Priyanka sahu | Processing Technique | Young Scientist Award

Dr.Priyanka sahu | Processing Technique | Young Scientist Award

Dr Priyanka sahu Rajiv Gandhi University of Knowledge of Technologies-RK Valley (AP-IIIT RK Valley), Idupulapaya, Andhra Pradesh India

Dr. Priyanka Sahu is an Assistant Professor in Computer Science and Engineering at RGIPT. She holds a PhD from IIT (ISM) Dhanbad, an MTech from IIT Guwahati, and a B.E. from Chhattisgarh Swami Vivekanand Technical University. Her research focuses on Distributed Systems, Blockchain, IoT, and Cloud Computing. Dr. Sahu has published 11 papers in international journals and conferences and contributed book chapters. With experience in academia at IIIT Sri City and SSEC Bhilai, she teaches subjects like Distributed Systems and Blockchain. She also holds certifications in Cloud Computing and has expertise in IoT and cloud platforms.

 

Publication profile

scholar

šŸ« Academic Qualifications

Ph.D. in Physics & Materials Science (IIT Indore) – 2023.M.Tech in Physics & Astronomy (NIT Rourkela) – 2017.B.E. in Electronics & Telecommunication (Govt. Engineering College Bilaspur) – 2014.Diploma in Electronics & Telecommunication (Govt. Polytechnic College Ambikapur) – 2011

šŸŽ“ Research & Thesis

Ph.D.: Development & Characterization of High Entropy Soft Magnetic Alloys.M.Tech: Electrical & Magnetic Properties of Modified Strontium Hexaferrite

šŸ›  Technical Skills

Materials Synthesis: Ceramic materials, High Entropy Alloys (HEAs), Magnetocaloric materials.Characterization Techniques: XRD, SEM, TEM, DSC, VSM, Complex Impedance Spectroscopy.Programming & Analysis: MATLAB, COMSOL, Origin, Thermo-Calc.Software: ImageJ, Mendeley, Endnote.

šŸ“¢ Conference Participation

Presented papers at several international conferences, including ICSM, ICONN, and ISPMM.Invited speaker at the International Conference on Renewable Energy and Sustainable Technology, 2024.

šŸ‘©ā€šŸ« Experience

Assistant Professor at Rajiv Gandhi University of Knowledge Technologies (2024ā€“Present).Teaching & Lab experience at IIT Indore and NIT Rourkela

šŸ† Achievements

Best Researcher Award at Atomic, Molecular, and Optical Physics 2024.Awards for best oral presentation and poster presentations at IIT IndoreMerit scholarships and multiple academic distinctions.

 

Publication

  • Synthesis and characterization of hydrogenated novel AlCrFeMnNiW high entropy alloy
    • SK Dewangan, VK Sharma, P Sahu, V Kumar
    • 2020

 

  • Investigating the effect of multiple grainā€“grain interfaces on electric and magnetic properties of [50 wt% BaFe12O19ā€“50 wt% Na0.5Bi0.5TiO3] composite system
    • R Pattanayak, R Muduli, RK Panda, T Dash, P Sahu, S Raut, S Panigrahi
    • 2016

 

  • Microstructure and magnetic behavior of FeCoNi (Mnā€“Si)x (x = 0.5, 0.75, 1.0) high-entropy alloys
    • P Sahu, S Solanki, S Dewangan, V Kumar
    • 2019

 

  • Dielectric, ferroelectric and impedance spectroscopic studies in TiO2-doped AgNbO3 ceramic
    • R Muduli, R Pattanayak, S Raut, P Sahu, V Senthil, S Rath, P Kumar
    • 2016

 

  • Effect of grain size on electric transport and magnetic behavior of strontium hexaferrite (SrFe12O19)
    • P Sahu, SN Tripathy, R Pattanayak, R Muduli, N Mohapatra, S Panigrahi
    • 2017

 

  • Microstructure, Non-isothermal Crystallization Kinetics and Magnetic Behaviour Study of [FeCoNi100-x(SiMn)x] High Entropy Amorphous Alloys Synthesized by Mechanical Alloying
    • P Sahu, S Samal, V Kumar
    • 2023

 

  • Investigation of the structural, electrical, and magnetic behavior of Co3+-Ti4+ doped strontium hexaferrite: validation of measured and theoretical models
    • P Sahu, PK Sahu, S Panigrahi
    • 2024

 

  • Phase Evolution and Soft Magnetic Behavior of Mechanically Alloyed Feā€“Coā€“Ni Medium Entropy Alloy at Different Disk Angular Velocity
    • P Sahu, S Samal, V Kumar
    • 2023

 

  • An assessment of the mechanically alloyed equiatomic FeCoNiMnSi high entropy amorphous alloy for non-isothermal crystallization kinetics and magnetocaloric refrigeration
    • P Sahu, S Samal, V Kumar
    • 2024

 

conclusion

Dr. Priyanka Sahu is a strong candidate for the Young Scientist Award. Her early achievements in high entropy alloys, magnetocaloric materials, and other areas of materials science are impressive, and her recognition within the scientific community speaks to her potential. While there is room for growth in terms of expanding the real-world impact and leading independent research projects, her current trajectory suggests she is well on her way to becoming a leading figure in her field.

