Amani Aridi | Nanomaterials | Best Researcher Award

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๐ŸŒŸDr. Amani Aridi, Nanomaterials, Best Researcher Award๐Ÿ†

  • ย  Doctorate at Beirut Arab University, Lebanon

Amani Aridi is a physical chemist hailing from Beirut, Lebanon, with a passion for research and teaching. Armed with a Doctor of Philosophy (PhD) in Physical Chemistry from Beirut Arab University and a strong foundation in Environmental Chemistry from Lebanese University, she has dedicated her career to exploring the intersection of nanomaterials and environmental science. With four years of experience in academia and a plethora of publications to her name, Amani is committed to advancing knowledge in her field and making a positive impact on environmental sustainability.

Author Metrics

Amani Aridi’s contributions to the scientific community are reflected in her author metrics. Through her research, she has garnered recognition, with her work being cited in various scientific publications. Her publications demonstrate her expertise in areas such as heterogeneous catalysis, nanomaterials synthesis, and environmental remediation. Amani’s author metrics serve as a testament to her dedication and impact in the field of physical chemistry.

Scopus Profile

ORCID Profile

Citations by 42 documents 13 Documents 4 h-index

Amani Aridi’s profile reflects her academic contributions and impact in the field. With 13 documents and a citation count of 42, she has demonstrated her expertise and influence. Her research output has earned her a h-index of 4, indicating the significance and reach of her work within the scientific community. Amani’s profile serves as a testament to her dedication to advancing knowledge and addressing pressing environmental challenges.

Education

Amani Aridi’s educational journey has equipped her with a solid foundation in chemistry and environmental science. She obtained her Bachelor of Science (BSc) in Chemistry from Lebanese University, followed by Master’s degrees in Environmental Chemistry and Expertise and Treatment in Environment. Amani further pursued her academic pursuits by completing her Doctor of Philosophy (PhD) in Physical Chemistry at Beirut Arab University. Her educational background has provided her with the knowledge and skills necessary to excel in her research endeavors.

Research Focus

Amani Aridi’s research focuses on the synthesis, characterization, and application of nanomaterials in environmental chemistry. Specifically, her work centers around heterogeneous catalysis, nanocomposites, and their role in wastewater treatment and pollutant removal. Amani’s expertise lies in exploring the structural, optical, and magnetic properties of nanomaterials and harnessing their potential for environmental remediation. Her research endeavors aim to contribute to sustainable solutions for addressing environmental challenges.

Professional Journey

Amani Aridi’s professional journey spans both academia and research. She has served as an Assistant Professor at Beirut Arab University, where she conducted graduate and undergraduate courses in Physical Chemistry and Chemistry-related subjects. Additionally, Amani has worked as a lab instructor, mentoring students in laboratory techniques and experiments. Her dedication to education is complemented by her prolific research output, with numerous publications in reputable scientific journals.

Honors & Awards

Throughout her career, Amani Aridi has been recognized for her contributions to the field of physical chemistry. Her research has garnered accolades, including awards and honors for outstanding academic achievements. These recognitions serve as a testament to Amani’s dedication to excellence and her significant impact on advancing knowledge in her field.

Publications Noted & Contributions

Amani Aridi’s publications showcase her significant contributions to the field of physical chemistry, particularly in the synthesis and characterization of nanomaterials. Her research articles delve into topics such as photocatalytic degradation of organic pollutants, adsorption phenomena, and the removal of heavy metals from wastewater. Amani’s publications not only contribute to the scientific literature but also offer insights and solutions to pressing environmental challenges.

  1. Calcination temperature dependence of tri-magnetic nanoferrite Ni0.33Cu0.33Zn0.33Fe2O4: Structural, morphological, and magnetic properties
    • Journal: Ceramics International
    • Year: 2024-03
    • DOI: 10.1016/j.ceramint.2024.03.180
    • Contributors: Mostafa A. Farhat; Roaa Yassine; Amani Aridi; Zouheir Bitar; Ramadan Awad
  2. Impact of Calcination Temperature on Structural and Optical Properties and Photocatalytic Efficiency of Ni0.33Cu0.33Zn0.33Fe2O4 Nanoparticles in Aniline Degradation
    • Journal: Water, Air, & Soil Pollution
    • Year: 2024-02
    • DOI: 10.1007/s11270-024-06932-w
    • Contributors: Mostafa A. Farhat; Amani Aridi; Roaa Yassine; Zouheir Bitar; Ramadan Awad
  3. Identification of structural and optical properties and adsorption performance of (Cd0.4Ni0.4Mn0.2)Fe2-xRuxO4 nanoparticles for the removal of Congo red dye
    • Journal: Arabian Journal of Chemistry
    • Year: 2024-01
    • DOI: 10.1016/j.arabjc.2023.105477
    • Contributors: Serine Kassem; Nour AlHajjar; Amani Aridi; Ramadan Awad
  4. Influence of Gd3+ ion doping on structural, optical, and magnetic properties of (Mgโ€“Niโ€“Co) nanoferrites
    • Journal: Journal of Nanoparticle Research
    • Year: 2023-11
    • DOI: 10.1007/s11051-023-05879-z
    • Contributors: Amani Aridi; Mariam Rabaa; Ramy Moussa; Rodaina Sayed Hassan; Nader Yaacoub; Ramadan Awad
  5. Samarium doped Mg0.33Ni0.33Co0.33Fe2O4 Nanoparticles for the Removal of As (III) and Pb (II) Heavy Metal Ions
    • Journal: Journal of Water and Environmental Nanotechnology
    • Year: 2023-11
    • DOI: 10.22090/jwent.2023.04.003
    • Contributors: Mariam Rabaa; Amani Aridi; Ghassan Younes; Ramadan Awad

