Dr Mansour Binandeh | Biomedicine chemistry | Editorial Board Member

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Dr Mansour Binandeh , Biomedicine chemistry, Editorial Board Member .

University of Birjand,Iran

Professional Profiles:

SCOPUS

πŸ‘¨β€πŸŽ“ Bio Summary:

Dr. Mansour Binandeh is a distinguished researcher specializing in magnetic nanocatalysts for drug delivery systems and coupling bonding in Chemistry. With 21 articles, including 2 reviews, indexed on Google Scholar under the name Mans Binandeh, he has demonstrated expertise in the field. His research primarily focuses on the absorption and release of biologically active substances, such as ampicillin, DNA, protein BSA, and MTX biodrug, in innovative drug delivery systems.

πŸŽ“ Education:

Dr. Binandeh holds advanced degrees in Chemistry, showcasing a strong academic foundation. His educational journey has equipped him with the knowledge and skills crucial for his groundbreaking research in nanocatalysts and drug delivery.

πŸ” Research Focus:

Dr. Binandeh’s primary research revolves around the design and application of magnetic nanocatalysts. His work emphasizes the absorption and release properties of these nanoparticles in drug delivery systems, with a focus on various bioactive substances. Additionally, his contributions extend to coupling bonding in Chemistry, showcasing a diverse research portfolio.

πŸ‘©β€πŸ’Ό Professional Journey:

Dr. Binandeh has carved an illustrious professional journey marked by continuous dedication to cutting-edge research. His work spans multiple disciplines, contributing significantly to the understanding of magnetic nanocatalysts’ applications and coupling bonding in Chemistry.

πŸ† Honors & Awards:

In recognition of his outstanding contributions, Dr. Binandeh has received prestigious honors and awards. These accolades underscore his impact on the scientific community and highlight his commitment to advancing knowledge in his field.

πŸ“š Top Noted Publications :

1. Catalytic Power of Magnetic Nanoparticles in Heck Reaction

Authors: Binandeh, M.; Nasseri, M.; Allahresani, A.

Journal: Materials Chemistry and Physics, 2023, 296, 127230

Abstract: This study explores the catalytic power of magnetic nanoparticles incorporating a heterocyclic linker and copper metal, aiming to enhance the efficiency of the Heck reaction. The synergy between the heterocyclic linker and copper metal proves instrumental in catalyzing the reaction, presenting a promising avenue for advancing catalytic processes.

2. Performance of Unique Magnetic Nanoparticles in Biomedicine

Author: Binandeh, M.

Journal: European Journal of Medicinal Chemistry Reports, 2022, 6, 100072

Abstract: Investigating the performance of distinctive magnetic nanoparticles in biomedicine, this article provides valuable insights into their potential applications. The study highlights the unique attributes of these nanoparticles, laying the groundwork for further exploration in the realm of medical chemistry.

3. Promotion of Suzuki-Miura Reaction under Bimetallic Green Catalyst

Authors: Binandeh, M.; Nasseri, M.A.; Allahresani, A.

Journal: Materials Advances, 2022, 11(36)

Abstract: Focusing on the promotion of the Suzuki-Miura reaction, this research introduces a bimetallic green catalyst. The collaborative efforts of copper and another metal enhance the catalytic efficiency, opening avenues for greener and more sustainable catalytic processes.

4. High-Power and High-Performance Catalyst for Suzuki Coupling Reaction

Authors: Binandeh, M.; Nasseri, M.A.; Allahresani, A.

Journal: Catalysts, 2022, 12(9), 976

Abstract: This article presents a high-power and high-performance catalyst designed for the Suzuki coupling reaction. The study explores the unique properties of the catalyst, demonstrating its potential in advancing Suzuki coupling reactions with increased efficiency.

5. A Strong System of Magnetic Nanocatalysts in Absorbing and Releasing Ampicillin

Author: Binandeh, M.

Journal: Bioinspired, Biomimetic and Nanobiomaterials, 2022

Abstract: Investigating a robust system of magnetic nanocatalysts, this research focuses on the absorption and release of ampicillin along with its antibacterial properties. The study sheds light on the potential of these nanocatalysts in the controlled delivery of antimicrobial agents.

Author Metrics πŸ“Š :Β 

As reflected in his author metrics, Dr. Binandeh’s research has garnered attention and citations in the scientific community. His work’s impact is evident through the recognition and engagement it has received from peers and scholars.

πŸ“… Research Timeline:

Throughout his research timeline, Dr. Binandeh has consistently pushed the boundaries of scientific inquiry. From his early work on the frequency of high-performance magnetic nanoparticles to recent advancements in catalytic power, his timeline highlights a progression of impactful contributions.

This consolidated overview captures Dr. Mansour Binandeh’s academic journey, research focus, professional achievements, and significant contributions to the field of magnetic nanocatalysts and Chemistry.