Yuniar Afifa Nur | Environmental Science | Best Researcher Award

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Ms. Yuniar Afifa Nur | Environmental Science | Best Researcher Award

Nagoya City University, Japan

Yuniar Afifa Nur is an emerging expert in architecture with a specialized focus on building energy performance and daylight utilization. She brings a strong blend of academic excellence, practical design experience, and a growing body of impactful research. With educational roots in Indonesia and advanced training in Japan, Yuniar has cultivated a global perspective on sustainable architecture and energy-efficient design strategies. Her current doctoral work at Nagoya City University concentrates on the integration of energy-saving methods within school building designs, particularly in tropical climates. She has published multiple peer-reviewed journal articles and presented at esteemed international conferences. Throughout her academic and professional journey, Yuniar has been awarded prestigious scholarships and research awards, underscoring her dedication and potential. In addition to her technical skills in architectural design and energy simulation, she demonstrates strong communication abilities and a clear commitment to interdisciplinary research. Her experience in both academia and industry enables her to translate theoretical research into practical applications. As a MEXT scholar and award-winning presenter, she exemplifies academic rigor and innovation. Yuniar continues to contribute meaningfully to the development of environmentally responsive architecture and serves as a role model for young researchers in Southeast Asia and beyond.

Professional Profile

Education

Yuniar Afifa Nur’s educational journey reflects consistent academic achievement and specialization in architecture and building energy systems. She began her undergraduate studies in Architecture at Universitas Hasanuddin, Indonesia, where she earned a Bachelor of Architecture (S1) degree with a GPA of 3.31 out of 4.00. Building on this foundational training, she was selected for a prestigious MEXT Scholarship to pursue graduate studies in Japan. At Nagoya City University, she earned her Master of Science in Design and Architecture, majoring in Advanced Building Energy Use and Science, and graduated with an impressive GPA of 3.97 out of 4.00. Currently, she is continuing at the same institution to pursue her Doctoral degree, further deepening her expertise in energy-efficient building systems. Her academic focus is on optimizing daylight integration and energy-saving strategies for educational buildings. The continuity and rigor of her academic path, especially under internationally competitive programs, reflect her commitment to excellence. Each stage of her education has helped Yuniar expand her technical, analytical, and theoretical knowledge, which she now applies to her research and practical work. Her strong academic foundation serves as the backbone for her research-oriented career in sustainable architecture and energy conservation.

Professional Experience

Yuniar Afifa Nur brings a wealth of professional experience that bridges design, architecture, and applied research. Her career began with hands-on architectural practice as a Freelance Architect for CV. Arina Consultant, where she contributed to planning and design projects. She subsequently worked as an Architect at MEC (Makassar Expedition Center), focusing on the design and planning of warehouse districts. In 2018, she served as a Designer at PT. Home Center Indonesia (Informa), where she was involved in house project planning and surveying construction progress. These early roles helped her develop strong competencies in design development, project planning, and site evaluation. From 2019 to 2020, she served as a Research Student at Nagoya City University, where she started integrating academic research with practical applications by studying building systems and equipment. She later interned at SGF Landscape Architect in Japan, contributing to concept design and 3D presentations. Her diverse professional background—ranging from residential and commercial architecture to academic research—illustrates her multifaceted expertise. It also highlights her ability to function effectively in both Indonesian and international architectural contexts. This blend of experience has equipped her with the skills to manage complex projects and conduct interdisciplinary research in energy-efficient architecture.

Research Interests

Yuniar Afifa Nur’s research interests center on sustainable architecture, with a specific focus on building energy efficiency and daylighting strategies in educational facilities. Her work aims to understand and improve how architectural design can reduce energy consumption while enhancing indoor environmental quality. A central theme in her doctoral research is the analysis of daylight utilization and thermal performance in school buildings, especially within tropical climates like Indonesia. She is particularly interested in how building envelope materials, orientation, and spatial configuration influence energy usage patterns. Another critical aspect of her research is the simulation and modeling of building energy performance under varying design parameters, using tools like TRNSYS 18. Yuniar’s interdisciplinary approach connects architecture, environmental engineering, and human comfort. She also explores context-specific building typologies and their implications for energy policy and sustainable urban development. Her research has practical applications for the design of cost-effective and energy-resilient educational infrastructure in Southeast Asia and other developing regions. By addressing global sustainability challenges through localized design strategies, Yuniar aims to contribute to the global discourse on climate-responsive architecture. Her work aligns with United Nations Sustainable Development Goals (SDGs), particularly those related to sustainable cities, affordable clean energy, and quality education infrastructure.

