Nazrul Islam Khan | Composite Materials Science | Best Researcher Award

Posted on 29/01/202406/02/2024 by ScienceFather

Assist Prof Dr. Nazrul Islam Khan | Netaji Subhash University of Technology | India

Professional Profiles:

Early Academic Pursuits

His academic journey with a Bachelor's degree in Mechanical Engineering from Girijananda Choudhury Institute of Management and Technology, Azara, securing honors in 2013. He continued his academic pursuit by obtaining a Master's degree in Mechanical Engineering with a specialization in Materials & Manufacturing Technology from the National Institute of Technology, Silchar (NIT Silchar), in 2015, where he achieved the top position. Dr. Khan further pursued a Ph.D. from NIT Silchar, completing it in 2019 with an impressive CPI of 9.33.

Professional Endeavors

Dr. Nazrul Khan has held significant roles in academia and research. His journey includes serving as a Junior Research Fellow (JRF) and Senior Research Fellow (SRF) at the Department of Mechanical Engineering, NIT Silchar, from July 2015 to July 2019. Following this, he assumed the position of Senior Assistant Professor at the Department of Mechanical Engineering, GMR Institute of Technology, Rajam, Andhra Pradesh, India, from July 2019 to April 2021. Currently, he is contributing to the academic environment as an Assistant Professor at the Department of Mechanical Engineering, Netaji Subhas University of Technology, New Delhi, since June 2021.

Contributions and Research Focus

His research experience during his tenure as JRF and SRF involved significant contributions to the field of Mechanical Engineering. His academic and professional background reflects expertise in Materials & Manufacturing Technology, and his research focus is likely to encompass areas within this domain. As an Assistant Professor, his contributions to education and research are expected to further enrich the academic environment at Netaji Subhas University of Technology.

Accolades and Recognition

His academic achievements, including being a topper during his M.Tech, highlight his dedication and excellence in the field of Mechanical Engineering. His notable CPI and honors in the Master's program at NIT Silchar showcase his academic prowess.

Impact and Influence

As an Assistant Professor, Dr. Khan is in a position to influence the academic and research endeavors of students. His diverse experiences, from research at NIT Silchar to teaching roles at GMR Institute of Technology and Netaji Subhas University of Technology, indicate his potential impact on shaping the future of aspiring engineers.

Legacy and Future Contributions

His legacy is still evolving, with his ongoing contributions to academia. His commitment to translating knowledge and skills into value for an organization aligns with the pursuit of excellence in education and research. In the future, he is likely to continue making significant contributions to the field of Mechanical Engineering, leaving a lasting impact on students and the academic community.

Citations:

Citations 384

h-index 13

i10-index 14

Notable Publications:

A review on Diels-Alder based self-healing polymer composites, 2018, (48)

Effect of reactive and non-reactive diluents on thermal and mechanical properties of epoxy resin ,2018, (44)

Effect of epoxy resin and hardener containing microcapsules on healing efficiency of epoxy adhesive based metal joints , 2016, (36)

Diels-Alder based epoxy matrix and interfacial healing of bismaleimide grafted GNP infused hybrid nanocomposites, 2019, (34)

Exfoliation level of aggregated graphitic nanoplatelets by oxidation followed by silanization on controlling mechanical and nanomechanical performance of hybrid CFRP composites, 2019, (34)

Superior mechanical properties of poly vinyl alcohol-assisted ZnO nanoparticle reinforced epoxy composites, 2017, 23

Graphitic nanoparticles functionalized with epoxy moiety for enhancing the mechanical performance of hybrid carbon fiber reinforced polymer laminated composites, 2020, (20)

Martin Ignacio Pech-Canul | Composite Materials Science | Best Researcher Award

Posted on 27/01/202429/01/2024 by ScienceFather

Prof. Martin Ignacio Pech-Canul | Center for Research and Advanced Studies of the National Polytechnic Instittute | Mexico

Professional Profiles:

Early Academic Pursuits

His academic journey with a Bachelor's degree in Industrial Chemical Engineering from Yucatan State University, Mexico, in 1988. He later pursued a Master's degree in Non-Ferrous Metallurgy at CINVESTAV-Unidad Saltillo, Mexico, and earned his Ph.D. in Materials Science and Engineering from Worcester Polytechnic Institute in 1999.

