Rachid Masrour – Materials for energy – Best Researcher Award

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Rachid Masrour – Materials for energy – Best Researcher Award

Prof Dr. Rachid Masrour distinguished academic and researcher in the field Materials for energy, He appears to be highly suitable for the Best Researcher Award.

🌐 Professional Profile

Educations📚📚📚

  • Doctorate in Materials Physics: The person has a strong foundation in physics, particularly in materials physics, which is a significant and impactful research area.
  • Full Professorship and Habilitation: Achieving a full professorship and university habilitation demonstrates a high level of expertise, recognition, and authority in their field of research.

Professional Experience:

  • Research Professor: Over a decade of experience as a research professor at respected institutions shows dedication to both research and teaching. The transition from the National School of Applied Sciences to a prominent role at Sidi Mohamed Ben Abdellah University further highlights their growing influence in the academic world.

Research and Academic Contributions:

  • Responsibilities: The individual’s involvement in various academic and administrative roles, such as heading departments, coordinating programs, and participating in multiple committees, indicates a leadership role in shaping educational and research initiatives. These roles often require one to be a thought leader and innovator in their field.
  • Module Responsibilities: The responsibility for modules on advanced topics like Interaction Radiation Matter, Molecular Spectroscopy, Physics of Phase Transitions, and Optical Transmission Technology suggests deep expertise in cutting-edge areas of physics and engineering, which are critical for research and innovation.

Suitability for Best Researcher Award:

  • Breadth and Depth of Research: The candidate’s extensive experience in both teaching and research, combined with their leadership roles, suggests they are a well-rounded academic with a strong impact on both their field and the institutions they have served.
  • Leadership in Research: The leadership positions, particularly in research committees and academic councils, indicate the individual’s influence extends beyond personal research to shaping the research agenda and standards at their institutions.
📝🔬Publications📝🔬

1. Oudahman, M. , Houmad, M. , Masrour, R. , Rezzouk, A. Materials
Science in Semiconductor Processing , 182, 108647 (2024).
2. Raïâ, M.Y. , R. Masrour, Hamedoun, M. , Kharabach J, Rezzouk A,
Benzakour, N. , Bouslykhane, K. Materials Science in Semiconductor
Processing , 181, (2024) 108649.
3. A. Erraji, R. Masrour, L. Xu. Ionics 2024.DOI10.1007/s11581-024-05632-
z.
4. Heryanto, H. , Tahir, D. , Abdullah, B, Sayyed M.I.; Yunas, Jumril;
Masrour, Rachid; Veeravelan K. Arabian Journal for Science and
Engineering. DOI10.1007/s13369-024-09210-3 (2024).
5. Mennaoui, O. , R. Masrour, Xu, L. , Hlil, E.K. Ionics , 30(5), pp. 2537–
2547 (2024).
6. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today Communications ,
39, 108713 (2024).
7. Kadim, G. , R. Masrour, Physica Scripta , 99(6), 065988 (2024).
8. Rauf, Ichsan; Heryanto, Heryanto; Tahir, Dahlang; Gaus, Abd; Rinovian,
Asnan; Veeravelan K.; Akouibaa, Ahmed; Rachid Masrour; Akouibaa,
4
Abdelilah. Physica Scripta Open Access Volume 99, Issue 61 (2024) Article
number 065998.
9. Khalis, M, R. Masrour. Indian Journal of Physics , 98(8), pp. 2719–2729
2024.
10. Ramdane, O. , Labidi, M. , Labidi, S. , R. Masrour, Journal of the
Korean Ceramic Society (2024).DOI10.1007/s43207-024-00397-7.
11. Kadim, G. , R. Masrour, Journal of the Korean Ceramic Society
(2024).DOI10.1007/s43207-024-00394-w.
12. Sahdane, T. , R. Masrour, Journal of Cluster Science
(2024).DOI10.1007/s10876-024-02636-7.
13. Ezaier, A. , R. Masrour, Hamedoun, A., M. , Kharbach, J.,
Rezzouk, A., Benzakour, N. , Bouslykhane, K. Journal of Rare Earths
(2024).DOI10.1016/j.jre.2023.05.014.
14. R. Masrour, , Kadim, G. , Ellouze, M. Journal of the Korean
Ceramic Society , 61(3), pp. 411–418 (2024).
15. Akouibaa, A. , R. Masrour, , Mordane, S. , Benhamou, M., El
Assyry, A. , Derouiche, A.. Journal of Drug Delivery Science and Technology
, 95, 105559 (2024).
16. Sahdane, T. , R. Masrour, Polyhedron , 254, 116948 (2024).
17. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today
Communications , 39, 108713 (2024).
18. Elhnaki, I. , Masrour, R. , Sahdane, T. Computational Materials
Science , 242, 113113 (2024).
19. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500801 (2024).
20. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500811 (2024).
21. Meghchouche, H. , Labidi, M. , Amara, A. , Labidi, S. , R. Masrour,
Physica B: Condensed Matter , 686, 416080 (2024).
22. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Science in
Semiconductor Processing , 179, 108506 (2024).