Research Skills

Yuniar Afifa Nur possesses a robust skill set that enhances her ability to carry out sophisticated architectural and environmental research. She is proficient in a range of design and analytical tools including AutoCAD, SketchUp, Lumion, Corel Draw, and ArchiCAD, which she uses for developing and visualizing architectural concepts. In terms of quantitative analysis, she is skilled in energy simulation and modeling, particularly using TRNSYS 18—a key tool for her research on daylighting and energy performance. She also applies Quantity Surveying techniques to support cost estimation and project planning. Her strong command of architectural software allows her to evaluate complex energy scenarios and produce accurate models that inform sustainable design decisions. Furthermore, Yuniar has developed research skills in data analysis, comparative studies, and performance evaluation, all of which are essential for validating design hypotheses. Her ability to integrate these technical skills with academic writing and publication makes her a well-rounded researcher. Her multilingual capabilities—fluent in English, native in Bahasa Indonesia, and beginner-level Japanese—enhance her ability to collaborate in international research environments. Altogether, her research toolkit enables her to bridge theoretical knowledge and practical applications in sustainable building design.

Awards and Honors

Yuniar Afifa Nur has received several prestigious awards and honors that underscore her academic excellence and research potential. Notably, she is a recipient of the MEXT (Ministry of Education, Culture, Sports, Science and Technology) Scholarship from the Government of Japan for both her Master’s and Doctoral studies at Nagoya City University—an honor awarded to outstanding international students. Her research presentations have also been recognized at international forums. She was awarded the First Prize for Excellent Poster Presentation at the NCU Asia Symposium 2021, along with the Audience Choice Award, highlighting both the scientific quality and public engagement of her work. Earlier in her academic journey, she received the PPA Scholarship from Universitas Hasanuddin for high-achieving undergraduate students. Additionally, she was selected as a delegate for the Youth Entrepreneurship Symposium 2017 in Singapore, demonstrating her leadership potential beyond academia. Yuniar has also served in academic and editorial capacities, including as a committee member for workshops on international journal publication. These awards and honors validate her growing impact in the field of architectural sustainability and research dissemination. They reflect not only her personal achievements but also her contributions to collaborative and international academic communities.

Conclusion

Yuniar Afifa Nur exemplifies the qualities of an outstanding researcher in sustainable architecture and energy performance. With a strong educational foundation from reputable institutions in Indonesia and Japan, she has cultivated both depth and breadth in her understanding of architectural design, building systems, and energy modeling. Her research on daylight utilization and energy-saving strategies in school buildings offers both theoretical insight and practical application, contributing to the global effort toward climate-responsive design. Through multiple peer-reviewed publications and international presentations, Yuniar has demonstrated her ability to produce rigorous, impactful research. She possesses a comprehensive skill set that combines design software proficiency, energy simulation expertise, and interdisciplinary communication. Her academic honors—including the MEXT Scholarship and multiple poster presentation awards—highlight her excellence and promise as a future leader in her field. Yuniar’s diverse experiences in professional architecture, international collaboration, and research organization make her a valuable contributor to sustainable development and educational innovation. Her trajectory reflects not only technical competence but also vision, perseverance, and a deep commitment to solving real-world problems. She stands as a highly suitable candidate for the Best Researcher Award and continues to inspire emerging scholars in architecture and environmental design.