Professional Endeavors

Since September 1st, 1999, Dr. Pech-Canul has been a Research-Professor at CINVESTAV, affiliated with the Master's and Doctorate programs in Ceramics Engineering and Metallurgy and Ceramics Engineering, respectively. His dedication and expertise have contributed significantly to the academic and research activities at CINVESTAV.

Contributions and Research Focus

His research spans various areas, including interfacial phenomena between metallic and ceramic materials, processing and characterization of composites, mechanical behavior of composite materials, corrosion behavior of metal alloys and metal matrix composites, and synthesis and characterization of advanced ceramics. His work also involves the synthesis of ceramic materials for various applications, such as varistors and dosimetry.

Accolades and Recognition

Dr. Pech-Canul has received notable awards and honors throughout his career. He was honored for participating in the Fulbright Program from 1995 to 1999, showcasing his international recognition. Additionally, he received prizes for supervising Ph.D. theses that won the Arturo Rosenblueth Prize in the field of Technology and Engineering Sciences at CINVESTAV.

Impact and Influence

Dr. Pech-Canul's impact is evident in his extensive research contributions and mentorship of successful Ph.D. candidates. His expertise in materials science and engineering, particularly in the synthesis and characterization of advanced ceramics and composite materials, has contributed to the advancement of knowledge in these fields.

Legacy and Future Contributions

Dr. Martin Ignacio Pech-Canul's legacy lies in his commitment to research, education, and the development of innovative materials. His leadership at CINVESTAV and his recognition in international programs like Fulbright highlight his commitment to advancing scientific knowledge. As he continues his academic journey, Dr. Pech-Canul is likely to further influence and contribute to the fields of ceramics engineering and materials science.

Notable Publications:

Development feasibility of TLD phosphors and thermoluminescent composite materials for potential applications in dosimetry: A review, 2022, (14)

Influence of high energy ball milling on structural, microstructural and optical properties of TiO₂ nanoparticles, 2022, (6)

Gadolinium doped ceria nanostructured oxide for intermediate temperature solid oxide fuel cells, 2021, (4)

Cu₂ZnSnS₄ nanoparticles synthesized via reaction media with glycine, 2021, (5)

Improving the Interfacial Reaction Between Cristobalite Silica from Rice Husk and Al–Mg–Si by CVD-Si₃N₄ Deposition, 2020, (14)

Preparation of AlN-Cu composite powders by electroless plating of controlled oxidized nitride particles to prevent degradation by hydrolysis, 2020, (2)

The beneficial effect of BaTiO₃ on the structure, microstructure, and electrical properties of SnO₂-based ceramics, 2024, (1)

Anbang Chen | Composite Materials Science | Best Researcher Award

Posted on 08/01/202410/01/2024 by ScienceFather

Dr. Anbang Chen | Sichuan University | China

Professional Profiles:

Early Academic Pursuits

Anbang Chen embarked on an academic journey in materials science and engineering, delving deep into fundamental principles during their bachelor's at Qinghai University. Their Master's at Zhengzhou University honed their skills, and eventually, they pursued a Doctorate in Biomedical Engineering at Sichuan University. Throughout this educational odyssey, Anbang demonstrated a keen interest in materials research and thermodynamics, laying the groundwork for their impactful future endeavors.

Professional Endeavors

Anbang's research trajectory has been groundbreaking, marked by innovative studies in diverse fields. Their work includes pioneering designs for blast furnace refractory materials, investigating aluminum alloy strengthening mechanisms, and introducing novel concepts for enhancing thermal insulation materials. The fusion of nanotechnology and materials engineering in their projects showcases a multidisciplinary approach.