Donglu Shi – Materials science – Best Researcher Award

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Donglu Shi – Materials science – Best Researcher Award

Prof Dr. Donglu Shi distinguished academic and researcher in the field Material ScienceHe has held various esteemed positions throughout his career. Since 2001, he has served as a Professor of Materials Science and Engineering at the University of Cincinnati in Cincinnati, Ohio, United States. Additionally, from 2013 to 2023, he assumed the roles of Chair and Graduate Director of Materials Science and Engineering at the same institution.

His international experience includes a stint as a Visiting Scientist at the Centre National de la Recherche Scientifique in Grenoble, Dauphiné, France, in 2001. Furthermore, in the same year, he was a Fellow at Fitzwilliam College, University of Cambridge, Cambridge, Cambridgeshire, United Kingdom.

Prior to his professorial role, he held the position of Associate Professor at the University of Cincinnati’s Department of Materials Science and Engineering from 1995 to 2001. Earlier in his career, he worked as a Staff Scientist in the Materials Science Division of Argonne National Laboratory, based in Argonne, Illinois, United States, from 1988 to 1995. Preceding this, he served as a Postdoctoral Staff member at the same institution from 1987 to 1988.

🌐 Professional Profiles

Educations📚📚📚

He received his Master of Science in Physics from the University of Massachusetts, Amherst, MA, USA, in May 1983. Following this, he pursued his Doctor of Philosophy (PhD) in Engineering from the same institution, completing it in September 1986. Subsequently, he joined Argonne National Laboratory in Lemont, Illinois, United States, as a Postdoctoral Fellow from July 1987 to September 1988, specializing in Materials Science.

Synergistic Activities

He is actively engaged in teaching and research at the University of Cincinnati, where he teaches undergraduate courses in materials science and graduate courses in solid-state physics. Additionally, he oversees the minor degree programs in Nano Engineering and Materials Engineering.

As part of his commitment to STEM education, he participates in the Summer Institute at the University of Cincinnati, delivering lectures on nanoscience to groups of underrepresented students.

His research endeavors are groundbreaking, focusing on nanoscience, photonics, and magnetism. He investigates the electronic structures of nanomaterials, particularly emphasizing 3D solar harvesting and energy generation. Through his innovative work, he contributes to the development of novel devices, aiming to achieve a net-zero carbon footprint and promote environmental sustainability. Furthermore, he explores the applications of biomaterials in medical diagnosis and therapy.

His contributions to the field have been recognized through various prestigious honors and awards, including being named a Fellow of ASM-International and a Visiting Fellow of Fitzwilliam College, Cambridge University. He has also received accolades such as the Rieveschl Award for Distinguished Scientific Research, the Sarah Grant Barber Outstanding Faculty Advisor Award, the Distinguished Engineering Researcher Award, the Neil Wandmacher Teaching Award, the SIGMA XI Research Recognition Award, and the Honor Roll Professor of Excellence in Teaching Award. Moreover, he has been appointed to editorial positions for several prominent journals, including serving as Editorial Board Member of Journal of Energy and Power Technology, Associate Editor of Nanomaterials, Editor-in-Chief of Nano LIFE, Associate Editor of Nanomaterials, and Editorial Board Member of Biomaterials Advances and Bioengineering.

📝🔬Publications📝🔬

Julieta Soledad Riva – Electrochemistry – Women Researcher Award

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Julieta Soledad Riva – Electrochemistry

Prof Dr. Julieta Soledad Ravi  distinguished academic and researcher in the field Chemistry – Electrochemistry – Materials. Soledad Riva has an extensive background in academia, particularly in the Department of Fisicoquímica at the Faculty of CieJulieta ncias Químicas, UNC. She began her journey as an Interim First Assistant (DE) from February 1, 2008, to March 31, 2008, followed by an Interim Second Assistant B (DS) role from June 1, 2010, to July 1, 2013. During this period, she also served as a Guide Teacher for the Faculty of Ciencias Químicas, winning the position through a competition, overseeing the Nivelación Cycle from January 1, 2010, to December 31, 2012.

🌐 Professional Profiles

Educations: 📚🎓

She continued her commitment to education as an Interim Assistant A (DS) in the Department of Fisicoquímica from July 1, 2013, to January 31, 2014, and later from July 1, 2020, to December 31, 2022. Her dedication is evident through her participation in various resolutions of the H.C Directivo, demonstrating her continued involvement and contribution to the academic community.

