Janire Múgica Mestanza | Conservation | Best Researcher Award

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Mrs. Janire Múgica Mestanza | Conservation | Best Researcher Award

Conservator-Restorer from Polytechnic University of Valencia, Spain

Janire Mugica Mestanza is an emerging expert in the field of conservation and restoration of cultural heritage, with a strong focus on archaeological and paleontological materials. Her professional journey is marked by a combination of academic distinction, hands-on technical experience, and significant contributions to heritage preservation projects in Spain. With a deep commitment to the archaeology of memory, Janire has played a key role in the conservation of historical and cultural artifacts, particularly through her awarded Master’s project involving the Paterna Graves. She collaborates with prominent research institutions such as the IPHES (Catalan Institute of Human Paleoecology and Social Evolution), and her expertise spans field excavation, laboratory restoration, public exhibition work, and interdisciplinary engagement. Her career reflects a deep sensitivity to cultural memory and a commitment to preserving material heritage in ways that are both sustainable and accessible to the public. Janire’s work is grounded in technical skill, research-driven methodology, and ethical conservation practices, which position her as a future leader in her discipline. Through publication, presentation, and collaborative practice, she continues to build a profile that bridges scientific research with cultural and social relevance.

Professional Profile

Education

Janire Mugica Mestanza has a solid academic foundation in the conservation and restoration of cultural assets. She completed her Master’s Degree in Conservation and Restoration of Cultural Assets from the Polytechnic University of Valencia (UPV) between 2021 and 2023, specializing in archaeology and mural painting. This advanced training offered her the opportunity to explore diverse restoration methodologies, interdisciplinary approaches, and the integration of sustainability in heritage conservation. Her Master’s thesis, focused on the Paterna Graves, was awarded the 2023 Young Researcher Award, underscoring her exceptional academic and research abilities. Prior to her postgraduate studies, Janire earned her undergraduate degree in Conservation and Restoration from the Faculty of Fine Arts of the University of the Basque Country (UPV-EHU) between 2015 and 2020. Her undergraduate research and final degree project also received national recognition through the 2020 Young Researcher Award from GEIIC. Janire’s academic path is further enhanced by numerous complementary courses, including specialized training in fossil material conservation, Egyptology, and the treatment of civil war grave artifacts. Her education reflects a continuous engagement with emerging techniques, international knowledge exchange, and a passion for academic excellence in the field of cultural heritage conservation.

Professional Experience

Janire Mugica Mestanza has accumulated extensive professional experience across leading archaeological, academic, and cultural institutions in Spain. She currently operates as a freelance conservator-restorer and has been actively involved in excavation and laboratory projects with research institutes such as IPHES and the Museum of Prehistory of Valencia. Janire’s hands-on restoration work includes projects at Camp Dels Ninots, Cueva del Castillo, and Atapuerca, where she has served in both technical and supervisory roles. In 2024, she contributed to the Conservation-Restoration Laboratory of the Pompeii Archaeological Park through the Erasmus program, further extending her international exposure. Her earlier professional experiences include internships and collaborations with the Cristóbal Balenciaga Museum, the Provincial Council of Álava, and the Artium Museum, where she engaged in artifact registration, preventive storage, and conservation of diverse materials like textiles, paper, and metals. Janire has also played key roles in organizing professional conferences, including the 20th Triennial ICOM-CC conference. Her expertise covers a wide array of conservation environments—from field excavations to museum collections and public exhibitions—demonstrating versatility, leadership, and a commitment to high-quality cultural preservation.

Research Interests

Janire’s research interests lie at the intersection of conservation science, public memory, and interdisciplinary heritage practices. She is particularly drawn to the conservation of archaeological and paleontological artifacts, with a strong focus on funerary archaeology, mural painting, and the ethical management of cultural heritage. Her Master’s project, “Archaeology of Memory: The Paterna Graves,” exemplifies her commitment to addressing sensitive historical narratives through innovative conservation strategies. Janire is interested in developing sustainable conservation methods and promoting collaborative work between scientists, conservators, archaeologists, and historians. She also engages in projects that integrate field excavation with museum exhibition practices, thus bridging academic research with public engagement. Her participation in conservation projects at high-profile archaeological sites like Atapuerca, El Barranc de la Boella, and Cueva del Castillo further highlights her focus on the preservation of historical landscapes and human remains. Additionally, Janire is intrigued by how digital tools and environmental sustainability can enhance the documentation and conservation of cultural heritage. These interests position her within a contemporary framework of conservation that values ethical reflection, public dialogue, and scientific accuracy.

