Gang Chen | Cellulose-based material | Best Researcher Award

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Prof Dr. Gang Chen, Cellulose-based material, Best Researcher Award

Professor at South China University of Technology, China

Summary:

Prof. Dr. Gang Chen is a leading expert in papermaking technologies and special paper, with extensive research contributions and innovations in the field. He serves as the Chief Professor and Ph.D. Supervisor at South China University of Technology, where he leads the Special Paper Research Team. Dr. Chen has been instrumental in advancing new papermaking technologies and developing special paper materials, with over 100 published papers and 36 patents to his name. His collaborative efforts with prominent institutions and active involvement in national and provincial research projects underscore his commitment to innovation and excellence in the papermaking industry.

Professional Profile:

๐Ÿ‘ฉโ€๐ŸŽ“Education:

Dr. Gang Chen holds a Ph.D. in Pulp and Paper Making from South China University of Technology.

Professional Experience:

Dr. Gang Chen is a distinguished Chief Professor and Ph.D. Supervisor leading the Special Paper Research Team at South China University of Technology. With a profound expertise in new papermaking technologies and special paper, he has been at the forefront of research and innovation in his field. Over the course of his career, Dr. Chen has successfully led and participated in over 80 research projects, amassing a total funding of 41 million RMB. His prolific academic output includes over 100 published papers, with 58 indexed in major academic databases, alongside authoring a monograph and securing 36 invention patents. Additionally, he has been actively involved in consultancy and industry projects, contributing significantly to advancements in papermaking technologies.

Research and Innovations:

Dr. Chen’s research focuses on special paper-based materials, nanofiber composite materials, and cellulose-based hygroscopic materials. He is dedicated to exploring specialty paper technologies, paper-based functional materials, paper coating technology, fiber mixing and forming mechanisms, and the preparation and application of nanocellulose. His work extends to national key research and development programs, green manufacturing system integration projects, and various foundation and high-tech achievement incubation projects.

Publications Top Noted:ย 

Enantioselective C(sp3)โ€’H Bond Activation by Chiral Transition Metal Catalysts

  • Authors: T.G. Saint-Denis, R.Y. Zhu, G. Chen, Q.F. Wu, J.Q. Yu
  • Journal: Science
  • Volume: 359, Issue 6377
  • Year: 2018
  • DOI: 10.1126/science.aao4798
  • Citations: 628

All-Perovskite Tandem Solar Cells with Improved Grain Surface Passivation

  • Authors: R. Lin, J. Xu, M. Wei, Y. Wang, Z. Qin, Z. Liu, J. Wu, K. Xiao, B. Chen, S.M. Park, et al.
  • Journal: Nature
  • Volume: 603, Issue 7899
  • Year: 2022
  • DOI: 10.1038/s41586-021-04174-w
  • Citations: 618

Applied Integer Programming: Modeling and Solution

  • Authors: D.S. Chen, R.G. Batson, Y. Dang
  • Publisher: John Wiley & Sons
  • Year: 2011
  • ISBN: 9780470373064
  • Citations: 589

Novel Nanostructured Paper with Ultrahigh Transparency and Ultrahigh Haze for Solar Cells

  • Authors: Z. Fang, H. Zhu, Y. Yuan, D. Ha, S. Zhu, C. Preston, Q. Chen, Y. Li, X. Han, et al.
  • Journal: Nano Letters
  • Volume: 14, Issue 2
  • Year: 2014
  • DOI: 10.1021/nl404101p
  • Citations: 495

Successful Recovery of COVIDโ€19 Pneumonia in a Renal Transplant Recipient with Longโ€Term Immunosuppression

  • Authors: L. Zhu, X. Xu, K.E. Ma, J. Yang, H. Guan, S. Chen, Z. Chen, G. Chen
  • Journal: American Journal of Transplantation
  • Volume: 20, Issue 7
  • Year: 2020
  • DOI: 10.1111/ajt.15905
  • Citations: 405

Arefeh Sadat Fathi | Indoor environmental quality | Best Researcher Award

Posted on by Best Paper Award
Mrs. Arefeh Sadat Fathi,ย Carleton University, Canada, Indoor environmental quality, Best Researcher Award

Summary:

Arefeh Sadat Fathi is a Ph.D. student in Building Engineering at Carleton University, Ottawa, Canada, commencing her studies in September 2019. Under the guidance of Prof. William Oโ€™Brien, her research explores “Design decisions and indoor environmental quality at the early stages of design.” Arefeh holds an M.Sc. in Architecture from Yazd University, Iran, where she achieved the second-highest rank. Her thesis, “Earth Sheltered Cultural Complex Design In Yazd,” reflects her dedication to sustainable architecture. With a B.Sc. in Architecture from Azad University, Isfahan, she ranked fifth and designed a Cultural Center promoting social interaction. Arefeh’s academic excellence has been recognized with honors, awards, and grants, including being ranked second among M.Sc. students in Architecture at Yazd University. As a recipient of a tuition bursary at Carleton University, Arefeh continues to excel in her academic pursuits with enthusiasm and dedication.