Julieta also expanded her teaching experience beyond the Department of Fisicoquímica, UNC, by taking up a role as a Free Teacher in the Faculty of Matemática, Astronomía, Física y Computación during the second semester of 2014, focusing on Nanoestructuras magnéticas unidimensionales.

Her commitment to academic excellence is further exemplified by successfully securing positions through competitions. Notably, she became a Professor Assistant (DS) in the Department of Fisicoquímica, Faculty of Ciencias Químicas, starting from January 1, 2023, as per Resolution H.C Directivo Nº 956/2022.

Julieta has actively contributed to undergraduate education by teaching various subjects, including Laboratory I, Química General I, Ciclo de nivelación, Química Analítica General, Laboratory II, Métodos Analíticos, and Practicanato en Química, spanning from 2008 to 2023.

Additionally, she has demonstrated her expertise in the field by conducting postgraduate courses such as “Electroquímica Molecular y Electroanálisis de Fármacos” and “Nanoestructuras Magnéticas Unidimensionales,” earning credits and recognition for her valuable contributions. Furthermore, her involvement as a member of postgraduate thesis evaluation committees reflects her commitment to nurturing the next generation of scholars, thus solidifying her reputation as a dedicated and accomplished academic professional.

 Capítulos de Libros
1. “An electrochemical approach to quantitative analysis of herbicides and to the study of their
interactions with soils components”.
Ana Valeria Juárez, Julieta Soledad Riva and Lidia Mabel Yudi,
Capítulo 11 pag. 229-252, en “Herbicides and environment” Ed. A. Kortekamp. INTECH.
Croacia (2011) ISBN: 978-953-307-476-4.
2. “Interactions between Herbicides and Humic Acids present in soils”
Julieta Soledad Riva, Ana Valeria Juarez and Lidia Mabel Yudi.
Capítulo 6, pag. 1-20, en “Herbicides: Properties, Crop Protection and Environmental Hazards”.
Editor: Karl D. Piotrowski. Editorial: Nova Science Publishers. INC. NY-USA (2011) ISBN:
978-1-61209-301-7.
3. “Metallic nanoparticles based drug delivery for pancreatic cancer”
Sara Moya Betancourt, Jorge G. Uranga, Viviana Daboin, Paula Bercoff, Julieta S.Riva*.
Capítulo 11, en Recent Advances in Nanocarriers for Pancreatic Cancer Therapy, 1st Edition –
September 16 (2023). Editor: Prashant Kesharwani, ISBN: 9780443191428.

 Presentaciones a congresos. Nacionales.

1. “Análisis de la interacción de Ácidos Húmicos con Prometrina en interfaces líquidas”.
A.V. Juárez, J.S. Riva, L.M. Yudi.
XV Congreso Argentino de Fisicoquímica y Química Inorgánica. 17-20 de Abril, 2007. Tandil,
Buenos Aires.
2. “Transferencia de polímeros catiónicos a través de interfaces líquido – líquido”.
Riva Julieta, Alasino Valeria, Juarez A. Valeria, Beltramo Dante, Yudi Lidia Mabel.
XVI Congreso Argentino de Fisicoquímica y Química Inorgánica. 18-22 Mayo, 2009. Salta.
3. “Interacción de picrato y eosina con Quitosán, analizada en una interfaz agua|1,2-
dicloroetano”.
Julieta Riva, Valeria Juarez, Lidia Mabel Yudi.
XXVIII Congreso Argentino de Química y 4to. Workshop de Química Medicinal. 13-16 de
Septiembre, 2010. Universidad Nacional de Lanús, Buenos Aires.
4. “Adsorción Electroquímica del polímero Celquat L200 en la interfaz agua/1,2dicloroetano”.
Julieta Riva, Valeria Juarez, Lidia Mabel Yudi.
XVII Congreso Argentino de Fisicoquímica y Química Inorgánica. 03-06 de Mayo, 2011.
Córdoba.
5. “Estudio electroquímico del comportamiento interfacial de polielectrolitos catiónicos y de su
interacción con iones de interes farmacológicos”.
Julieta S. Riva, Karina Bierbraguer, Dante Beltramo, Lidia M. Yudi.
XVII Congreso Argentino de Fisicoquímica y Química Inorgánica. 03-06 de Mayo, 2011.
Córdoba, Argentina.