Contributions and Research Focus

Anbang's contributions have significantly advanced the understanding and application of materials in various industries. Their research spanned topics such as enhancing mechanical properties and thermal insulation of ceramics through hollow sphere fabrication, a concept they pioneered. Their work has impacted fields like high-temperature materials, porous thermal insulation materials, and carbon-based composites, offering solutions for improved industrial materials.

Accolades and Recognition

Anbang's contributions have garnered attention, reflected in their publications in esteemed journals like 'Journal of Asian Ceramic Societies,' 'Ceramics International,' and 'Progress in Natural Science: Materials International.' Their pioneering research methodologies and innovative concepts have earned recognition within the materials science community, establishing Anbang as a promising researcher.

Impact and Influence

His research has significantly impacted the field of materials science, particularly in enhancing the mechanical and thermal properties of ceramics. Their findings and methodologies have laid the foundation for future advancements in high-temperature materials, offering solutions for industries reliant on durable and thermally resistant materials.

Legacy and Future Contributions

Anbang's legacy lies in their pioneering research methodologies and innovative approaches to materials engineering. Their work has set a precedent for interdisciplinary collaborations and novel material fabrication techniques. Moving forward, Anbang aims to continue pushing boundaries in materials science, potentially exploring new avenues in flexible and stretchable devices, renewable energy technologies, and nanomaterials for electronics, contributing further to the global scientific community.

Citations:

Citations 100

h-index 6

i10-index 6

Notable Publications:

Mechanically stable all flexible supercapacitors with fracture and fatigue resistance under harsh temperatures- J Huang, S Han, J Zhu, Q Wu, H Chen, A Chen, J Zhang, B Huang, Advanced Functional Materials 32 (35), 2205708, 2022, (28)

Stretchable and self-healing ionic conductive elastomer for multifunctional 3D printable sensor- Q Wu, S Han, J Zhu, A Chen, J Zhang, Z Yan, J Liu, J Huang, X Yang, Chemical Engineering Journal 454, 140328, 2023, (16)

Trace nanoscale Al2O3 in Al2O3-MgAl2O4 castable for improved thermal shock performance- P Zhang, A Chen, D Ding, S Gao, X Liu, G Ye, G Liao, Ceramics International 45 (17), 23029-23036, 2019, (16)

The impact of mechanical grinding on calcium aluminate cement hydration at 30 C- K Liu, A Chen, X Shang, L Chen, L Zheng, S Gao, Y Zhou, Q Wang, G Ye, Ceramics International 45 (11), 14121-14125, 2019, (15)

Oxidation resistance of Al2O3–SiC–C castables with different grades of andalusite- A Chen, X Wang, W Zhou, Y Mu, C Parr, G Ye, Journal of Alloys and Compounds 851, 156836, 2021, (11)

Oxidation resistance of andalusite-bearing Al2O3–SiC–C castables containing reduced anti-oxidant- A Chen, Y Fu, Y Mu, Q Wang, C Parr, G Ye, Ceramics International 47 (10), 14579-14586, 2021, (10)

Novel porous ceramic with high strength and thermal performance using MA hollow spheres- A Chen, L Li, C Wang, Q Wang, Progress in Natural Science: Materials International 32 (6), 732-738, 2022, (3)

Enhancing thermal insulation and mechanical strength of porous ceramic through size-graded MA hollow spheres-A Chen, L Li, W Ren, C Wang, Q Wang, Ceramics International 49 (20), 33247-33254, 2023, (1)

Mahvish Fatima | Composite Materials Science | Women Researcher Award

Posted on 26/12/202326/12/2023 by ScienceFather

Assist Prof Dr. Mahvish Fatima | Qassim university | Saudi Arabia

Professional Profiles:

Early Academic Pursuits

Dr. Mahvish Fatima's academic journey began with a strong foundation in Physics at The Islamia University of Bahawalpur, Pakistan, where she pursued her M.Sc., M.Phil., and ultimately her Ph.D. in Biomedical Physics. Her educational trajectory laid the groundwork for her multifaceted expertise in various scientific disciplines.