Publications Top Notes

  1. Typical Building and Energy Consumption Pattern of High School Buildings in Makassar, Indonesia

  • Japan Architectural Review, 2025

  • Authors: Yuniar Afifa Nur, Gyuyoung Yoon

2. Evaluation of Energy Consumption of a Proposed Model by Comparison and Under Different Design Parameters for Energy Saving Improvement

  • Japan Society of Air Conditioning and Sanitary Engineers, Chubu Branch, Conference Paper, 2023-03-24

  • Authors: Yuniar Afifa Nur, Gyuyoung Yoon

3. Energy Savings for a Junior High School Classroom that Actively Uses Daylighting and Sensitivity Study on the Effect of the Building Envelope Thermal Performance

  • Japan Architectural Review, 2022

  • Authors: Yuniar Affa Nur, Gyuyoung Yoon, Takahiro Sato

4. A Case Study of Daylight Utilization in the Super Eco School Building

  • NCU Contact Points in Asia Symposium, Conference Poster, 2021-08-24

  • Author: Yuniar Afifa Nur

 

 

Lixia Zhao | Environmental Science | Best Researcher Award

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Prof. Dr. Lixia Zhao | Environmental Science | Best Researcher Award

State Key Laboratory of Environmental Chemistry and Eco-toxicology at RCEES, China

Dr. Lixia Zhao is a Professor at the Research Center for Eco-Environmental Science (RCEES), Chinese Academy of Sciences (CAS). She specializes in developing chemiluminescence-based analytical methods and technologies for detecting trace environmental pollutants and studying their degradation processes. With a strong academic and research background, Dr. Zhao has made significant contributions to environmental chemistry through her extensive publications, patents, and research projects. She has published 120 original research papers in high-impact journals such as Angewandte Chemie International Edition and Environmental Science & Technology, with a total of 5,213 citations. Dr. Zhao has successfully led multiple research projects funded by the National Natural Science Foundation of China and CAS, demonstrating her leadership in environmental analytical chemistry. Her innovative work has resulted in eight patent applications, of which six have been authorized. Through her research, Dr. Zhao aims to advance the detection, monitoring, and degradation analysis of environmental pollutants, contributing to improved environmental protection strategies. Her dedication to scientific innovation and her contributions to analytical environmental chemistry position her as a distinguished researcher in her field.

Professional Profile

Education

Dr. Lixia Zhao completed her Ph.D. at the Research Center for Eco-Environmental Science (RCEES), Chinese Academy of Sciences (CAS). Her doctoral studies focused on the development of novel chemiluminescence-based analytical methods for environmental pollutant detection and monitoring. During her Ph.D., she gained extensive expertise in environmental chemistry, analytical instrumentation, and eco-toxicological studies. Her academic training equipped her with the skills to develop new analytical techniques for detecting trace pollutants and understanding their degradation mechanisms. Dr. Zhao’s education at a leading research institution provided her with a strong foundation in scientific research, experimental methodologies, and interdisciplinary collaboration. Her Ph.D. research laid the groundwork for her future contributions to environmental science, particularly in the application of chemiluminescence techniques for pollutant analysis. Through her rigorous academic training, she developed advanced problem-solving skills, critical thinking abilities, and a deep understanding of environmental analytical chemistry. Her educational background has played a crucial role in shaping her research career, enabling her to contribute innovative solutions to environmental monitoring and pollution control.

Professional Experience

Dr. Lixia Zhao is currently a Professor at the Research Center for Eco-Environmental Science (RCEES), Chinese Academy of Sciences (CAS). Before attaining this position, she worked as a professor at the State Key Laboratory of Environmental Chemistry and Eco-Toxicology, RCEES. Throughout her academic career, she has been actively involved in research, teaching, and mentoring young scientists. Her professional experience spans several years of leading research projects focused on environmental analytical chemistry, particularly in developing advanced chemiluminescence-based detection methods for environmental pollutants. As a principal investigator, Dr. Zhao has successfully led multiple projects funded by prestigious organizations such as the National Natural Science Foundation of China and CAS. Her expertise in analytical method development and environmental monitoring has positioned her as a key contributor in the field. Additionally, she has collaborated with various research institutions, industry partners, and government agencies to enhance the application of her findings in environmental protection and pollution control. Her role as a professor has also involved supervising graduate students and fostering an environment of scientific innovation and excellence in research.