Internacionales
1. “Respuesta ácido-base de Tionina inmovilizada en matrices de Quitosán entrecruzado con
Glutaraldehído”.
Gerbino, L.; Riva, J.; Strumia, M.; Baruzzi, A.; Iglesias, R.
II Iberoamericano y IV Congreso Argentino de Química Analítica. 27-30 de Agosto, 2007.
BuenosAires.
2. “Estudio Electroquímico de la Interacción de Quitosán con Aniones”.
Riva, J.; Juárez, V.; Yudi, L.M.
V Argentine – Chilean Polymer Symposium. VIII Argentine Polymer Symposium 18-21 de
Octubre, 2009. Los Cocos, Córdoba, Argentina.
3. “Comportamiento Electroquímico del Polímero Celquat en la Interfaz Agua/1,2 Dicloroetano”.
Riva, J.; Juárez, V.; Yudi, L.M.
V Argentine-Chilean Polymer Symposium. VIII Argentine Polymer Symposium. 18-21 de
Octubre, 2009. Los Cocos, Córdoba, Argentina.
4. “Comportamiento de Polímeros Catiónicos en Interfaces líquido/líquido polarizadas”.
Riva, J.; Yudi, L.M.
XXI Congreso de la Sociedad Iberoamericana de Electroquímica. 6-11 de Abril, 2014. La Serena,
Chile.
5. “Estudio Electroquímico del comportamiento interfacial de polielectrolitos catiónicos, y sus
complejos con tensioactivosaniónicos monovalentes”.
Riva, J.; V.; Yudi, L.M.
XXI Congreso de la Sociedad Iberoamericana de Electroquímica. 6-11 de Abril, 2014. La Serena,
Chile