Professional Endeavors

Dr. Fatima has carved an impressive career path, notably serving as an Assistant Professor at the Department of Physics, Qassim University in Saudi Arabia. Her tenure in academia has been marked by a prolific research portfolio and substantial contributions to the field of Biomedical Physics.

Contributions and Research Focus

Dr. Fatima's contributions are multidimensional, spanning various scientific domains. Her notable research in characterizing brain tumors using Magnetic Resonance Spectroscopy stands as a significant milestone, offering potential insights into non-invasive diagnostic approaches. Additionally, her work in dose calculations for Brachytherapy with diverse radioactive sources holds promise for refining therapeutic methodologies.

Accolades and Recognition

Dr. Fatima's work has been recognized and acknowledged through numerous publications in reputable scientific journals. Her contributions have been pivotal in advancing the understanding and applications of various materials and methodologies in the field of physics, particularly in biomedical contexts.

Impact and Influence

Her research has made a significant impact, evident from the wide array of publications and collaborations, showcasing the depth and breadth of her expertise. Dr. Fatima's work in understanding the characteristics of materials and their applications in medical contexts has likely influenced the scientific community, providing insights that contribute to advancements in diagnostics, treatment, and materials science.

Legacy and Future Contributions

Dr. Fatima's legacy lies in her dedication to interdisciplinary research, bridging the gap between physics and biomedical applications. Her continuous pursuit of knowledge and innovation sets the stage for future breakthroughs in cancer treatment methodologies, nanomaterial synthesis, and medical diagnostics.

Citations:

Citations 123 122

h-index 5 5

i10-index 5 5

Notable Publications:

In vitro Cytotoxicity, MMP and ROS activity of green synthesized nickel oxide nanoparticles using extract of Terminalia chebula against MCF-7 cells- F Ibraheem, MH Aziz, M Fatima, F Shaheen, SM Ali, Q Huang, Materials Letters 234, 129-133, 2019, (41)

300 keV cobalt ions irradiations effect on the structural, morphological, optical and photovolatic properties of Zn doped TiO2 thin films based dye sensitized solar cells- MI Khan, M Sabir, GM Mustafa, M Fatima, A Mahmood, SA Abubshait, ...Ceramics International 46 (10), 16813-16819, 2020, (24)

An in vitro study of the photodynamic effectiveness of Go-Ag nanocomposites against human breast cancer cells-F Shaheen, M Hammad Aziz, M Fakhar-e-Alam, M Atif, M Fatima, ...Nanomaterials 7 (11), 401, 2017, (23)

Improved photovoltaic performance of dye-sensitized solar cells by Au-ion implantation of titania film electrodes- MI Khan, M Arfan, WA Farooq, A Shehzad, M Saleem, M Fatima, I Ahmad, ...Results in Physics 17, 103093, 2020, (18)

Role of 5d orbital of Re in ferromagnetism and thermoelectric characteristics of Cs2ReCl/Br6 double-perovskites: a density functional theory study- Q Mahmood, T Alshahrani, B Ul Haq, QA Gulfam, Y Tahir, NA Kattan, ...The European Physical Journal Plus 135 (9), 1-13, 2020, (17)

Lotfi Toubal | Composite Materials Science | Best Researcher Award

Posted on 26/12/202308/01/2024 by ScienceFather

Prof. Lotfi Toubal | University of Quebec at Trois-Rivieres | Canada

Professional Profiles:

Early Academic Pursuits

Lotfi Toubal's academic journey commenced with a Bachelor's degree in mechanical engineering from Constantine, Algeria. He furthered his education with a Master's degree in mechanical engineering from École nationale supérieure d'ingénieurs de constructions aéronautiques, Toulouse, France, followed by a Ph.D. in mechanical engineering from Université Toulouse III - Paul Sabatier, France, in 2004.