Research Interests

Dr. Lixia Zhao’s research focuses on the development of chemiluminescence-based analytical methods, technologies, and equipment for the detection and monitoring of trace environmental pollutants. She is particularly interested in understanding the dynamic degradation processes of these pollutants and their environmental implications. Her work integrates environmental chemistry, analytical techniques, and eco-toxicology to create innovative solutions for pollution monitoring and control. She aims to improve the sensitivity, selectivity, and efficiency of pollutant detection methods, enabling more accurate and real-time environmental assessments. Dr. Zhao’s research also extends to studying the interaction between pollutants and natural ecosystems, contributing to better environmental risk assessments and management strategies. Her work has practical applications in water and air quality monitoring, industrial pollution control, and regulatory compliance. By advancing analytical methodologies, she seeks to bridge the gap between laboratory research and real-world environmental challenges. Her commitment to developing cutting-edge environmental monitoring techniques reflects her dedication to sustainability and environmental protection.

Research Skills

Dr. Lixia Zhao possesses extensive expertise in analytical chemistry, particularly in chemiluminescence-based detection methods for environmental pollutants. She is skilled in developing and optimizing novel analytical techniques for trace pollutant analysis. Her technical proficiency includes designing and fabricating analytical instruments, data analysis, and method validation. She has hands-on experience with various laboratory techniques such as spectrophotometry, chromatography, and electrochemical analysis. Dr. Zhao is also adept at conducting eco-toxicological assessments and degradation studies to evaluate pollutant behavior in different environmental conditions. Her research involves interdisciplinary collaboration, integrating chemistry, environmental science, and engineering to develop innovative solutions for pollution monitoring. Additionally, she has strong project management skills, successfully leading multiple research grants and supervising research teams. Her ability to translate fundamental research into practical applications has resulted in patented technologies and advancements in environmental monitoring equipment. With her deep understanding of analytical instrumentation and environmental chemistry, Dr. Zhao continues to make significant contributions to the field.

Awards and Honors

Dr. Lixia Zhao has received numerous accolades in recognition of her contributions to environmental analytical chemistry. She has been awarded research grants and fellowships from prestigious organizations such as the National Natural Science Foundation of China and the Chinese Academy of Sciences. Her outstanding research achievements have been acknowledged through multiple national and international awards. Dr. Zhao’s high-impact publications in leading scientific journals have earned her recognition among her peers, as reflected in her citation count exceeding 5,213. She has also been honored for her contributions to scientific innovation through her patents, which have been successfully authorized and applied in practical environmental monitoring. Her expertise and leadership in the field have led to invitations as a keynote speaker at international conferences and participation in expert panels for environmental policy and regulatory discussions. These honors highlight her dedication to advancing analytical environmental chemistry and her influence in shaping research and technological advancements in pollutant detection and degradation analysis.

Conclusion

Dr. Lixia Zhao is a distinguished researcher in environmental analytical chemistry, specializing in chemiluminescence-based pollutant detection and monitoring. Her extensive publication record, high citation impact, and successful patent applications demonstrate her scientific excellence and innovation. With strong research skills, technical expertise, and leadership in multiple funded projects, she has significantly contributed to pollution monitoring and environmental protection. While she has established herself as a leading expert, further expanding her international collaborations and leadership roles in scientific organizations could enhance her global research influence. Her work has the potential to drive future advancements in analytical chemistry and environmental sustainability, making her a highly deserving candidate for recognition in her field.

Publications Top Notes

  • Title: “Enhanced Chemiluminescence Induced by Natural Light-Driven MIL-100(Fe)/TiO₂ for Dopamine Detection”

    Authors: Chengzhuo Yu, Jin Xu, Li Xiong, Yarui Wang, Silong Wang, Fanglan Geng, Zesen Shang, Huasheng Wu, Lixia Zhao, Yawei Wang

    Journal: Analytical Chemistry

    Publication Date: March 11, 2025

    DOI: 10.1021/acs.analchem.4c07100

  • Title: “In Situ Imaging of Cellular Inflammatory Response to Antibiotic Exposure with a DNAzyme Nanorobot”

    Authors: Aijiao Yuan, Huifang Hao, Rui Sha, Hang Xiao, Fan Yang, Bo Pang, Jinhua Li, Minghua Jin, Wenjing Xie, Lixia Zhao, et al.

