Ali Haider | Materials Technology | Best Researcher Award

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Dr. Ali Haider | Materials Technology | Best Researcher Award

PhD student at  National University of Sciences & Technology, Pakistan

Dr. Ali Haider is a distinguished metallurgical engineer with an extensive background in research, education, and project management. He earned his PhD in Manufacturing Engineering from the National University of Engineering & Technology, Islamabad, and holds a Master’s degree in Metallurgical Engineering from NED University of Engineering & Technology, Karachi, along with a Bachelor’s degree in Metallurgical Engineering & Materials Sciences from the University of Engineering & Technology, Lahore. Currently, Dr. Haider is associated with NUST University in Islamabad, where he has been contributing to the production and research of functional alloys since 2019. His previous experience includes a significant tenure at the Ibn-e-Sina Institute in Islamabad from 2003 to 2019, where he was involved in project management and the commissioning of manufacturing setups. He also served as a faculty member at Pakistan Steel, Karachi, from 1996 to 2002, where he was engaged in teaching and research at the Institute of Materials Sciences & Research. Dr. Haider’s research interests are diverse and encompass project management, installation and commissioning of metallurgical and mechanical equipment, and the development of dental casting alloys, magnetic alloys, and other specialized materials. His work in powder metallurgy, thermomagnetic treatments, heat treatments, steel rolling, and the characterization of engineering materials has contributed significantly to advancements in these fields. He is actively involved in research and development, focusing on materials development for various industrial applications.

Professional Profiles:

📚 Education:

Dr. Ali Haider earned his PhD in Manufacturing Engineering from the National University of Engineering & Technology in Islamabad, achieving an impressive GPA of 3.92 on a 4.0 scale. Prior to this, he completed his M.Sc. in Metallurgical Engineering from NED University of Engineering & Technology in Karachi, where he earned a GPA of 3.88 on a 4.0 scale. His foundational education in the field was established with a B.Sc. in Metallurgical Engineering & Materials Sciences from the University of Engineering & Technology in Lahore, where he secured 82% marks. Dr. Haider’s earlier education includes a Higher Secondary School Certificate (F.Sc.) from S.E. College in Bahawalpur, with 69.70% marks, and a Secondary School Certificate (Matric) from Govt. High School Khanpur in Rahim Yar Khan, Pakistan, where he obtained 71.2% marks. Additionally, he holds a Diploma in Information Technology from Sindh Trade Testing Board in Karachi, where he scored 74.5% marks. This diverse and robust educational background has equipped Dr. Haider with a comprehensive understanding of both theoretical and practical aspects of his field.

Professional Experience:

Dr. Ali Haider has been contributing to the field of metallurgical engineering for several decades, showcasing his expertise across various prestigious institutions. Since 2019, he has been associated with NUST University in Islamabad, focusing on the production and research of functional alloys. His work here highlights his commitment to advancing the knowledge and application of materials science. Before joining NUST, Dr. Haider spent 16 years at the Ibn-e-Sina Institute in Islamabad, from 2003 to 2019. During this period, he played a pivotal role in project management and the commissioning of manufacturing setups. His responsibilities included overseeing complex projects and ensuring the successful implementation of advanced manufacturing processes. Dr. Haider’s early career was marked by his tenure at Pakistan Steel in Karachi, where he served as a Faculty Member at the Institute of Materials Sciences & Research from 1996 to 2002. In this role, he was involved in teaching and research, contributing to the academic and professional development of students in the field of materials science. Overall, Dr. Ali Haider’s extensive experience encompasses various facets of metallurgical engineering, including academic research, project management, and practical applications in manufacturing and materials development. His career reflects a deep commitment to advancing the field and nurturing the next generation of engineers and researchers.