Professional Endeavors

Toubal's professional career began with a position as an Assistant Professor at École Nationale d’ingénieurs de Tarbes, France, from 2004 to 2005. He then served as a Research Assistant, focusing on industrial materials at the National Research Council of Canada (Boucherville) and École de technologie supérieure (Montreal, Canada) from 2006 to 2009. Since 2009, he has been a Professor in Mechanical Engineering at Université du Québec à Trois-Rivières, specializing in composite materials, fatigue, damage, and non-destructive material characterization.

Contributions and Research Focus

Dr. Toubal's primary research focus revolves around natural fiber composites (NFC) and their potential as alternatives to conventional composites. His work delves deeply into understanding the long-term behavior of NFC, particularly related to damage and fatigue life prediction. He emphasizes the importance of a comprehensive understanding of physical mechanisms specific to NFC and their microstructural evolution due to fatigue, supported by extensive experimental validation.

Accolades and Recognition

Lotfi Toubal's contributions to the field of mechanical engineering, especially in the realm of composite materials, fatigue, and fracture mechanics, have likely earned him recognition within the academic and scientific communities. This recognition may include accolades, publications in reputable journals, and invitations to speak at conferences or contribute as a reviewer for esteemed publications.

Impact and Influence

Toubal's research in the field of composite materials, particularly in exploring the damage of highly heterogeneous natural fiber composites, holds significant implications. His work might impact predictive simulation tools, offering insights into how these materials behave under stress, environmental factors, and various parameters. This understanding could shape the development of more reliable and durable load-bearing applications in engineering.

Legacy and Future Contributions

Dr. Lotfi Toubal's legacy lies in his pioneering efforts to unravel the complexities of natural fiber composites and their behavior under fatigue and damage. His future contributions are poised to further advance predictive modeling tools, using multivariate statistics and stochastic automata to enhance the understanding of materials behavior. Toubal's ongoing dedication promises to fuel advancements in composite materials, fracture mechanics, and non-destructive testing, leaving a lasting impact on the field of mechanical engineering.

Citations:

Citations 1780 1215

h-index 22 19

i10-index 32 30

Notable Publications:

Stress concentration in a circular hole in composite plate- L Toubal, M Karama, B Lorrain, Composite structures 68 (1), 31-36, 2005, (314)

Damage evolution and infrared thermography in woven composite laminates under fatigue loading- L Toubal, M Karama, B Lorrain, International journal of Fatigue 28 (12), 1867-1872, 2006, (255)

Investigating the effect of machining processes on the mechanical behavior of composite plates with circular holes- M Saleem, L Toubal, R Zitoune, H Bougherara, Composites Part A: Applied Science and Manufacturing 55, 169-177, 2013, (139)

Life and damage mode modeling applied to plastic gears- A Bravo, D Koffi, L Toubal, F Erchiqui, Engineering Failure Analysis 58, 113-133, 2015, (85)

Development of novel green and biocomposite materials: Tensile and flexural properties and damage analysis using acoustic emission- A Bravo, L Toubal, D Koffi, F Erchiqui, Materials & Design (1980-2015) 66, 16-28, 2015, (72)

Combining short flax fiber mats and unidirectional flax yarns for composite applications: Effect of short flax fibers on biaxial mechanical properties and damage behaviour- M Habibi, L Laperrière, G Lebrun, L Toubal, Composites Part B: Engineering 123, 165-178, 2017 (59)

Hygrothermal aging effects on mechanical and fatigue behaviors of a short- natural-fiber-reinforced composite- M Mahdi, L Toubal, JC Cuillière, V François, International Journal of Fatigue 108, 96-108, 2018, (54)