 Conferencias invitadas. Internacionales.
1. “Molecular electrochemical water photo-oxidation”.
S. Moya Betancourt, J.S. Riva, A. Olaya, H. Girault,
34th Topical Meeting of the International Society of Electrochemistry, 19 – 22 March 2023
Mar del Plata, Argentina. Oral Invited presentation. Expositora: Julieta Riva.
2. “Magnetic nanostructures: synthesis, properties, applications and study of interactions with
lipid monolayers”.
Oral Invited presentation. Invitation to be Speaker to the 7th National Conference on
Engineering Physics (VII CNIF) and 2nd Applied Physics, Engineering & Innovation (II APEI).
Universidad Nacional de Colombia, Sede Manizales. Octubre 25 – 27, 2023.
FORMACION DE RECURSOS HUMANOS
 Dirección de tesis de doctorado en curso:
– Sara Natalia Moya Betancourt. Comienzo: Noviembre 2018. Lugar de trabajo: INFIQC,
Departamento de Fisicoquímica. Título: “Comportamiento electroquímico de nanopartículas
magnéticas en interfaces líquido / líquido simples o modificadas con diferentes películas”.
Doctorado en Química, Facultad de Ciencias Químicas, UNC. Res Nº 736/2019.
– Viviana Daboin. Comienzo: Octubre 2021. Lugar de trabajo: INFIQC, Departamento de
Fisicoquímica. Título: “Síntesis de nano-estructuras magnéticas funcionalizadas para diversas
aplicaciones. Análisis de su comportamiento en interfaces líquido/líquido y agua/aire”. Doctorado
en Ciencia de los Materiales, Facultad de Ciencias Químicas, UNC Res Nº 691/2022.
 Co-dirección de tesis en curso:
– Martina Arce. Directora: Paula Bercoff. Co- Directora: Julieta Riva. Comienzo: Marzo 2023.
Lugar de trabajo: IFEG Título: “Producción y estudio de nanohilos magnéticos bimetálicos con
aplicaciones tecnológicas”. Doctorado en Ciencia de los Materiales.
Co-direccion de maestría en ingeniería química en curso:
-Yury Paola Garcia Gallego. C.C. No. 1.053792270. Título: “Efecto de incorporación de
nanopartículas de Au en recubrimientos de TiO2 inducidas por OEP para análisis de actividad
celular”. Lugar de Trabajo: Facultad de Ciencias Exactas y Naturales, Universidad Nacional de
Colombia, Sede Manizales. Directora: Profesora Elisabeth Restrepo Parra. Inicio: 2021.
 Dirección de beca CONICET:
– Sara Natalia Moya Betancourt. Beca de finalización de doctorado. Abril 2022. Lugar de
trabajo: INFIQC, Departamento de Fisicoquímica.
-Viviana Daboin. Para realizar el Doctorado en Ciencia de los Materiales.
 Co-dirección de beca CONICET:
-Soledad Aprea. Comienzo: Septiembre 2021. Para finalizar el Doctorado en Física. Directora de
Beca: Paula Bercoff. Título: “Nanohilos cilíndricos magnéticos de aleaciones basadas en Fe.
 Colaboración en la dirección de otros recursos humanos:
Colaboración en la dirección del Magister François Pichard en el EPFL, Suiza. 01/01/2019 –
30/02/2019. Director: Hubert Girault
Dirección de las tareas del Magister Darwin Augusto Torres-Ceron durante su estadía en
Córdoba durante el mes de Agosto del 2019. Director: Elisabeth Restrepo Parra.
Dirección de tutorías de estudiante de grado durante el primer cuatrimestre 2023. Tema: Diseño
y síntesis de nano-arquitecturas magnéticas con aplicaciones tecnológicas. Estudiamtes:
Nahuel Gomez y Camila Aylén Reyna.
 ESTADÍAS EN EL EXTERIOR
 Instituto EPFL, Lausanne, Suiza. Título del proyecto: “Photocatalitic water splitting in liquidliquid interfaces”. Director de beca: Hubert Girault. Períodos: desde 01/12/2017 hasta
01/12/2018; 15/01/2019 hasta 29/02/2019.
 Instituto EPFL, Lausanne, Suiza. Título del proyecto: “Photoproduction of Hydrogen”.
Director: Hubert Girault. Período desde 01/10/2021 hasta 31/01/2022.
 CURSOS REALIZADOS
– Curso de formación general “La problemática de las Ciencias Químicas en la Argentina”
organizado por el departamento de postgrado de la Facultad de Ciencias Químicas (U.N.C.).
Directores: Dr. German A. Roth y Dra. Margarita Briñón. Calificación: APROBADO. 2008.
Carga horaria 30 hs.
– Curso de formación específica “Autoorganización molecular controlada de nano-bioestructuras y biosuperficies” de la Escuela Binacional de Nano-Ciencia, realizado en La Falda,
Córdoba 27-30/10/2008. Director: Dr. Guillermo Montich. Calificación: 8 (ocho). Carga horaria:
24hs.
– Curso de formación específica “Fisicoquímica de Sistemas Dispersos” dictado en la Facultad
de CienciasQuímicas. Director: Dr. Carlos de Pauli. 2008. Calificación: 9 (nueve). Carga horaria:
30hs.
– Curso de formación específica“Avances en Síntesis Orgánica II: Nuevos materiales macro y
nanoestructurados’’ dictado por la escuela de postgrado de la Facultad de Ciencias Químicas,
Universidad Nacional de Córdoba. Directores: Dra. Miriam Strumia, Dra. Cecilia Álvarez
Igarzabal. 2008. Calificación: 9 (nueve). Carga horaria 26hs.
– Curso de formación específica “Análisis Multivariado”, dictado por la escuela de postgrado de
la Facultad de Ciencias Agropecuaria, Universidad Nacional de Córdoba. Directores: Dra. Ing.
Agr. Dra. Mónica Balzarini Ing. Agr. PhD. Mónica Balzarini. 2009. Calificación: 10 (diez).
– Curso de formación específica “Segunda Escuela de Nanomedicinas”, Comité Organizador y
Científico: Dra. Eder Romero (UNQ), Dra. Maria Jose Morilla (UNQ), Dr. Alejandro Sosnik
(UBA), Dra. Laura Hermida (INTI). 25-29 de Octubre, 2010. La Plata, Buenos Aires, Argentina.
Calificación: 10 (diez). Horas: 40hs.
– Curso de formación específica “Química de Polímeros”, Directores: Dr. Cesar Barbero, Dra.
Cristina MirasAcevedo. 21-25 de Noviembre, 2011. Rio Cuarto, Córdoba, Argentina. Horas: 60hs.
– Curso: “Análisis cuali/cuantitativo de fases mediante difracción de rayos x empleando software
difrac plus TOPAS®’’ Directores: Dr. Víctor M. Galván Josa; Dra. Silvina Limandri; Dr. Gastón
G. Fouga. 40 horas. Teórico – Práctico. Febrero 2015. Aprobado.
– Curso: “Microscopía Electrónica de Barrido y Microanálisis’’ Directores: Jorge Trincavelli. 60
horas. Teórico – Práctico. Segundo cuatrimestre 2015. Aprobado.
– Curso Formación Docente en Género y Abordaje de Violencias UNC-“Ley Micaela” – 2023,
Aprobado: Código de honor

