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USD 20 /hr

★★★★★

☆☆☆☆☆

Hire Dr. Muhammad Sameet I.

Pakistan

USD 20 /hr

Material Scientist | Expert in Bio-materials / 3D Printing | Expert Academic Writer

Profile Summary

I am a highly motivated Materials Scientist and Bioengineer specializing in tissue engineering, biomaterials, and advanced wound care therapeutics. I currently work as a Research Assistant at Bioengineering Research & Development (Pvt) Ltd., where I focus on the fabrication and characterization of hydrogels, 3D printed scaffolds, nanofibers, and nanoparticle synthesis. With a Bachelor’s degree in Material Science and Engineering and a robust portfolio of over 10 peer-reviewed publications in high-impact journals (including Polymer and the International Journal of Biological Macromolecules), I bring a strong analytical and academic rigor to my work. I also serve as a member of the Young Editorial Board for the International Journal of Bioprinting, which gives me a sharp eye for manuscript preparation, peer review, and academic writing. I can assist you with: Scientific Writing & Editing: Drafting, formatting, and reviewing manuscripts, literature reviews, and research proposals. Experimental Design & Protocol Development: Specializing in 3D bioprinting, bio-inks, scaffold fabrication, and drug delivery systems. Data Analysis & Visualization: Expert use of Origin Pro, ImageJ, and various AI tools to analyze characterization data. Material Characterization Consultation: Interpreting data from FTIR, BET, TGA, UV-Visible Spectroscopy, and bio-characterizations (e.g., drug release kinetics, antibacterial studies, cell culture). Whether you are a startup looking to develop a new biocompatible material or a researcher needing assistance with data analysis and manuscript preparation, I deliver thorough, reliable, and high-quality scientific support.

Subject Matter Expertise

• ☆ Biopolymers
• ☆ Polymer Chemistry
• ☆ Green Chemistry
• ☆ Cell Biology
• ☆ Cell-Based Assays
• ☆ Biotechnology & Bioengineering
• ☆ Nanobiotechnology
• ☆ Biomedical Engineering
• ☆ Biomimetics
• ☆ Bioprinting
• ☆ Biomass & Bioenergy
• ☆ Biological Engineering
• ☆ Cell Culture
• ☆ Tissue Engineering

Services

• Writing
• Research
• Consulting
• Data & AI
• Product Development

Writing Medical Writing, Technical Writing, General Proofreading & Editing

Research Scientific and Technical Research, Systematic Literature Review

Consulting Scientific and Technical Consulting, Manufacturing Consulting

Data & AI Image Analysis

Product Development Manufacturing

Work Experience

Research Assistant

Institute of Space Technology

August 2023 - Present

Education

Bachelor of Science in Material Science and Engineering (Material Science and Engineering)

Institute of Space Technology

September 2019 - July 2023

Certifications

• Professional Researcher Certification

  Bioengineering Research and Development (Pvt) Limited

  August 2023 - Present

Publications

JOURNAL ARTICLE

Muhammad Sameet Ismat, Zahida Begum, Jaewon Lee, Rimsha Areej, Mohammad Ali, Akbar Niaz, Muhammad Atiq Ur Rehman (2026). 3D-printed scaffolds reinforced with natural mineral (Asphaltum Punjabianum) for skin tissue engineering . The International Journal of Advanced Manufacturing Technology.

Ismat, M.S., Amaid, M.S., Nawaz, A., Abbas, M., Parayangat, M., Kalathil, S., Rehman, M.A.U.(2026). Oxidized agarose-based 3D printed scaffold reinforced with Ag-MBGNs, a detailed study on fabrication and in-vitro investigations . Colloids and Surfaces A Physicochemical and Engineering Aspects. 728.

Muhammad Sameet Ismat, Muhammad Haseeb Nawaz, Aqsa Aizaz, Muhammad Irfan, Hashim Elshafie, Azath Mubarakali, Muhammad Atiq Ur Rehman (2025). In-vitro evaluation of tragacanth gum based 3D scaffold enriched with lawsone: A potential approach for wound repair . Polymer.

Muhammad Sameet Ismat, Muhammad Haseeb Nawaz, Aqsa Aizaz, Faheem Ullah, Fatima Javed, Hafiz Muhammad Tahir, Akbar Niaz, Muhammad Atiq Ur Rehman (2025). Development of therapeutic ions loaded oxidized guar gum and sodium alginate-based 3D printed biomimetic scaffolds investigated in-vitro and in-vivo for burn wound repair . International Journal of Biological Macromolecules.