Raj Kumar Pittala | Self healing Polymer composites | Young Scientist Award

Posted on 26/12/202326/12/2023 by ScienceFather

Dr. Raj Kumar Pittala | Koneru Lakshmaiah Education Foundation | India

Professional Profiles:

Early Academic Pursuits

Dr. Raj Kumar Pittala commenced their academic journey with a Bachelor's in Mechanical Engineering from JNTUA College of Engineering, Anantapur, achieving an impressive 81.5% in 2011. They continued their pursuit of knowledge, completing a Master's in Materials and Systems Engineering Design (Mechanical Engineering) from NIT Warangal in 2015 with a CGPA of 8.59. This laid the groundwork for their Ph.D. in Mechanical Engineering at the same institution, focusing on the fabrication and evaluation of self-healing performance in CFRP composites, which they successfully completed in Feb 2022.

Professional Endeavors

His professional journey spans both academia and industry. They ventured into the industrial sphere, initially joining Tech Mahindra Ltd., Bangalore, as a Stress Analysis Engineer, specializing in the stress justification of non-conformities of Airbus A380 composite flaps. Subsequently, they transitioned to Pfizer Healthcare India Ltd., Chennai, as a Technical and Professional Development Programme (TPDP) executive, where they were involved in various aspects of technical development, risk assessment, and process analysis.

Contributions and Research Focus

The core of his contributions lies in their extensive research and publications in renowned journals. Their research delves into self-healing polymer composites, microcapsule technology, and the enhancement of material properties. They've published numerous articles in prestigious journals, showcasing their expertise in areas such as composite materials, nanocomposites, and material characterization techniques.

Accolades and Recognition

Dr. Pittala's contributions have been recognized through publications in high-impact journals, indicating their significant influence and expertise in their field of study. Their research has gained traction and contributed to the body of knowledge in self-healing materials, attracting attention within the academic and industrial communities.

Impact and Influence

Through their work, Dr. Pittala has made a substantial impact on the advancement of self-healing materials, particularly in the context of composite materials used in various industries. Their studies have implications for structural integrity, durability, and maintenance in critical sectors like aerospace, healthcare, and manufacturing.

Legacy and Future Contributions

Dr. Pittala's legacy lies in their contributions to the advancement of materials science and engineering. Their dedication to research and development has laid the foundation for future innovations in self-healing polymer composites and related technologies. Their ongoing commitment to academia as an Assistant Professor indicates a desire to pass on their knowledge and inspire the next generation of engineers and researchers.

Citations:

Citations 70 70

h-index 6 6

i10-index 2 2

Notable Publications:

Self‐healing performance assessment of epoxy resin and amine hardener encapsulated polymethyl methacrylate microcapsules reinforced epoxy composite- RK Pittala, BS Ben, BA Ben, Journal of Applied Polymer Science 138 (23), 50550, 2021 (16)

Self-healing of matrix cracking and delamination damage assessment in microcapsules reinforced carbon fibre epoxy composite under flexural loading- RK Pittala, G Dhanaraju, BS Ben, BA Ben, Composite Structures 291, 115691, 2022 (15)

Thermally remendable bismalemide-MWCNT/DA-epoxy nanocomposite via Diels-Alder bonding- G Dhanaraju, BS Ben, RK Pittala, Polymer 245, 124734, 2022 (9)

Effect of epoxy resin healing agent viscosity on the self-healing performance of capsules reinforced polymer composite- RK Pittala, Journal of Polymer Research 28, 1-19, 2021 (9)

Synthesis and characterization of amine hardener filled microcapsules for self-healing composite applications- RK Pittala, BS Ben, Materials Research Express 6 (11), 115318, 2019 (9)

Investigation of mechanical properties of duralumin sandwich hybrid composite using E-glass fiber- BT Chintalapudi, CB Gonuguntla, M Pothuri, J Kant, A Pathan, RK Pittala, International Journal of Mechanical Engineering and Technology 8 (5), 425-431, 2017 (7)