Research Timeline

Amani Aridi’s research timeline illustrates her progression and achievements throughout her academic and professional journey. Starting from her undergraduate studies in Chemistry to her doctoral research in Physical Chemistry, Amani’s timeline highlights key milestones, including educational achievements, research projects, and academic appointments. This timeline serves as a comprehensive overview of Amani’s research trajectory and academic growth.

Collaborations and Projects

Amani Aridi has actively engaged in collaborations and projects aimed at addressing environmental challenges through interdisciplinary research efforts. Collaborating with researchers from various institutions, Amani has contributed her expertise in nanomaterials synthesis and characterization to projects focusing on wastewater treatment, pollutant removal, and environmental remediation. Through collaborative endeavors, Amani aims to leverage collective expertise for innovative solutions to complex environmental issues.

Hai-Chao Li | Micro materials | Best Researcher Award

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๐ŸŒŸProf. Hai-Chao Li, Micro materials, Best Researcher Award๐Ÿ†

  • Professor at Qinghai nationalities University, Chinaย 

Dr. Hai-Chao Li is a Ph.D. professor with expertise in applied chemistry. He completed his postdoctoral fellowship at Fuzhou University in 2005. Throughout his career, he has been recognized for his contributions to the field, including being selected for the “135” Talent Projects of Qinghai Province in 2010. Dr. Li has also engaged in international collaborations, serving as a Visiting Scholar at the University of New Brunswick in Canada from 2014 to 2015. He is currently leading the Qinghai High-end Innovation Thousand Plan.

Author Metrics

Dr. Li’s publications have garnered attention within the scientific community, as evidenced by citation metrics and impact factors of the journals in which his work is published. His research contributions have contributed to the advancement of knowledge in applied chemistry and related disciplines.

Scopus Profile

Haichao Li, affiliated with Qinghai Minzu University in Xining, China. This individual has an ORCID identifier and is associated with the Scopus Author Identifier system. They have 480 citations from 469 documents, with an h-index of 13. Additionally, they have authored 55 documents.

Education

Dr. Hai-Chao Li earned his Ph.D. in applied chemistry and has continued to advance his knowledge and expertise in the field. He has also undergone specialized training during his postdoctoral fellowship at Fuzhou University, which has contributed to his comprehensive understanding of applied chemistry.

Research Focus

Dr. Li’s research primarily focuses on the synthesis and characterization of various carbon nanostructures. His work involves designing novel strategies for the construction of carbon-based materials with specific properties and applications. Additionally, he explores the utilization of different chemical systems and self-assembly methods to achieve desired nanostructures.

Professional Journey

Throughout his career, Dr. Hai-Chao Li has progressed from a postdoctoral fellow to a prominent professor in the field of applied chemistry. He has been actively involved in research, teaching, and leadership roles, both within academic institutions and through collaborations with international partners. His dedication to advancing scientific knowledge and fostering innovation has been instrumental in his professional journey.

Honors & Awards

Dr. Li has received recognition for his contributions to the field of applied chemistry, including being selected for the “135” Talent Projects of Qinghai Province in 2010. His work has also been acknowledged through various awards and honors, reflecting the impact of his research on the scientific community.

Publications Noted & Contributions

Dr. Hai-Chao Li has made significant contributions to the scientific literature through his publications in renowned journals. His research articles cover a wide range of topics, including the synthesis, characterization, and applications of carbon nanostructures. These publications highlight his innovative approaches and advancements in the field of applied chemistry.