Professional Profile:

๐ŸŽ“ Education:

๐Ÿก Arefeh Sadat Fathi is a dedicated Ph.D. student in Building Engineering at Carleton University, Ottawa, Canada, since September 2019. Under the guidance of Prof. William Oโ€™Brien, her research focuses on “Design decisions and indoor environmental quality at the early stages of design.” ๐Ÿ“š Holding an M.Sc. in Architecture from Yazd University, Iran, where she ranked second, Arefeh’s commitment to sustainable architecture is evident in her thesis on “Earth Sheltered Cultural Complex Design In Yazd.” Her architectural journey began with a B.Sc. in Architecture from Azad University, Isfahan, where she ranked fifth and designed a Cultural Center fostering social interaction.

Publication Top Noted:

Arefeh Sadat Fathi has made significant contributions to the field of building engineering and architecture, as evidenced by her impactful research publications:

Title 1: “Office Design Decisions and Indoor Environmental Quality: A Parametric Design and Simulation-Based Workflow” (2022)

Presented at the COBEE Conference in Montreal, Canada, from July 25-29, 2022.

Title 2: “A simulation-based approach for evaluating indoor environmental quality at the early design stage” (2023)

Published in the Journal of Science and Technology for the Built Environment (STBE), spanning from page 1 to 29. The paper delves into a simulation-based methodology for assessing indoor environmental quality during the early stages of design. The DOI for this publication is https://doi.org/10.1080/23744731.2023.2187611.

Title 3: “Impact of different indoor environmental weighting schemes on office architectural design decisions in different climates” (2023)

Presented at the Healthy Building Conference in Aachen, Germany, held from June 11-14, 2023.

Title 4: “Impact of indoor environmental quality weighting schemes on office architectural design decisions” (2023)

Published in the Journal of Building and Environment. The paper explores the influence of indoor environmental quality weighting schemes on decision-making in office architectural designs. The DOI for this publication is https://doi.org/10.1016/j.buildenv.2023.111075.

These publications underscore Arefeh’s dedication to advancing knowledge in her field and her commitment to understanding and improving indoor environmental quality in various architectural contexts.

Experiences:

๐ŸŒ Actively engaged in research and teaching assistance at Carleton University, Arefeh significantly contributes to projects like the Annex 79 Project and the SUSTAIN Group, showcasing her multidisciplinary approach. Her practical experience encompasses projects like creating and analyzing energy regression models.

Honors Awards and Grants:

๐Ÿ‘ฉโ€๐ŸŽ“ Arefeh’s academic prowess is underscored by honors, awards, and grants, notably ranking second among all M.Sc. students in Architecture at Yazd University. Acknowledged for innovative designs in architecture competitions, she is also a recipient of a tuition bursary at Carleton University. Arefeh continues to excel in her academic pursuits with unwavering dedication and enthusiasm.

Research Focus:

Arefeh Sadat Fathi’s research focuses on the intersection of building engineering and architecture, with a primary emphasis on “Design decisions and indoor environmental quality at the early stages of design.” Her work delves into understanding the crucial choices made during the initial phases of architectural design and their impact on indoor environmental quality. This research is integral for creating sustainable and occupant-friendly built environments.

Key aspects of her research include:

Parametric Design and Simulation-Based Workflow: Arefeh explores the integration of parametric design principles and simulation-based methodologies to inform decision-making in office design, particularly with regards to indoor environmental quality.

Simulation-Based Evaluation of Indoor Environmental Quality: Arefeh employs a simulation-based approach to evaluate indoor environmental quality during the early design stages. This involves assessing various factors contributing to the overall quality of the indoor environment.

Climate Impact on Architectural Design Decisions: Investigating how different climates influence architectural design decisions, particularly in the context of office spaces. This research considers the unique challenges and opportunities presented by diverse environmental conditions.

Weighting Schemes and Design Decision Impact: Arefeh explores the impact of different indoor environmental quality weighting schemes on decision-making in office architectural designs. This includes understanding how varying prioritization of factors influences the final design outcomes.

Her research contributes to the broader fields of sustainable architecture, building engineering, and indoor environmental quality, aiming to enhance the understanding of early-stage design decisions and their implications for creating healthier and more efficient built environments.