Damping behaviour and self-healing performance evaluation of microcapsules reinforced epoxy composites by impulse excitation technique- RK Pittala, G Dhanaraju, SB Beera, AB Beera, Journal of Reinforced Plastics and Composites 41 (21-22), 870-881, 2022 (4)

Improvement in Corrosion Performance of ECAPed AZ80/91 Mg Alloys Using SS316 HVOF Coating- GM Naik, P Sharma, G Anne, RK Pittala, R Kumar, GS Satapathi, ..., Materials 16 (20), 6651, 2023 (1)

Mohamed Diab | Composite Materials Science | Best Researcher Award

Posted on 22/12/202322/12/2023 by ScienceFather

Professional Profiles:

Early Academic Pursuits

Mohamed Ragab Diab's academic journey began at Kafrelsheikh University, Egypt, where he pursued Mechanical Engineering. His dedication led him to an M.Sc. in Energy Engineering, specializing in solar desalination. These formative years laid the foundation for his passion for renewable energy and materials engineering.

Professional Endeavors

Diab's career took off as a Researcher and Assistant Lecturer at Kafrelsheikh University, where he mentored students, facilitated lab sessions, and aided in course material development. This role honed his skills in experimental methodologies and teaching, setting the stage for his transition to Kyushu University as a PhD student.

Contributions and Research Focus

Diab's research contributions are notably focused on nanodiamond composites, hard coatings, and thin films. His notable publications showcase a keen interest in the mechanical and structural analysis of nanodiamond composite films. Additionally, his work in solar desalination technologies stands out, exploring innovative designs and experimental investigations to enhance distillation efficiency.

Accolades and Recognition

His academic prowess is highlighted by a series of publications in renowned journals. Diab's commitment to advancing knowledge in nanomaterials and renewable energy has earned him recognition within the scientific community.

Impact and Influence

Through his research and academic roles, Diab has made strides in understanding material properties and enhancing solar distillation techniques. His contributions have the potential to influence advancements in fields ranging from materials science to renewable energy technologies.

Legacy and Future Contributions

Diab's legacy lies in his multidisciplinary approach, combining mechanical engineering, materials science, and renewable energy. His ongoing pursuits at Yoshitake's Lab indicate a continued dedication to pushing the boundaries of nanomaterials and their applications in renewable energy technologies. His future contributions are anticipated to further enrich these domains, potentially impacting sustainability initiatives and materials engineering innovations worldwide.

Notable Publications:

Solar still with rotating parts: a review- MR Diab, FA Essa, FS Abou-Taleb, ZM Omara, Environmental Science and Pollution Research 28 (39), 54260-54281, 2021 (44)
Experimental investigation of vertical solar still with rotating discs- FA Essa, FS Abou-Taleb, MR Diab, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 1-21, 2021 (44)
Novel design of double slope solar distiller with prismatic absorber basin, linen wicks, and dual parallel spraying nozzles: experimental investigation and energic–exergic …ME Zayed, A Kamal, MR Diab, FA Essa, OL Muskens, M Fujii, ...Water 15 (3), 610, 2023 (24)
Improving the vertical solar distiller performance using rotating wick discs and integrated condenser- MR Diab, FS Abou-Taleb, FA Essa, ZM Omara, Environmental Science and Pollution Research 29 (38), 57946-57963, 2022 (17)
Effect of basin water depth on the performance of vertical discs’ solar still—experimental investigation- MR Diab, FS Abou-Taleb, FA Essa, Environmental Science and Pollution Research 29 (60), 91368-91380, 2022 (13)

Synthesis and comprehensive synchrotron-based structural analysis of Si-doped nanodiamond composite films deposited on cemented carbide- M Egiza, AM Ali, MR Diab, N Hemaya, K Murasawa, T Yoshitake, Surface and Coatings Technology 471, 129867, 2023 (1)

Citations:

Citations 143 143

h-index 5 5

i10-index 5 5