Muhammad Sameet Ismat, Rahila Batul, Muhammad Haseeb Nawaz, Syed Muneeb Haider Gillani, Aqsa Aizaz, Adam Khan, Huzaifa Shafique, Mian Sami Mudassir, Sheraz Ahmed, Fatima Javed, et al. (2025). Direct ink write 3D printed poly (ethylene oxide)/ Guar gum/ lawsone scaffolds for burn care applications . Journal of Drug Delivery Science and Technology.

Muhammad Sameet Ismat, Mian Sami Mudassir, Muhammad Haseeb Nawaz, Aqsa Aizaz, Mohammed S. Alqahtani, Mohamed Abbas, Muhammad Atiq Ur Rehman (2025). Fabrication and in vitro insights of polyethylene oxide/locust bean gum enriched with ethanolic extract ginger-based 3D printed scaffold . The International Journal of Advanced Manufacturing Technology.

Ismat, M.S., Nawaz, M.H., Aizaz, A., Irfan, M., Elshafie, H., Mubarakali, A., Rehman, M.A.U.(2025). In-vitro evaluation of tragacanth gum based 3D scaffold enriched with lawsone: A potential approach for wound repair . Polymer. 337.

Ismat, M.S., Mudassir, M.S., Nawaz, M.H., Aizaz, A., Alqahtani, M.S., Abbas, M., Rehman, M.A.U.(2025). Fabrication and in vitro insights of polyethylene oxide/locust bean gum enriched with ethanolic extract ginger-based 3D printed scaffold . International Journal of Advanced Manufacturing Technology. 138. (9). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 4897-4914.

Batul, R., Ismat, M.S., Nawaz, M.H., Gillani, S.M.H., Aizaz, A., Khan, A., Shafique, H., Mudassir, M.S., Ahmed, S., Javed, F., et al.(2025). Direct ink write 3D printed poly (ethylene oxide)/ Guar gum/ lawsone scaffolds for burn care applications . Journal of Drug Delivery Science and Technology. 110.

Nawaz, M.H., Aizaz, A., Ullah, F., Javed, F., Ismat, M.S., Tahir, H.M., Niaz, A., Rehman, M.A.U.(2025). Development of therapeutic ions loaded oxidized guar gum and sodium alginate-based 3D printed biomimetic scaffolds investigated in-vitro and in-vivo for burn wound repair . International Journal of Biological Macromolecules. 321.

Aizaz, A., Nawaz, M.H., Ismat, M.S., Rashid, M.A., Rehman, M.A.U.(2025). Propolis enhanced sodium alginate hydrogel enriched with copper doped mesoporous bioactive glass nanoparticles for advanced burn care applications . Biotechnology Letters. 47. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 121.

Muhammad Sameet Ismat, Syed Muneeb Haider Gillani, Awab Mughal, Raja Aqib Akmal Khan, Muhammad Haseeb Nawaz, Zohaib Razzaq, Rabia Hussain, Abdul Wadood, Sheraz Ahmed, Badar Minhas, et al. (2024). Development of hybrid polyvinylpyrrolidone/carboxymethyl cellulose/collagen incorporated oregano scaffolds via direct ink write printing for potential wound healing applications . International Journal of Biological Macromolecules.

Muhammad Sameet Ismat, Muhammad Haseeb Nawaz, Aqsa Aizaz, Muhammad Hussain Abdullah, Abdul Khaliq, Tayyab Subhani, Abdulaziz S. Alghamdi, Muhammad Atiq Ur Rehman (2024). Advancing cartilage Repair: A Biomimetic approach with oxidized guar gum, chitosan, polyether ether ketone-based injectable hydrogel . Materials Letters.

Muhammad Sameet Ismat, Aqsa Aizaz, Muhammad Haseeb Nawaz, Laiba Zahid, Sidra Zahid, Sheraz Ahmed, Mohamed Abbas, Thafasalijyas Vayalpurayil, Muhammad Atiq Ur Rehman (2024). Development and characterization of polyethylene oxide and guar gum-based hydrogel; a detailed in-vitro analysis of degradation and drug release kinetics . International Journal of Biological Macromolecules.

Gillani, S.M.H., Mughal, A., Khan, R.A.A., Nawaz, M.H., Razzaq, Z., Ismat, M.S., Hussain, R., Wadood, A., Ahmed, S., Minhas, B., et al.(2024). Development of hybrid polyvinylpyrrolidone/carboxymethyl cellulose/collagen incorporated oregano scaffolds via direct ink write printing for potential wound healing applications . International Journal of Biological Macromolecules. 278.

Aizaz, A., Nawaz, M.H., Ismat, M.S., Zahid, L., Zahid, S., Ahmed, S., Abbas, M., Vayalpurayil, T., Rehman, M.A.U.(2024). Development and characterization of polyethylene oxide and guar gum-based hydrogel; a detailed in-vitro analysis of degradation and drug release kinetics . International Journal of Biological Macromolecules. 273.