Elham Naghashzargar | Textile | Best Researcher Award

Assist prof Dr.Elham Naghashzargar | Textile | Best Researcher Award

Assist Prof Dr Elham Naghashzargar University of Bonab, Iran

Dr. Elham Naghashzargar is a highly accomplished textile engineer with a robust academic background and extensive experience in both academia and industry. Born on January 24, 1983, in Isfahan, Iran, Dr. Naghashzargar has dedicated her career to advancing the field of textile engineering, particularly in areas intersecting with biomedical applications.

Publication Profile

Scholar

Evaluation of Elham Naghashzargar for the Best Research Award

Strengths for the Award

  1. Academic Excellence:
    • Elham Naghashzargar has demonstrated consistent academic excellence throughout her educational journey, securing top ranks in her Bachelor’s, Master’s, and PhD programs in Textile Engineering at Isfahan University of Technology (IUT). Her GPA reflects her strong academic performance, and she has been recognized with several awards for her outstanding achievements.
  2. Research Experience:
    • She has significant research experience, particularly in the field of biotextiles, nanofibers, and tissue engineering. Her PhD thesis on “Designing and Modeling the Silk/P3HB Hybrid Yarn Scaffold for Tendon and Ligament Tissue Engineering” is a clear indicator of her deep engagement with cutting-edge research topics.
  3. Publications:
    • Naghashzargar has an impressive list of publications, including several papers in reputed journals. Her work spans a variety of topics within her field, including scaffold design for tissue engineering, nanofiber electrospinning, and the mechanical properties of textile materials. These publications demonstrate her ability to contribute valuable knowledge to the field.
  4. Professional Experience:
    • Her professional experience includes roles in academia as an Assistant Professor and various industry positions, where she managed labs, was responsible for quality control, and worked on product development. This blend of academic and industry experience adds significant value to her research, providing practical insights into her academic work.
  5. Teaching and Mentorship:
    • Naghashzargar has substantial teaching experience, having served as a teaching assistant and lecturer for various courses related to textile engineering and garment design. This experience highlights her commitment to education and mentorship, which are essential qualities for a research award candidate.

Areas for Improvement

  1. International Collaboration:
    • Although she has had a visiting research period in Italy, there could be further opportunities to enhance her international exposure and collaborations. Engaging in more international projects, conferences, or partnerships could broaden her research impact and visibility on a global scale.
  2. Interdisciplinary Research:
    • While her work in biotextiles and tissue engineering is commendable, expanding her research into more interdisciplinary areas, such as integrating advanced materials or exploring new applications of smart textiles, could enhance her research portfolio.
  3. Funding and Grants:
    • Securing more competitive research grants or funding, particularly from international or prestigious sources, could be an area to focus on. This would not only support her research but also elevate her standing in the academic and scientific communities.

šŸŽ“ Education

Ph.D. (Sep. 2009-May. 2014) Textile Engineering (Textile Technology), Isfahan University of Technology (IUT), GPA: 18.79/20 Thesis title: “Designing and Modeling the Silk/P3HB Hybrid Yarn Scaffold for Tendon and Ligament Tissue Engineering”. Visiting Research Period (Feb. 2013-July. 2013) BioMatLab, Department of Chemistry, Materials and Chemical Engineering ā€œG. Nattaā€, Politecnico di Milano, Milano, Italy. M.S. (Sep. 2005-Feb. 2008). Textile Engineering (Textile Technology), Isfahan University of Technology (IUT), GPA: 18.89/20 Thesis title: “Study on the Effect of Multifilament Spreading on the Properties of Composite Ring Spun Yarn” (Thesis score: 19.20/20). B.S. (Sep. 2001-Sep. 2005) Textile Engineering (Textile Technology), Isfahan University of Technology (IUT), GPA: 16.28/20 Thesis title: “Study on the Effects of Yarn Twist and Yarn Count on Hairiness and Friction Properties in Polyester-Viscose Ring Spun Yarns”(Thesis score: 19.50/20) Diploma (1998-2001) Mathematics & Physics, Beheshtaeen, Isfahan, Iran. GPA: 19.25/20

šŸ”¬ Research Interests

Biotextile . Electrospinning. Nanofibers.Smart Textile.

šŸ† Honors &awards

2nd rank among M.S. graduates, Discipline of Textile Technology, IUT, 2008. Outstanding B.S. graduate award: Admission for M.S. program without participation in the national entrance exam, IUT, 2005. Outstanding M.Sc. graduate award: Admission for Ph.D. program without participation in the national entrance exam, IUT, 2009.3rd rank among B.S. graduates, Discipline of Textile Technology, IUT, 2005. Nationwide M.Sc. entrance exam ranked 2nd among more than 1000 participants, February 2004. Nationwide B.Sc. entrance exam ranked 4180 among more than 450,000 participants, Sept. 2002.