BECAS OBTENIDAS
– Beca de Extensión del Programa de Becas y Subsidios a Proyectos de Extensión otorgada por la
Secretaría de Extensión Universitaria, Universidad Nacional de Córdoba.
Título del Proyecto: “Electrocromismo de colorantes redox inmovilizados en películas de
polímeros conductores y su utilización en la construcción de sensores ópticos de pH”. Director.
Dr. Rodrigo Iglesias.Período de beca: desde 01/01/07 hasta 31/12/07.
– Beca de postgrado otorgada por CONICET en el tema: “Comportamiento electroquímico de
polímeros catiónicos en interfaces líquido – líquido”. Directora de beca: Lidia Mabel Yudi.
Período de beca: desde 01/04/08 hasta 01/04/13.
– Beca de posdoctorado otorgada por CONICET en el tema: “‘Síntesis y caracterización de
nanoestructuras basadas en Fe-Rh”. Directora de beca: Silvia Urreta. Período de beca: desde
01/04/2013 hasta 01/04/2015.
– Beca de posdoctorado para investigadores jóvenes para realizar una estadía de un año en el
instituto EPFL, Lausanne, Suiza: “Photocatalitic water splitting in liquid-liquid interfaces”.
Director de beca: Hubert Girault. Período de beca: desde 01/12/2017 hasta 01/12/2018.
EXTENSION
– Participación en la organización de las actividades realizadas para conmemorar el ‘Año
Internacional de la Química’. Paseo del Buen Pastor, 22-24 de Noviembre, 2011. Res 368/2012.
– Participación en la organización de las actividades extras en las Olimpiadas Argentinas de
Física: ‘Quimi-Bingo’, Carlos Paz, 21-25 de Octubre, 2019.
– Participación en el dictado de las actividades realizadas en el marco de CONCIENCIA. 22-24 de
Noviembre, 2022. Res 368/2022.
– Operadora del Microscopio Electrónico de Barrido SEM de Lamarx, FaMAF-UNC una vez por
semana desde el año 2015.
GESTION
– Integrante del consejo de Departamental de Fisicoquímica, FCQ-UNC. Suplente de
Representantes de Prof. Auxiliares. Resolución 902/2022.
– Comisión de Trabajos Prácticos de la Facultad de Ciencias Químicas, UNC.2023-2024.
– “Banco de Docentes-Guía de la Facultad de Ciencias Químicas”, por un período de 3 (tres) años,
EX-2022-00552446- UNC-ME#FCQ. Inicio 2022.
 Organización de Eventos.
– Comité Científico. 7th National Conference on Engineering Physics (VII CNIF) and 2nd
Applied Physics, Engineering & Innovation (II APEI). Universidad Nacional de Colombia, Sede
Manizales. Octubre 25-27, 2023. https://www.congresonacionalingfisicavii.co.
 DIRECCIÓN DE PROYECTOS SUBSIDIADOS
– Proyecto: “Síntesis y caracterización de nanoestructuras basadas en Fe-Rh’’ Institución
acreditadora: Universidad Nacional de Córdoba. Institución Financiadora: SECyT – UNC.
Periodo: 2014-2015 ($4.600). Director: Dra. Julieta Soledad Riva. Colaboradora: Soledad
Viquerira.
– Proyecto: “Optimización de la síntesis de nanohilos metálicos y caracterización de sus
propiedades magnéticas, para su posterior aplicación en electrocatálisis’’ Institución Financiadora:
FONCyT, PICT 2016 N° 1902. Periodo: 2016-2019 ($170.000). Director: Dra. Julieta Soledad
Riva. Colaboradores: Gabriela Pozo Lopez, Valeria Juarez, Silvia Urreta, Lidia Mabel Yudi.
– Proyecto: “Estudio de la interacción de nanopartículas y nanohilos magnéticos asociados a
polímeros y fármacos, con nano-biointerfaces bajo efecto de polarización electroquímica’’
Institución Financiadora: Conicet, PIP 11220200102625CO. Periodo: 2021-2023 ($850.000).
Director: Dra. Julieta Soledad Riva. Integrante: Candelaria Inés Cámara.
PARTICIPACIÓN EN PROYECTOS SUBSIDIADOS.
– Proyecto: “Electrocromismo de colorantes redox inmovilizados en películas de polímeros
conductores y su utilización en la construcción de sensores ópticos de pH”. Institución
acreditadora: Universidad Nacional de Córdoba. Institución Financiadora: Secretaría de
Extensión Universitaria. Período: 2007. Director: Dr. Rodrigo Iglesias.
– Proyecto: “Electrocromismo y Fotoelectrocromismo de películas de polímeros
conductores depositadas sobre vidrios conductores modificados” Institución acreditadora:
Universidad Nacional de Córdoba. Institución Financiadora: SeCyT (Secretaría de Ciencia y
Técnica), 69/08. Período: 2008-
2009. Director: Dr. Rodrigo Iglesias.
– Proyecto: “Comportamiento de Fármacos y Herbicidas en Interfaces Líquidas,
cuantificación, relaciones estructura-actividad e interacciones con componentes de membranas
biológicas”. Institución acreditadora: Universidad Nacional de Córdoba. Institución Financiadora:
CONICET, PIP
5771/0. Periodo: 2006-2008. Director: Dra. Lidia Mabel Yudi.
– Proyecto: “Comportamiento electroquímico de polímeros catiónicos y de sistemas que
permiten modelar la interacción entre componentes de membranas biológicas y fármacos”
Institución acreditadota: Universidad Nacional de Córdoba. Institución Financiadora: SECyT –
UNC. Periodo: 2008-2009 ($13.000). Director: Dra. Lidia Mabel Yudi.
– Proyecto: “Comportamiento electroquímico de polímeros catiónicos y de sistemas que
permiten modelar la interacción entre componentes de membranas biológicas y fármacos”.
Institución acreditadora: Universidad Nacional de Córdoba. Institución Financiadora: CONICET,
PIP 2239. Período
2009-2011 ($ 36.000). Director: Dra. Lidia Mabel Yudi.
– Proyecto: ‘’Comportamiento electroquímico de sistemas nanoestructurados en interfaces líquidolíquido. Aplicación al estudio del transporte de fármacos y de la interacción de los mismos con
componentes de membranas biológicas’’.Institución Financiadora: CONICET, PIP
11220110100011. Período 2012-2014 ($ 30.000 por año).Director: Dra.Lidia Mabel Yudi.
– Proyecto: “Interacción de nano partículas magnéticas con componentes de biomembranas en
interfaces liquido/líquido y agua aire”. Institución acreditadora: FONCyT, PICT 2013 nº 0822.
Periodo: 2014-2016. ($ 421.050). Directora: Dra. Lidia Mabel Yudi.
– Proyecto: “Interacción de nanopartículas magnéticas, surfactantes y dispositivos fármaconanoestructuras con componentes de biomembranas auto-organizados adsorbidos en interfaces
liquido/líquido, agua/aire y en bicapas lipídicas”. Proyecto Consolidar. Periodo: 2018-2020.
($220.000). Directora: Ana Valeria Juarez.
– Proyecto: “Interacción de nanopartículas magnéticas, surfactantes, y dispositivos fármaconanoestructuras con componentes de biomembranas autoorganizados en monocapas adsorbidas en
interfaces liquido / líquido y agua / aire y en bicapas lipídica”. Institución acreditadora: FONCyT,
PICT 2015 nº 2552. Periodo: 2016-2018. ($ 850.50). Directora: Dra. Lidia Mabel Yudi.
– Proyecto: “Sistemas autoorganizados: monocapas y bicapas de fosfolípidos y otros componentes
de biomembrana. Estructura e interacción con nanopartículas y nanohilos magnéticos, polímeros
y fármacos”. Institución acreditadora: FONCyT, PICT 2019 Nº 03726. Periodo: 2019-2021. ($
2.165.625.00). Directora: Dra. Lidia Mabel Yudi.
 OTROS ANTECEDENTES DE INTERÉS
– Idiomas:
Ingles Nivel 5 – Cursos intensivo Facultad de Lenguas. Equivalente B1+.
Francés Nivel 1 – Cursos intensivo Facultad de Lenguas. Equivalente A1.
– Curso de Grado: XIII Seminario sobre Usos Pacíficos de la Energía Nuclear, organizado
con la colaboración de la comisión Nacional de Energía Atómica, Reactor Nuclear Ra-0,
Facultad de Ciencias Exactas Físicas y Naturales, UNC. Primer cuatrimestre 2007. Calificación:
Aprobado.
Publication