Research Skills

Janire Mugica Mestanza brings a well-rounded set of research skills relevant to conservation and heritage science. She has expertise in artifact documentation, conservation diagnostics, field excavation, and laboratory-based restoration techniques. Her work on projects like the Paterna Graves involved multi-method approaches such as materials analysis, preventive conservation strategies, and public heritage enhancement. She is trained in handling diverse materials including mural paintings, textiles, fossil remains, and historical documents. Janire is proficient in digital tools for documentation and analysis, such as EMSIME, FileMaker, Dédalo, and ArqueoUAB, as well as image processing software like Adobe Photoshop and Illustrator. Her skills also extend to report writing, cataloging, and inventory management. She has conducted extensive fieldwork under challenging conditions, often integrating safety training such as PRL, diving certification, and working at height, which enhances her adaptability in conservation contexts. Additionally, Janire is experienced in communicating research through presentations, workshops, and publications. Her technical competence, supported by continuous training and practical exposure, allows her to conduct high-quality, ethical, and scientifically grounded research in conservation and restoration.

Awards and Honors

Janire Mugica Mestanza has received several distinguished awards that underscore her excellence in conservation and research. Most notably, she was honored with the 2023 Young Researcher Award in Conservation and Restoration by the Spanish Group of the International Institute for Conservation (GEIIC) for her Master’s thesis project on the Paterna Graves. This recognition celebrated her innovative and ethical approach to funerary archaeology and museum heritage. Earlier, in 2020, she was also awarded the Young Researcher Award from GEIIC for her final degree project focusing on textile pattern conservation at the Cristóbal Balenciaga Museum. These accolades reflect the scholarly and practical impact of her academic work. In addition to formal awards, Janire has participated in prestigious archaeological campaigns, received an Erasmus+ scholarship for her role at the Pompeii Archaeological Park, and has been selected for multiple specialized training programs and museum internships. Her consistent record of recognition points to a high level of dedication, creativity, and professionalism in the cultural heritage field. Through these honors, Janire has demonstrated her potential to contribute meaningfully to academic and public heritage landscapes on both national and international stages.

Conclusion

Janire Mugica Mestanza is a rising leader in the field of conservation and restoration, known for her combination of academic distinction, technical proficiency, and public heritage engagement. Her commitment to preserving cultural memory through archaeological and paleontological conservation is evident in her awarded projects, international collaborations, and consistent contributions to museums and research institutions. Janire’s educational background, hands-on field experience, and interdisciplinary research place her at the forefront of emerging professionals in conservation science. With strong communication skills, multilingual abilities, and a passion for ethically driven research, she is well-positioned to lead future initiatives in heritage conservation, museum practice, and public outreach. Her ability to connect science with storytelling, technical skill with public value, and conservation with sustainability makes her an ideal candidate for continued recognition and leadership roles in the international heritage community. As she advances her career, Janire is poised to shape new models of responsible conservation that respect both the material integrity and the historical significance of cultural assets.

Publication Top Note

  1. Between Heritage Conservation and Forensic Science: An Analytical Study of Personal Items Found in Mass Graves of the Francoism (1939–1956) (Spain)
    Journal: Molecules
    Publication Date: June 27, 2025
    Authors: María Teresa Doménech-Carbó, Trinidad Pasíes Oviedo, Ramón Canal Roca, Janire Múgica Mestanza

Zhao Hu | Environmental Science | Best Researcher Award

Published on by Shen Awards

Dr. Zhao Hu | Environmental Science | Best Researcher Award

Guizhou University, China

Zhao Hu is an emerging researcher in the field of photocatalysis and environmental chemistry with a strong focus on sustainable energy and advanced catalytic materials. His research primarily addresses environmental challenges through innovative photocatalytic processes for pollutant degradation, CO₂ reduction, water splitting, and hydrogen production. Zhao Hu has made significant contributions to the development of Z-scheme heterojunctions, defect engineering, and advanced catalytic designs that have achieved notable results in photocatalytic efficiency and stability. With 22 published articles in top-tier international journals, his work is well-cited and contributes valuable knowledge to the scientific community. Zhao Hu’s research stands out for its practical relevance, targeting real-world environmental issues with highly efficient and novel solutions. In addition to his research productivity, Zhao Hu has participated in peer-review activities, further demonstrating his academic recognition. His progressive contributions are paving the way for next-generation environmental remediation technologies. Zhao Hu’s consistent publication trajectory and focus on impactful research indicate his potential for leadership in his field. With continued dedication, he is poised to make further significant contributions to science and technology on both national and international levels.