    Journal: Environmental Science & Technology

    Publication Date: November 19, 2024

    DOI: 10.1021/acs.est.4c06956

  • Title: “Occurrence and Ecological Risk Assessment of Highly Toxic Halogenated Byproducts during Chlorination Decolorization of Textile Printing and Dyeing Wastewater”

    Authors: Yukun Zhou, Tianyu Chen, Xiang Zhang, Ruiqing Chen, Nali Zhu, Lingxiangyu Li, Lixia Zhao, Zhigang Li, Yawei Wang, Guibin Jiang

    Journal: Environmental Science & Technology

    Publication Date: October 8, 2024

    DOI: 10.1021/acs.est.4c07888

    Source: Crossref

  • Title: “Generation of Reactive Oxygen Species on MIL‐100(Fe)/TiO₂ Driven by Mild Natural Light”

    Authors: Chengzhuo Yu, Jin Xu, Yarui Wang, Silong Wang, Li Xiong, Fanglan Geng, Zesen Shang, Huasheng Wu, Jitao Lv, Lixia Zhao, et al.

    Journal: ChemCatChem

    Publication Date: July 24, 2024

    DOI: 10.1002/cctc.202400847

Gonzalo Fuenzalida | Earth | Best Researcher Award

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Dr. Gonzalo Fuenzalida | Earth | Best Researcher Award

Investigator Semi Senior at IFOP-UST, Chile.

Dr. Gonzalo Fuenzalida, a marine biologist with a Ph.D. in Ecology and Evolution, has made significant contributions to understanding marine biodiversity. He has conducted research on molecular ecology, genomics, and bioinformatics, shedding light on genetic diversity and ecological adaptations in marine species. With professional experience in research, teaching, and postdoctoral positions, Dr. Fuenzalida has actively participated in various scientific projects, conferences, and oceanographic expeditions. His work has earned him recognition through awards and honors, reflecting his dedication to advancing marine science.

Professional Profiles:

Education

Dr. Gonzalo Fuenzalida completed his undergraduate studies in Marine Biology at the Universidad Austral de Chile, Valdivia, from 2004 to 2010. Following this, he pursued a Ph.D. in Ecology and Evolution at the Station Biologique Roscoff, France, from 2012 to 2016. His doctoral research was conducted under the supervision of Team ABICE, UMR7144- Université Pierre et Marie Curie (Paris VI). Additionally, he engaged in a Postdoctoral Fellowship as part of the FONDEF ID-18-I -10228 project, focusing on the development of a molecular tool for the identification and quantification of toxic microalgae. This postdoctoral position took place between 2019 and 2021 in Concepción and Puerto Montt, Chile, under the auspices of UDECIFOP.

Professional Experience

Dr. Gonzalo Fuenzalida possesses a rich tapestry of professional experiences spanning research, teaching, and project management. As a Semi-Senior Researcher at the Instituto de Fomento Pesquero (IFOP), specifically at the Centro de Estudios de Algas Nocivas (CREAN), he has contributed significantly to the understanding of harmful algal blooms and their impact on marine ecosystems since 2017. Additionally, Dr. Fuenzalida served as a Postdoctoral Researcher on the FONDEF ID-18-I -10228 project, focusing on developing molecular tools for the identification and quantification of toxic microalgae, a role he held from 2019 to 2021. In the realm of education, he has shared his expertise as a teacher at the Universidad Santo Tomas (UST) and the Centro de Formación Técnica Santo Tomas (CFT-UST) since 2022. These multifaceted roles underscore his dedication to advancing scientific knowledge, fostering learning, and addressing critical environmental challenges in the field of marine biology.

Research Interest

Dr. Gonzalo Fuenzalida’s research interests encompass various facets of marine biology and ecology, with a particular focus on harmful algal blooms (HABs) and their ecological impact. His work delves into understanding the dynamics, distribution, and drivers of HABs along the Chilean coast, employing molecular tools and omics technologies for effective monitoring and management strategies. Additionally, Dr. Fuenzalida explores the genetic diversity and adaptation mechanisms of phytoplankton communities in contrasting marine environments, shedding light on their resilience to environmental changes. Through his research, he aims to contribute to the conservation of marine ecosystems and the sustainable management of coastal resources, addressing pressing environmental challenges in the context of climate change and anthropogenic activities.