  • Enhancement of the electrochemical oxygen evolution reaction by light and external magnetic fields, using hybrid electrodes made by Langmuir-Blodgett

    Electrochimica Acta
    2024-02 | Journal article
    DOI: 10.1016/j.electacta.2024.143910
    CONTRIBUTORS: Viviana B. Daboin; Sara Natalia Moya Betancourt; Eliana D. Farias; Julieta S. Riva; Paula G. Bercof

  • Impact of the duty cycle on the morphology and photocatalytic properties of S-TiO2 obtained by plasma electrolytic oxidation to treat real electroplating wastewater contaminated with Cr6+

    Journal of Environmental Chemical Engineering
    2023-10 | Journal article
    DOI: 10.1016/j.jece.2023.110246
    CONTRIBUTORS: Steven Vargas-Villanueva; Juan Pablo Velásquez-Tamayo; Darwin Augusto Torres-Cerón; D. Fabio Mercado; Ricardo A. Torres-Palma; David Riassetto; Julieta Soledad Riva; S. Amaya-Roncancio; Samir Fernando Castilla-Acevedo; Elisabeth Restrepo-Parra

  • Opposite effects produced by magnetic nanoparticles:Phospholipid films generated at a liquid/liquid interface, in the drug transfer processes

    Electrochimica Acta
    2023-03 | Journal article
    DOI: 10.1016/j.electacta.2023.141967
    CONTRIBUTORS: Sara N. Moya Betancourt; Julieta S. Riva