Professional Profile

Education

Zhao Hu is currently pursuing his education at Guizhou University, Guiyang, China, where he has been enrolled since September 2021. His academic background is deeply rooted in materials science, chemistry, and environmental engineering, with a specialized focus on photocatalytic applications. His educational journey is strongly aligned with his research interests, allowing him to contribute novel solutions to energy and environmental challenges. Guizhou University has provided Zhao Hu with a strong research platform and exposure to advanced laboratory techniques and interdisciplinary collaboration. Through rigorous coursework and hands-on research, Zhao Hu has developed a solid theoretical and practical foundation in catalysis, nanomaterials, and photochemical processes. His education has been instrumental in shaping his expertise in designing and characterizing complex photocatalytic systems. The academic environment at Guizhou University, coupled with Zhao Hu’s determination and curiosity, has equipped him with essential problem-solving skills and analytical abilities. As he continues his education, Zhao Hu remains committed to applying his knowledge to address pressing environmental concerns and contribute to sustainable technological advancements. His educational track record reflects both academic excellence and a clear research-driven focus.

Professional Experience

Zhao Hu’s professional experience is predominantly research-intensive, with a strong emphasis on environmental photocatalysis and advanced material synthesis. Since 2021, Zhao Hu has been actively involved in academic research at Guizhou University, where he has significantly contributed to various photocatalytic projects focused on pollutant degradation, water splitting, CO₂ reduction, and hydrogen production. He has independently conducted experimental studies, developed novel photocatalytic materials, and collaborated on multi-authored research papers published in internationally recognized journals such as Applied Catalysis B: Environmental, Journal of Colloid and Interface Science, Advanced Functional Materials, and Chemical Science. Zhao Hu has also participated in peer-review activities, including work for the Alexandria Engineering Journal, demonstrating his growing recognition in the scientific community. His research experience encompasses catalyst design, surface chemistry, interfacial engineering, and reaction mechanism exploration. Although his career is still in its early stages, Zhao Hu’s hands-on involvement in experimental planning, data interpretation, and scholarly publication showcases a high level of professional maturity and dedication. His continuous engagement in cutting-edge research places him on a promising trajectory to become a leading expert in his field.

Research Interests

Zhao Hu’s research interests lie at the intersection of photocatalysis, environmental remediation, and sustainable energy solutions. His work primarily focuses on the design and fabrication of advanced photocatalytic materials capable of addressing critical environmental challenges such as air and water pollution, CO₂ emissions, and energy scarcity. He is particularly interested in Z-scheme heterojunctions, defect engineering, and the rational design of nanostructured catalysts that enable efficient visible-light-driven photocatalytic processes. Zhao Hu has a deep interest in exploring reaction mechanisms, surface electron dynamics, and the role of atomic-level modifications to enhance photocatalytic selectivity and stability. His studies also extend to the photocatalytic oxidation of nitrogen oxides (NOx), hydrogen production through water splitting, and photocatalytic CO₂ reduction. Zhao Hu is driven by the goal of developing eco-friendly, high-performance catalytic systems that can be scaled for practical applications in pollution control and renewable energy generation. His research approach combines experimental work with material characterization and reaction pathway analysis to provide comprehensive solutions to pressing environmental problems. Zhao Hu’s research interests are well aligned with global sustainability goals and contribute significantly to the advancement of green technologies.

Research Skills

Zhao Hu possesses a comprehensive set of research skills that enable him to excel in the field of environmental photocatalysis. He is highly proficient in the synthesis of nanostructured photocatalytic materials, including the fabrication of Z-scheme heterojunctions, defect-engineered semiconductors, and atomically dispersed metal catalysts. His skills extend to advanced material characterization techniques, allowing him to investigate surface morphology, electronic structures, and catalytic activity with precision. Zhao Hu is experienced in conducting photocatalytic experiments for pollutant degradation, CO₂ reduction, and hydrogen production under visible-light irradiation. His expertise also includes surface chemistry manipulation, reaction mechanism analysis, and the design of interfacial electron transfer systems to optimize photocatalytic efficiency. Additionally, Zhao Hu is capable of conducting electrochemical measurements to study catalyst stability and performance. His technical skills are complemented by his ability to critically interpret experimental data, publish high-quality research papers, and participate in the peer-review process. Zhao Hu’s multidisciplinary skill set enables him to develop practical solutions for environmental remediation and contribute to the growing body of knowledge in sustainable energy research.

