Mrinal Saha | Cell Structure Analysis | Cell Biology Research Award

Published on by Cell Biologist

Dr. Mrinal Saha | Cell Structure Analysis | Cell Biology Research Award

Dr. Mrinal Saha , University of Oklahoma , United States

Dr. Mrinal C. Saha is a Professor at the School of Aerospace and Mechanical Engineering at the University of Oklahoma. He earned his PhD in Mechanical Engineering and Mechanics from Old Dominion University in 2001. With extensive experience in academia and research, Dr. Saha has made significant contributions to advanced materials and sensor technologies, including the development of self-powered sensors and environmental remediation technologies. His professional journey includes serving as Associate Professor and Assistant Professor at the University of Oklahoma. He is a seasoned researcher and innovator, holding patents and receiving various best paper awards. Throughout his career, he has been involved in interdisciplinary research, collaborating with experts across various fields to enhance engineering applications in structural health monitoring and nanocomposite technologies.

Publication Profile: 

Scopus

Strengths for the Award:

Mrinal C. Saha’s expertise in mechanical engineering, especially in material science and sensor technology, is highly relevant for interdisciplinary applications, including those in cell biology research. His research has focused on advanced materials such as composite structures, nanocomposites, and self-powered sensors, which could have implications for biosensors and medical devices used in cell biology. His work on embedding sensors in structures and developing multifunctional electrodes is particularly pertinent to cellular monitoring and bioengineering applications. Moreover, his collaborations with prominent researchers, as well as funding from various high-profile sources, demonstrate his ability to lead innovative projects with significant implications for multiple fields.

Areas for Improvement:

While Mrinal C. Saha’s work has an obvious focus on material science and mechanical engineering, his direct experience in cell biology research is less evident. Bridging the gap between his materials-focused research and cell biology could further enhance his suitability for the Cell Biology Research Award. Expanding his network to include collaborations with biologists and bioengineers could help integrate his expertise with biological research directly.

Education:

Dr. Mrinal C. Saha’s educational journey reflects his strong foundation in mechanical engineering. He obtained his PhD in Mechanical Engineering and Mechanics from Old Dominion University, Virginia, USA, in 2001. Before that, he earned an MS in Mechanical Engineering from Tuskegee University, Alabama, USA, in 1996. His academic journey began at the Bangladesh University of Engineering and Technology (BUET), Dhaka, where he completed both his MS and BS in Mechanical Engineering in 1992 and 1988, respectively. His education at BUET equipped him with a solid technical background that has supported his contributions to research in advanced composite materials, sensors, and nanotechnology. Dr. Saha’s academic credentials and his continuous pursuit of knowledge have played a crucial role in shaping his research career, allowing him to make significant strides in the field of mechanical engineering.

Experience:

Dr. Mrinal C. Saha brings a wealth of experience to his role as a Professor at the University of Oklahoma’s School of Aerospace and Mechanical Engineering. With a career spanning over two decades, Dr. Saha has held various academic positions, starting as an Assistant Professor in 2006, advancing to Associate Professor in 2012, and ultimately becoming a full Professor in 2018. Throughout his tenure at OU, he has been involved in cutting-edge research and educational development in the areas of structural health monitoring, additive manufacturing, and nanocomposites. Prior to his current role, Dr. Saha contributed to research initiatives at Tuskegee University, collaborating on high-profile projects with the National Science Foundation and the Federal Aviation Administration. His leadership and collaborative research efforts have resulted in numerous funded projects, publications, and significant technological advancements in aerospace and mechanical engineering.

Awards and Honors:

Dr. Mrinal C. Saha has earned multiple prestigious awards and recognitions for his research and academic contributions. He has been honored with best paper awards for his exceptional work in the areas of nanocomposite materials, sensors, and additive manufacturing. In addition to this, Dr. Saha holds a patent and has been involved in another patent disclosure, demonstrating his innovative contributions to the field. His research achievements have been recognized both nationally and internationally, underscoring his expertise and impact in mechanical and aerospace engineering. Dr. Saha’s work on embedded sensors, multifunctional electrodes, and self-powered technologies has led to significant advances in structural health monitoring and materials science. These accolades not only reflect his research capabilities but also his role as a leader in advancing engineering solutions for real-world applications. Dr. Saha’s continued success in securing research funding and publishing influential papers speaks to his academic excellence.