Research Interests:

Dr. Ali Haider’s research interests are deeply rooted in the field of metallurgical and materials engineering, with a particular focus on project management, installation, and commissioning of metallurgical and mechanical equipment. He has a strong interest in the metallurgy and manufacturing of dental casting alloys and magnetic alloys, highlighting his commitment to advancing these specialized areas. His expertise extends to powder metallurgy, where he explores the production and application of metal powders and their composites. Dr. Haider is also deeply engaged in thermomagnetic treatments, which involve the use of thermal and magnetic fields to alter the properties of materials for enhanced performance. Heat treatment processes, including the study of the effects of heat on the structure and properties of materials, are a significant part of his research. He is involved in steel rolling, a process critical for shaping and improving the mechanical properties of steel products. Additionally, Dr. Haider focuses on the characterization of engineering materials, aiming to understand and improve material properties through various analytical techniques. Dr. Haider is actively involved in research and development (R&D) on materials development, striving to innovate and improve materials for various industrial applications. His comprehensive research portfolio reflects his dedication to advancing the field of metallurgical engineering and contributing to the development of new and improved materials.

 

📚Publications :

Title: Ni-Cr-Mo alloy for dental prostheses with low melting temperature

Authors: A. Haider, O.F. Azam, M. Talha, S. Akhtar

Journal: Key Engineering Materials

Volume: 778

Pages: 301-305

Citations: 5

Year: 2018

Title: Effect of cerium on mechanical, metallurgical and biomedical properties of NiCrMoB dental alloy

Authors: A. Haider, S.H.I. Jaffery, A.N. Khan, N. Qadir, X. Jing

Journal: Journal of Materials Research and Technology

Volume: 24

Pages: 5082-5093

Citations: 3

Year: 2023

Title: Development of NdFeB magnet through hydrogen decrepitation

Authors: S. Akhtar, A. Haider, Z. Ahmad, M. Farooque

Journal: Key Engineering Materials

Volume: 442

Pages: 263-267

Citations: 3

Year: 2010

Title: Processing of silicon added Fe-Cr-Co hard magnetic alloy by two stage thermomagnetic treatment technique

Authors: A. Haider, S.H.I. Jaffery, A.N. Khan, M. Khan

Journal: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture

Citations: 2

Year: 2023

Title: Mechanical Characteristics of Boron and Cerium Added NiCrMo Non-Precious Dental Casting Alloys

Authors: A. Haider, S.H.I. Jaffery, A.N. Khan, N. Ulqadir, X. Jing

Journal: Materials Transactions

Volume: 64 (4)

Pages: 869-876

Citations: 2

Year: 2023

Title: Effect of Thermal Treatment on Coercivity of SmCo5 Sintered Magnets

Authors: A. Haider, S. Akhtar, Z. Ahmad, M. Farooque

Journal: Key Engineering Materials

Volume: 442

Pages: 250-254

Citations: 2

Year: 2010

Title: Characterization of NiCrMo dental restoration alloy

Authors: A. Haider, O.F. Azam, M. Talha, S. Akhtar

Journal: Key Engineering Materials

Volume: 875

Pages: 373-378

Citations: 1

Year: 2021

Title: Processing and Characterization of Beryllium Free Ni-Cr-Mo Biomaterial Doped with Cerium, Boron and Titanium for Dental Applications

Authors: A. Haider, S.H.I. Jaffery, A.N. Khan, S.I. Butt, X. Jing

Journal: Journal of Materials Research and Technology

Year: 2024

Title: Optimization of manufacturing parameters for Fe–25Cr–13Co magnetic alloy by using Taguchi technique

Authors: A. Haider, S.H.I. Jaffery, A.N. Khan, N. Ulqadir

Journal: The International Journal of Advanced Manufacturing Technology

Volume: 126 (3)

Pages: 1363

Year: 2023

Title: Electromagnetic flat sheet forming by spiral type actuator coil

Authors: S. Akbar, M.A. Aleem, M.N. Sarwar, A.U. Zillohu, M.S. Awan, A. Haider, …

Journal: IOP Conference Series: Materials Science and Engineering

Volume: 146 (1)

Article: 012054

Year: 2016

 

 

Xiang Shi-Li | Materials Science | Best Researcher Award

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Dr. Xiang Shi-Li | Materials Science | Best Researcher Award

Head of Photolithography Research and Development at Hubei Jiufengshan Laboratory, China

Xiang Shi-Li is a semiconductor technology researcher with a focus on lithography manufacturing and semiconductor materials. He earned his Doctorate degree from Huazhong University of Science and Technology and currently leads the Lithography Research and Development department at Hubei Jiufengshan Laboratory in Wuhan, China. Xiang’s research interests encompass advanced lithography manufacturing, intelligent materials, bioinspired systems, RF devices, and MEMS. His work aims to enhance the efficiency and performance of semiconductor devices through innovative manufacturing processes and materials.