Title: Quantitative Analysis of Low-Content Impurity Crystal Forms in Canagliflozin Tablets by NIR Solid-State Analysis Technique

Authors: M. Liu, J. Liu, Q. Wang, …, C. Shi, W. Dong

Journal: Spectrochimica Acta – Part A: Molecular and Biomolecular Spectroscopy, 2024, 311, 124000

Abstract: This study presents a quantitative analysis of low-content impurity crystal forms in canagliflozin tablets using near-infrared (NIR) solid-state analysis technique. The impurity crystal forms, even at low concentrations, can significantly impact the efficacy and safety of pharmaceutical products. The NIR spectroscopy combined with chemometrics provides a rapid and non-destructive approach for detecting and quantifying these impurities. The experimental results demonstrate the effectiveness of the NIR technique in accurately determining the content of impurity crystal forms in canagliflozin tablets. The method offers a promising solution for quality control and assurance in the pharmaceutical industry.

Title: Functional Highly-Stretchable Semi-Rigid Poly(vinyl chloride) Plastics via the Addition of Core-Shell Type Star Polyethylenimine-block-poly(ฮต-caprolactone)

Authors: C. Wang, P.-Y. Liu, Z.-Z. Lin, Y. Chen, H.-C. Li

Journal: Reactive and Functional Polymers, 2024, 197, 105855

Abstract: This article introduces a novel approach to enhance the stretchability of semi-rigid poly(vinyl chloride) (PVC) plastics by incorporating core-shell type star polyethylenimine-block-poly(ฮต-caprolactone) (PEI-b-PCL) nanoparticles. The addition of PEI-b-PCL nanoparticles imparts unique mechanical properties to the PVC matrix, rendering it highly-stretchable while maintaining its semi-rigid nature. The synthesized PVC/PEI-b-PCL composite exhibits excellent tensile strength and elongation at break, making it suitable for various applications requiring stretchable and durable materials.

Title: Preparation and Characterization of Polyvinyl Chloride Based Carbon Materials with High Specific Surface Area

Authors: C. Zhang, H. Li, Z. Lin, B. Du, X. Zhang

Journal: Carbon Trends, 2024, 14, 100322

Abstract: This study presents the preparation and characterization of polyvinyl chloride (PVC) based carbon materials with high specific surface area. The PVC precursor is carbonized under controlled conditions to obtain carbon materials suitable for various applications, including energy storage and environmental remediation. The synthesized carbon materials exhibit a high specific surface area, as confirmed by nitrogen adsorption-desorption measurements. The characterization results demonstrate the potential of PVC-based carbon materials as promising candidates for next-generation carbonaceous materials.

Title: Synthesis of Newly Discovered Carbon Nanoframes: A Self-Assembly Strategy Based on DTAB @ NaCl

Authors: B. Du, H. Li, C. Zhang, Q. Ji

Journal: Advanced Materials Interfaces, 2024, 11(4), 2300832

Abstract: This article presents a self-assembly strategy for the synthesis of newly discovered carbon nanoframes using dodecyl trimethyl ammonium bromide (DTAB) and sodium chloride (NaCl) as templates. The self-assembly process facilitates the formation of carbon nanoframes with a unique porous structure and high surface area. The synthesized carbon nanoframes exhibit promising properties for various applications, including catalysis, energy storage, and gas adsorption. The proposed self-assembly strategy offers a facile and scalable approach for the production of carbon nanoframes with tailored morphologies and functionalities.

Title: Preparation and Characterization of Cellulose-based Activated Carbon by Cesium Chloride Chemical Method

Authors: C. Zhang, H. Li, B. Du

Journal: BioResources, 2024, 19(1), pp. 1295โ€“1304

Abstract: This article presents the preparation and characterization of cellulose-based activated carbon using a cesium chloride chemical method. The cellulose precursor is carbonized and activated under controlled conditions to obtain activated carbon with high porosity and specific surface area. The synthesized activated carbon exhibits excellent adsorption capacity towards various pollutants, making it suitable for applications in water treatment, air purification, and environmental remediation. The study provides valuable insights into the development of sustainable and efficient activated carbon materials derived from renewable biomass resources.

Research Timeline

Dr. Hai-Chao Li’s research journey spans several years, beginning with his postdoctoral fellowship in 2005 and continuing to the present day. Over this time, he has undertaken various research projects, collaborations, and leadership roles, contributing to the advancement of scientific knowledge and innovation in applied chemistry.

Collaborations and Projects

Dr. Li has engaged in collaborations with colleagues and institutions both domestically and internationally. These collaborations have facilitated interdisciplinary research and the exchange of knowledge and expertise in areas related to carbon nanostructures and applied chemistry. Additionally, Dr. Li has led or participated in various research projects aimed at addressing key scientific challenges and advancing technology in his field.