Research Focus:

Dr. Mrinal C. Saha’s research focuses on the development of advanced materials, self-powered sensors, and innovative manufacturing techniques. His work spans a wide range of areas, including nanocomposite materials, 3D printing, and multifunctional electrodes for environmental remediation and structural health monitoring. He specializes in the design and characterization of high-performance composite structures and sensors, emphasizing flexibility, sensitivity, and durability for various engineering applications. One of his primary research interests is the integration of embedded sensors into materials for real-time damage detection and monitoring. His work on electrospun nanofibers, piezoelectric nanogenerators, and flexoelectric sensors has led to groundbreaking advancements in self-powered systems for aerospace, automotive, and biomedical industries. Dr. Saha’s research is multidisciplinary, blending mechanical engineering, materials science, and sensor technologies to address challenges in the design and performance of smart structures and sustainable engineering solutions.

Publications Top Notes:

  1. Mondal, A., Saha, M.C., Rhule, D. (2025). Experimental Investigation of In-Plane Compressive Characteristics of 3D-Printed Carbon Fiber-Reinforced Epoxy Composite Honeycomb Cores 🏗️📑
  2. Mondal, A., Saha, M.C. (2025). Characterization of In-plane Compressive Response of Triangular Honeycomb Carbon Fiber Epoxy Composites 🧱📚
  3. Maity, K., Saha, M.C. (2025). Design of Flexible and Ultrasensitive 3D Printed Flexoelectric Sensors for Self-Powered Damage Detection ⚡🔧
  4. Mondal, A., Saha, M.C., Maity, K., Altan, M.C., Liu, Y. (2023). Analysis of Fiber Flow, Fiber Orientation, and Void Formation in Material Extrusion of Short Carbon Fiber Epoxy Composites 🧵📊
  5. Rhule, D., Mondal, A., Saha, M.C., Cummings, L., Robison, T. (2023). Effect of Silica and Mixing Time on Microstructures and Properties of Porous Polymer Composite 🧪🧬
  6. Mondal, A., Saha, M.C. (2023). 3D Printing and Characterization of Carbon Fiber Epoxy Composites 🖨️🔬

Conclusion:

Mrinal C. Saha’s background in materials science, sensor technology, and advanced manufacturing methods makes him a strong candidate for the Cell Biology Research Award, provided there is a greater focus on integrating his research with biological applications. His innovative work in sensors and nanocomposites could significantly contribute to advancing biosensors, tissue engineering, and other cell biology-related fields.

Aniruddh Bahadur Yadav | Cell Structure Analysis | Best Researcher Award

Published on by Cell Biologist

Dr. Aniruddh Bahadur Yadav | Cell Structure Analysis | Best Researcher Award

Dr. Aniruddh Bahadur Yadav , SAHE , India

Aniruddh Bahadur Yadav is an accomplished Associate Professor at VR Siddhartha Engineering College, Vijayawada, with over 10 years of teaching experience. He holds a Ph.D. in Electronics Engineering from IIT (BHU) Varanasi and specializes in semiconductor and nanomaterial synthesis, particularly for gas sensing applications. His research efforts have led to substantial contributions in the field of materials science, having published 19 journal articles and 7 conference papers. With a strong foundation in electronics and materials science, Aniruddh is passionate about designing advanced electronic devices by tailoring nanomaterials. He has established multiple research and academic laboratories, significantly enhancing both educational and research environments. His expertise is widely recognized, having guided numerous research theses and collaborated on several notable projects.

Publication Profile:

Google Scholar

Strengths for the Award:

Aniruddh Bahadur Yadav’s extensive research background and accomplishments make him an exceptional candidate for the Researcher of the Year award. With a specialization in nanomaterials and their applications in gas sensors and electronic devices, his work has significantly contributed to advancing the field. His expertise in designing and synthesizing semiconductor, insulator, and metal nanomaterials, particularly in tailoring their dimensions and shapes, has been demonstrated in over 19 journal articles and 7 conference papers. Yadav’s research, backed by solid teaching experience and successful project leadership, has influenced both the scientific and academic communities. Additionally, his ability to establish research laboratories and effectively teach at undergraduate and postgraduate levels showcases his versatility and commitment to both education and scientific innovation.

Areas for Improvements:

Although Yadav has an impressive track record in research and teaching, future research could benefit from a broader range of collaborative projects with industry partners to explore practical applications of his work in real-world devices. Additionally, expanding research into interdisciplinary fields such as environmental sensing and smart materials could provide new avenues for innovation and application.

Education:

Aniruddh Bahadur Yadav completed his Ph.D. in Electronics Engineering at IIT (BHU), Varanasi, with a GPA of 8.6/10, from 2009 to 2014. He also earned an M.Tech. in Ceramic (Materials Science) Engineering from the same institute in 2009 with a GPA of 7.6/10. Prior to this, he completed his B.Tech. in Electronics and Instrumentation Engineering at VBS Purvanchal University, Jaunpur, with a percentage of 76%. His extensive educational background provided a strong foundation for his research in nanomaterials, electronics, and material science, enabling him to excel in both teaching and research. His academic journey is marked by excellence and has significantly shaped his career in electronics and materials science.