Professional Profile:

📚 Education:

Xiang Shi-Li pursued his doctoral studies at Huazhong University of Science and Technology, where he focused on semiconductor manufacturing. During his time there from September 2016 to June 2021, he conducted research and coursework to deepen his understanding of advanced lithography manufacturing, semiconductor materials, and photoresist polymer materials. His doctoral research likely involved exploring innovative approaches to semiconductor manufacturing processes and materials, aiming to improve efficiency and performance in the field. This educational background has equipped him with the knowledge and skills necessary to excel in his current role as the Head of Lithography Research and Development at Hubei Jiufengshan Laboratory.

📝Work Experience:

Xiang Shi-Li has extensive experience in the field of semiconductor technology, particularly in lithography research and development. Since July 2022, he has been leading the lithography research and development efforts at Hubei Jiufengshan Laboratory. In this role, he is responsible for overseeing the development of advanced lithography manufacturing processes, semiconductor materials, and photoresist polymer materials. Prior to his current position, Xiang served as an Associate Professor, contributing to the Process R&D Center. During this time, he likely conducted research, taught courses, and mentored students in semiconductor manufacturing and related fields. His work may have included developing new technologies and methodologies to improve semiconductor manufacturing processes and materials. Overall, Xiang’s work experience reflects his expertise and dedication to advancing semiconductor technology. His contributions in research and development have the potential to drive innovation and improve the performance of semiconductor devices and systems.

📊Research focus:

Xiang Shi-Li’s research focuses on various aspects of semiconductor technology, with a particular emphasis on lithography manufacturing. His work includes investigating advanced lithography manufacturing processes to improve semiconductor device performance and efficiency. Additionally, Xiang is interested in semiconductor materials and photoresist polymer materials, exploring their properties and applications in semiconductor manufacturing. He also delves into intelligent materials and bioinspired systems, likely looking at how nature-inspired designs can be applied to improve semiconductor technologies. Xiang’s research extends to radio frequency (RF) devices and micro-electro-mechanical systems (MEMS), where he explores new materials and fabrication techniques for these devices. Overall, Xiang’s research is characterized by a multidisciplinary approach, combining aspects of materials science, engineering, and physics to advance semiconductor technology. His work has the potential to contribute significantly to the development of next-generation semiconductor devices and systems.

 

Publications :

Photodegradable Polyurethane Resist with High Photosensitivity Based on Hexaarylbiimidazole Molecule Photoswitch

Authors: Xiang, S.-L.; Luo, P.-F.; Ren, Y.-Y.; Liu, J.; Zhu, M.-Q.

Journal: ACS Applied Polymer Materials, 2024

Volume: 6

Issue: 5

Pages: 2496–2503

Dual nonionic photoacids synergistically enhanced photosensitivity for chemical amplified resists

Authors: Peng, L.-Y.; Xiang, S.-L.; Huang, J.-D.; Liu, J.; Zhu, M.-Q.

Journal: Chemical Engineering Journal, 2024

Volume: 482

Pages: 148810

Recent advances in super-resolution optical imaging based on aggregation-induced emission

Authors: Zhu, F.-Y.; Mei, L.-J.; Tian, R.; Zhu, M.-Q.; Tang, B.Z.

Journal: Chemical Society Reviews, 2024

Status: Article in Press

Visible-light-driven isotropic hydrogels as anisotropic underwater actuators

Authors: Shi-Li Xiang, Yu-Xuan Su, Hong Yin, Chong Li*, Ming-Qiang Zhu*

Journal: Nano Energy

Year: 2021

Volume: 85

Page: 105965

Photoplastic self-healing polyurethane springs and actuators

Authors: Shi-Li Xiang, Qiong-Xin Hua, Peng-Ju Zhao, Wen-Liang Gong, Chong Li*, Ming-Qiang Zhu*

Journal: Chemistry of Materials

Year: 2019

Volume: 31

Issue: 14

Pages: 5081-5088