Award and Honors

Dr. Gonzalo Fuenzalida has been recognized with several prestigious awards and honors for his remarkable contributions to the field of marine biology and ecology. Among these accolades is the Outstanding Research Contribution Award, which celebrates his significant achievements in studying harmful algal blooms and marine ecology. Additionally, he has received the Young Scientist Award, acknowledging his outstanding research work and promising potential in advancing marine science. Dr. Fuenzalida has also been honored with the Best Paper Award for a groundbreaking research paper that has greatly enhanced our understanding of marine ecosystems and their dynamics. Furthermore, he has been the recipient of a Research Fellowship, underscoring his excellence in research and providing support for further exploration and innovation in marine biology. These awards and honors underscore Dr. Fuenzalida’s commitment to advancing scientific knowledge and his profound impact on the field of marine biology and ecology.

Research Skills

Dr. Gonzalo Fuenzalida possesses a diverse range of research skills that have been honed through his extensive academic and professional experience in marine biology and ecology. His expertise includes molecular analysis techniques, such as PCR (Polymerase Chain Reaction) and qPCR (quantitative Polymerase Chain Reaction), which he utilizes for the identification and quantification of microalgae and other marine organisms. Dr. Fuenzalida is also proficient in bioinformatics, employing advanced computational methods for the analysis of high-throughput sequencing data, including metagenomics and metatranscriptomics. Additionally, he has a strong background in phylogenetics and genomics, allowing him to elucidate the evolutionary relationships and genomic characteristics of marine species. Moreover, Dr. Fuenzalida is skilled in fieldwork and oceanographic expeditions, having participated in various scientific cruises and research expeditions to study marine ecosystems and biodiversity. Overall, his comprehensive research skills enable him to address complex questions in marine science and contribute significantly to the understanding and conservation of marine environments.

Publications

  1. The holobiome of marine harmful algal blooms (HABs): A novel ecosystem-based approach for implementing predictive capabilities and managing decisions
    • Authors: Gajardo, G.; Morón-López, J.; Vergara, K.; Acuña, J.J.; Jorquera, M.A.
    • Journal: Environmental Science and Policy
    • Year: 2023
  2. Monitoring bacterial composition and assemblage in the Gulf of Corcovado, southern Chile: Bacteria associated with harmful algae
    • Authors: Fujiyoshi, S.; Yarimizu, K.; Fuenzalida, G.; Jorquera, M.A.; Maruyama, F.
    • Journal: Current Research in Microbial Sciences
    • Year: 2023
  3. Toxic Dinophysis acuminata in southern Chile: A comparative approach based on its first local in vitro culture and offshore-estuarine bloom dynamics
    • Authors: Paredes-Mella, J.; Mardones, J.I.; Norambuena, L.; Labra, G.; Nagai, S.
    • Journal: Progress in Oceanography
    • Year: 2022
  4. Heterosigma akashiwo in Patagonian Fjords: Genetics, Growth, Pigment Signature and Role of PUFA and ROS in Ichthyotoxicity
    • Authors: Flores-Leñero, A.; Vargas-Torres, V.; Paredes-Mella, J.; Lee-Chang, K.; Mardones, J.I.
    • Journal: Toxins
    • Year: 2022
  5. Toxic Alexandrium catenella expanding northward along the Chilean coast: New risk of paralytic shellfish poisoning off the Bío-Bío region (36° S)
    • Authors: Paredes-Mella, J.; Mardones, J.I.; Norambuena, L.; Espinoza-González, O.; Guzmán, L.
    • Journal: Marine Pollution Bulletin
    • Year: 2021
  6. Disentangling the environmental processes responsible for the world’s largest farmed fish-killing harmful algal bloom: Chile, 2016
    • Authors: Mardones, J.I.; Paredes, J.; Godoy, M.; Anderson, D.M.; Hallegraeff, G.M.
    • Journal: Science of the Total Environment
    • Year: 2021
  7. Unraveling the Karenia selliformis complex with the description of a non-gymnodimine producing Patagonian phylotype
    • Authors: Mardones, J.I.; Norambuena, L.; Paredes, J.; Krock, B.; Hallegraeff, G.
    • Journal: Harmful Algae
    • Year: 2020
  8. Salinity-growth response and ichthyotoxic potency of the Chilean Pseudochattonella verruculosa
    • Authors: Mardones, J.I.; Fuenzalida, G.; Zenteno, K.; Astuya, A.; Dorantes-Aranda, J.J.
    • Journal: Frontiers in Marine Science
    • Year: 2019