Experience:

Aniruddh Bahadur Yadav has over a decade of experience in both academia and research. Currently, he serves as an Associate Professor at VR Siddhartha Engineering College, Vijayawada, where he is responsible for teaching undergraduate and postgraduate courses in electronics and materials science. He also plays a key role in research project funding, research design, and syllabus development, in addition to leading the VLSI group. Prior to this, he was an Associate Professor at Sree Vidyanikethan Engineering College, Tirupati, where he was in charge of research, laboratories, and syllabus framing. His experience extends to organizing faculty development programs and guiding research theses. His leadership in establishing research and academic laboratories has greatly contributed to the advancement of scientific exploration at the institutions he has been a part of. His career reflects a deep commitment to both teaching and research in the field of nanotechnology and electronics.

Awards and Honors:

Aniruddh Bahadur Yadav has earned several prestigious awards and fellowships during his academic journey. He was awarded the Fellowship for his Master’s course at IIT (BHU) in 2007, supported by MHRD, and a Fellowship for his Doctorate as JRF and SRF. He was also recognized for his research contributions through participation in various academic programs. His outstanding contributions to research, particularly in nanomaterials and electronic devices, have led to several awards and recognitions. His work in gas sensing and nanotechnology has been highly regarded in the scientific community, evident from his numerous publications in high-impact journals. Additionally, Aniruddh has actively contributed to the development of educational programs, guiding many students through their research projects and theses. His efforts in promoting scientific research and education are further underscored by his active participation in faculty development programs, which have been awarded certificates to 400+ participants.

Research Focus:

Aniruddh Bahadur Yadav’s research primarily focuses on the design, modeling, and fabrication of nanomaterials with applications in gas sensors and electronic devices. His expertise lies in tailoring the dimensions and shapes of semiconductor, insulator, and metal nanomaterials for optimizing their properties in electronic devices. He is particularly interested in exploring the potential of nanomaterials for gas sensing applications, where he investigates the effects of particle size and gate thickness on sensing performance. His research employs advanced fabrication techniques, such as sol-gel and RF sputtering, to develop thin films and Schottky contacts for various applications. With a strong foundation in materials science, he continuously seeks to innovate and improve the performance of devices by leveraging the unique properties of nanomaterials. His work aims to contribute to advancing technologies that can benefit society, with a focus on enhancing the effectiveness and sensitivity of gas sensors and other electronic components.

Publications Top Notes:

  1. “Sol-gel-based highly sensitive Pd/n-ZnO thin film/n-Si Schottky ultraviolet photodiodes” 📄🔬
  2. “Pd Schottky contacts on sol–gel derived ZnO thin films with nearly ideal Richardson constant” 🧪⚡
  3. “Particle size effects on the hydrogen sensing properties of Pd/ZnO Schottky contacts fabricated by sol–gel method” 🌐💡
  4. “Hydrogen gas sensing properties of Pd/ZnO thin films grown on n-Si <100> substrates at room-temperature by thermal evaporation and sol-gel techniques: A comparative study” 🧪💨
  5. “Effects of annealing temperature on the structural, optical, and electrical properties of ZnO thin films grown on n-Si <100> substrates by the sol–gel spin coating method” 🔥📊
  6. “Annealing-temperature effects on the properties of ZnO thin films and Pd/ZnO Schottky contacts grown on n-Si (100) substrates by vacuum deposition method” 🔬🌀
  7. “True Ohmic contact on RF sputtered ZnO thin film by using the nonalloy Ti/Au metallization scheme” ⚡💎
  8. “Seed layer effect on different properties and UV detection capability of hydrothermally grown ZnO nanorods over SiO2/p-Si substrate” 🌱💡
  9. “Zero bias UV detection and precursor effect on properties of ZnO nanorods grown by hydrothermal method on SiO2/p-Si substrate” 🌞🔬
  10. “Effect of precursor chemistry on the structural and sensing properties of hydrothermally grown nanorods” 💧📚

Conclusion:

Aniruddh Bahadur Yadav’s solid academic foundation, significant contributions to the synthesis of nanomaterials, and impressive body of work in gas sensing and electronic devices make him a deserving candidate for the Research for Best Researcher Award. His dedication to both advancing scientific knowledge and fostering the next generation of engineers is a testament to his long-term impact on the field.