šŸ’¼ Work Experiences

Assistant Professor (Aug. 2018 – Present) University of Bonab, Faculty of Engineering, Textile Engineering Group, Bonab, Iran. Part-time Worker (July 2008 – Feb. 2013) Goharbafan Co., Morchekhort Industrial Area, Isfahan, Iran Company’s activity: Manufacturing car seat covers My activities: Managing company’s labQuality responsibleProduct responsibleFull-time Worker (Aug. 2014 – Feb. 2015) Savis Spadana Co., Morchekhort Industrial Area, Isfahan, IranCompany’s activity: Manufacturing textured yarnMy activities:Managing company’s labQuality responsibleFull-time Worker (Feb. 2015 – Aug. 2017)Yekta Fallah Co., Koopa, Isfahan, IranCompany’s activity: Manufacturing ring spinning yarnMy activities:Managing company’s labQuality Control responsibleFull-time Worker (Aug. 2017 – Aug. 2018)Main Office of Mahabadriss Co., Tehran, IranCompany’s activity: Manufacturing ring spinning yarnMy activities:Commercial sectionInternship (2005)Vatan Spinning and Weaving Factory3 months period workin with spinning, weaving, printing, and finishing machines

 

Publications

  1. Evaluation of PCL/chitosan electrospun nanofibers for liver tissue engineering
    Authors: D. Semnani, E. Naghashzargar, M. Hadjianfar, F. Dehghan Manshadi, …
    Year: 2017
  2. Nano/micro hybrid scaffold of PCL or P3HB nanofibers combined with silk fibroin for tendon and ligament tissue engineering
    Authors: E. Naghashzargar, S. FarĆØ, V. Catto, S. Bertoldi, D. Semnani, S. Karbasi, …
    Year: 2015
  3. Effects of nano-bioactive glass on structural, mechanical and bioactivity properties of Poly (3-hydroxybutyrate) electrospun scaffold for bone tissue engineering applications
    Authors: R. Iron, M. Mehdikhani, E. Naghashzargar, S. Karbasi, D. Semnani
    Year: 2019
  4. Poly (hydroxybutyrate)/chitosan aligned electrospun scaffold as a novel substrate for nerve tissue engineering
    Authors: A. Karimi, S. Karbasi, S. Razavi, E. Naghash Zargar
    Year: 2018
  5. Cluster-spun yarnā€”a new concept in composite yarn spinning
    Authors: A.A. Gharahaghaji, E.N. Zargar, M. Ghane, A. Hossaini
    Year: 2010

 

  1. Evaluation of structural and mechanical properties of electrospun nano-micro hybrid of poly hydroxybutyrate-chitosan/silk scaffold for cartilage tissue engineering
    Authors: S. Karbasi, F. Fekrat, D. Semnani, S. Razavi, E. Naghash Zarga
    Year: 2016

 

  1. Biodegradation and cellular evaluation of aligned and random poly (3-hydroxybutyrate)/chitosan electrospun scaffold for nerve tissue engineering applications
    Authors: A. Karimi Tar, S. Karbasi, E. Naghashzargar, H. Salehi
    Year: 2020

 

  1. Evaluation of structural, mechanical, and cellular behavior of electrospun poly-3-hydroxybutyrate scaffolds loaded with glucosamine sulfate to develop cartilage tissue engineering
    Authors: Z. Shahali, S. Karbasi, M.R. Avadi, D. Semnani, E. Naghash Zargar, …
    Year: 2017

 

  1. Application of intelligent neural network method for prediction of mechanical behavior of wire-rope scaffold in tissue engineering
    Authors: E. Naghashzargar, D. Semnani, S. Karbasi, H. Nekoee
    Year: 2014

 

  1. Silk fibroin nano-coated textured silk yarn by electrospinning method for tendon and ligament scaffold application
    Authors: M. Ghiasi, E. Naghashzargar, D. Semnani
    Year: 2014

 

  1. Antibacterial performance of nano polypropylene filter media containing nano-TiO2 and clay particles
    Authors: S. Shafiee, M. Zarrebini, E. Naghashzargar, D. Semnani
    Year: 2015

 

  1. Improving the mechanical properties of wire-rope silk scaffold by artificial neural network in tendon and ligament tissue engineering
    Authors: E. Naghashzargar, D. Semnani, S. Karbasi
    Year: 2015

 

  1. Optimization of silk yarn hierarchical structure by genetic algorithm to design scaffolds
    Authors: E. Naghashzargar, D. Semnani, S. Karbasi
    Year: 2015

Conclusion:

Elham Naghashzargar is a highly accomplished researcher with a strong academic background, a substantial body of research, and significant teaching experience. Her contributions to the field of textile engineering, particularly in biotextiles and tissue engineering, are impressive and demonstrate her potential to be a leader in her field. While there are opportunities for further growth, particularly in international collaboration and interdisciplinary research, her achievements make her a strong candidate for the Best Research Award. With continued dedication and the pursuit of new research opportunities, she is well-positioned to make even greater contributions to her field.