Awards and Honors

Although specific awards and honors are not detailed in the provided profile, Zhao Hu’s consistent publication in top-tier journals and participation in the peer-review process suggest that he is gaining recognition within the scientific community. His contributions to journals such as Advanced Functional Materials, Applied Catalysis B: Environmental, and Chemical Science demonstrate the high quality and impact of his research. Zhao Hu’s inclusion as a peer reviewer for the Alexandria Engineering Journal indicates trust and acknowledgment from fellow researchers and editorial boards. His work on groundbreaking photocatalytic designs and environmental remediation techniques positions him as a strong candidate for future research awards, scholarships, and professional honors. As his career progresses, Zhao Hu is expected to accumulate accolades that will further validate his contributions to science and engineering. His current achievements reflect an upward trajectory and establish a solid foundation for future recognition in national and international academic platforms. Zhao Hu’s growing reputation and publication excellence underscore his potential to become a highly decorated researcher in his domain.

Conclusion

Zhao Hu is a dedicated and impactful researcher whose contributions to photocatalysis and environmental chemistry address some of the most pressing challenges of our time. His innovative approaches in designing advanced photocatalytic materials, coupled with a strong focus on energy efficiency and environmental protection, position him as a valuable asset to the scientific community. Zhao Hu’s comprehensive research portfolio demonstrates originality, technical depth, and practical relevance. His ongoing academic journey and active participation in peer-review activities highlight his commitment to advancing the field and maintaining high research standards. To further enhance his profile, Zhao Hu could benefit from engaging in international collaborations, leading large-scale projects, and participating in professional societies and academic conferences. Expanding his involvement in academic leadership and student mentorship would also contribute positively to his long-term academic impact. Overall, Zhao Hu has established a solid foundation for a successful research career and is well-suited for prestigious research awards and future academic honors. His potential for growth and continued contribution to sustainable environmental solutions make him a strong contender for the Best Researcher Award.

Publications Top Notes

  1. Yan Wang, Yan Ma, Shenghong Ding, Zhoujun Yin, You-Nian Liu, Zhao Hu2025

    • Unprecedented stability for photocatalytic selective oxidation of NO achieved by targeted construction of extraction-electron-surface and capture-hole-subsurface sites

  2. Zhiping Yang, Hongmei Xiao, Yudie Mao, Hai Zhang, Yixin Lu, Zhao Hu2024

    • Amplifying chlorinated phenol decomposition via Dual-Pathway O2 Activation: The impact of zirconium loading on BiOCl

  3. Yujiao Zhang, Yan Wang, Zhao Hu, Jinshu Huang, Song Yang, Hu Li2024

    • High-efficiency photocatalytic CO2 reduction enabled by interfacial Ov and isolated Ti3+ of g-C3N4/TiO2 Z-scheme heterojunction

  4. Ling Pu, Jiying Wang, Zhao Hu, Yujiao Zhang2023

    • Universal Water Disinfection by the Introduction of Fe–N3 Traps between g-C3N4 Layers under Visible Light

  5. Yan Wang, Zhao Hu, Wei Wang, Yanan Li, Haichuan He, Liu Deng, Yi Zhang, Jianhan Huang, Ning Zhao, Guipeng Yu et al.2023

    • Rational design of defect metal oxide/covalent organic frameworks Z-scheme heterojunction for photoreduction CO2 to CO

  6. Yujiao Zhang, Zhao Hu, Heng Zhang, Hu Li, Song Yang2023

    • Uncovering Original Z Scheme Heterojunctions of COF/MOx (M = Ti, Zn, Zr, Sn, Ce, and Nb) with Ascendant Photocatalytic Selectivity for Virtually 99.9% NO‐to‐NO3− Oxidation

  7. Yujiao Zhang, Yan Wang, Dan Zhao, Baoyu Wang, Ling Pu, Meng Fan, Xingtang Liang, Yanzhen Yin, Zhao Hu, Ximing Yan2022

    • Visible light in situ driven electron accumulation at the Ti–Mn–O3 sites of TiO2 hollow spheres for photocatalytic hydrogen production

  8. Zhao Hu2022

    • Atomic Ti-Nx sites with switchable coordination number for enhanced visible-light photocatalytic water disinfection

  9. Baoyu Wang, Xiandong Guo, Yujiao Zhang, Yan Wang, Guiqiu Huang, Huixia Chao, Weijian Wang, Zhao Hu, Ximing Yan2022

    • Extraordinary Promotion of Visible-Light Hydrogen Evolution for Graphitic Carbon Nitride by Introduction of Accumulated Electron Sites (BN2)

  10. Zhao Hu2021

  • Boosting the electrochemical performance of hematite nanorods via quenching-induced metal single atom functionalization