s research encompasses a broad range of scientific disciplines. In nanoscience, he explores fields such as nanotechnology, nanomedicine, and the nano-bio interface, including nano-informatics, bio-nanotechnology in biosensors, computational nanotechnology, DNA nanotechnology, and nano-herbal medicine. His work in biological science focuses on molecular omics, apoptosis, cell cleaning, proteostasis, proteolysis, cell signaling, cellular perturbations, DNA damage pathways, homeostasis, cytoskeletal pathology, material-cell interface mimicry, cellular mechanotransduction, stem cell tissue engineering, stem cell biology, cellular bionics, the blood-brain barrier, neurodegeneration, and biomarkers. In medical science, he is involved in immunotherapeutics, neuropsychiatry, regenerative therapy, arteriosclerosis, strokes, and heart attacks. His computational science research includes molecular modeling, cheminformatics, and metabolomics. In chemical science, his interests include macrocycles, macromolecules, alkaloids in traditional medicine, herbal medicine, antibiotic drugs, and spectroscopy. His environmental science research addresses fluorine chemistry, environmental engineering, sustainability, and the integration of materials and technologies.

Top Notable Publications

Article

Title: Synthesis and spectral studies on mononuclear complexes of chromium (III) and manganese (II) with 12-membered tetradentate N2O2, N2S2, and N4 donor macrocyclic ligands

Authors: S. Chandra, R. Kumar

Journal: Transition Metal Chemistry

Year: 2004

Volume: 29

Issue: 3

Pages: 269-275

Citations: 174

Article

Title: Molecular markers and their applications in fisheries and aquaculture

Authors: T. Chauhan, K. Rajiv

Journal: Advances in Bioscience and Biotechnology

Year: 2010

Volume: 1

Issue: 4

Pages: 281-291

Citations: 167

Book

Title: Nanotechnology and Nanomaterials in the Treatment of Life-threatening Diseases

Authors: N. Kumar, R. Kumar

Publisher: William Andrew

Year: 2013

Citations: 57

Article

Title: Chromium (III) complexes with different chromospheres macrocyclic ligands: synthesis and spectroscopic studies

Authors: R. Kumar, R. Singh

Journal: Turkish Journal of Chemistry

Year: 2006

Volume: 30

Issue: 1

Pages: 77-87

Citations: 57

Article

Title: Electronic, cyclic voltammetry, IR and EPR spectral studies of copper (II) complexes with 12-membered N4, N2O2 and N2S2 donor macrocyclic ligands

Authors: S. Chandra, R. Kumar

Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy

Year: 2005

Volume: 61

Issue: 3

Citations: 46

Article

Title: Prospects of Applied Nanomedicine: potential clinical and (bio) medical interventions via nanoscale research advances

Authors: Bhupender S. Chhikara, Rajiv Kumar, Brijesh Rathi, Sivashankar Krishnamoorthy, et al.

Journal: J. Mater. Nanosci

Year: 2016

Volume: 3

Issue: 2

Pages: 50-56

Citations: 41

Article

Title: Herbal nanomedicine interactions to enhance pharmacokinetics, pharmacodynamics, and therapeutic index for better bioavailability and biocompatibility of herbal formulations

Authors: R. Kumar, M. Sharma

Journal: Journal of Materials NanoScience

Year: 2018

Volume: 5

Issue: 1

Pages: 35-60

Citations: 32

Article

Title: Perspectivity of bifunctional chelating agents in chemical, biological, and biomedical applications

Authors: B.S. Chhikara, S. Kumar, N. Jain, A. Kumar, R. Kumar

Journal: Chemical Biology Letters

Year: 2014

Volume: 1

Issue: 2

Pages: 77-103

Citations: 28

Article

Title: Viral infection mitigations using advanced nanomaterials and tools: lessons from SARS-CoV-2 for future prospective interventions

Authors: B.S. Chhikara, R. Kumar, P. Bazard, R.S. Varma

Journal: Journal of Materials NanoScience

Year: 2021

Volume: 8

Issue: 2

Pages: 64-82

Citations: 26

Article

Title: Synthesis, electrochemistry and spectral studies on cobalt(II) and manganese (II) complexes with 12-, 14-, 15-, and 18-membered N4, N2O2, N2O2S, N6 donor macrocyclic ligands

Author: R. Kumar

Journal: Synthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry

Year: 2005

Citations: 26

Article

Title: Spectroscopic techniques and cyclic voltammetry with synthesis: Manganese (II) coordination stability and its ligand field parameters effect on macrocyclic ligands

Authors: R. Kumar, S. Chandra

Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy

Year: 2007

Volume: 67

Issue: 1

Citations: 25