  • Interaction between Pharmaceutical Drugs and Polymer-Coated Fe3O4 Magnetic Nanoparticles with Langmuir Monolayers as Cellular Membrane Models

    Pharmaceutics
    2023-01-17 | Journal article
    DOI: 10.3390/pharmaceutics15020311
    CONTRIBUTORS: Sara Natalia Moya Betancourt; Candelaria Inés Cámara; Julieta Soledad Riva

A.Vahid Movahedi-Rad- Material Science

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Dr. A.Vahid Movahedi-Rad – Leading Researcher in Material Science

Dr. A.Vahid Movahedi-Rad a distinguished academic and researcher in the field of Material Science. He is an expert in materials development and characterization, with a focus on bio- and petrol-based polymers, adhesives, and polymer-based composites. His expertise extends to the development of analytical, computational, and data-driven models in materials science, enabling advanced research and innovation. With a strong background in product development, he excels in establishing manufacturing technologies, quality control, and conducting failure analysis. His experience in coatings and surface modifications adds another layer to his versatile skill set.

Education

🎓 With a Ph.D. in Materials Science and Engineering earned from EPFL in Lausanne, Switzerland (Mar. 2015 – Mar. 2019), he delved into the intricacies of load history effects in the fatigue behavior of Glass/Epoxy composites. This research took place at the Composite Construction Laboratory (CCLAB) under the mentorship of Professor Thomas Keller. Prior to his doctoral journey, he pursued a Master’s degree in Materials Science and Metallurgy at the University of Tehran, Iran (Sept. 2011 – Sept. 2013). Here, in the Formability Laboratory, he explored the mechanical properties and creep behavior of Mg-Gd-Y-Zr and Mg-Gd-Y-Zr-Ag alloys. Professor Reza Mahmudi guided him through this research. His academic journey commenced with a Bachelor’s degree in Materials Science and Metallurgy from the University of Tehran (Sept. 2007 – Aug. 2011), laying the foundation for his subsequent advanced studies and research pursuits. 🌐 🌞📚

Professional Profiles:

Conference Attended

🗣️ He has showcased his research contributions through numerous oral presentations at prestigious international conferences. Notably, he presented at the 20th European Conference on Composite Materials (ECCM18) in 2022, held in Lausanne, Switzerland. His insights were also shared at the Develop Beyond 2021 event in Tobii, Stockholm, Sweden. Earlier, in 2018, he delivered oral presentations at both the 18th International Conference on Experimental Mechanics (ICEM18) in Brussels, Belgium, and the 18th European Conference on Composite Materials (ECCM18) in Athens, Greece.

In 2016, he presented at the 17th European Conference on Composite Materials (ECCM17) in Munich, Germany, further establishing his presence in the academic community. Going back to 2013, he participated in the International Conference on Ultrafine Grained and Nano-Structured Materials in Tehran, Iran, showcasing his work through a poster presentation. These engagements highlight his commitment to disseminating knowledge and contributing to the global discourse in the field of materials science. 🌍✨

Projects:

🌱 In his role as a Scientific Collaborator at CCLAB, EPFL, Lausanne, Switzerland since May 2019, he has been at the forefront of innovative product development, particularly focusing on the creation of new biobased composites tailored for industrial applications. His expertise extends to the development of fully biobased composites, such as Reconstructed Wood, boasting superior mechanical properties. Leveraging the power of artificial intelligence, he has pioneered the development of models for non-destructively predicting the mechanical properties of diverse wood species, as well as determining their physical characteristics.

His commitment to sustainability is evident in his design of fully bio-based laminated composites geared towards structural and constructional applications. Alongside these technical contributions, he actively collaborates with students, guiding them in their academic pursuits, and takes on the responsibilities of project management, ensuring the successful execution of endeavors in the dynamic field of materials science and engineering.

publication🌐🔧👨‍🔬

 

 

 

 

 

Akash Rasal- Material Science

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Dr. Akash Rasal  – Leading Researcher in Material Science

Dr. Akash Rasal a distinguished academic and researcher in the field of Material Science. He earned his Ph.D. in Chemical Engineering with First Class honors from the Nao-Chemistry Laboratory at the National Taiwan University of Science & Technology (NTUST) during the period spanning September 2018 to June 2021. His doctoral research focused on the design and fabrication of environmentally friendly, efficient, and stable Quantum Dot-Sensitized Solar Cells (QDSSCs) through innovative electrolyte engineering approaches. The culmination of his academic journey is reflected in his thesis titled “Design and Fabrication of Green, Efficient, and Stable Quantum Dot-Sensitized Solar Cells Through Electrolyte Engineering.” This work not only underscores his commitment to advancing the field of chemical engineering but also highlights his dedication to sustainable and cutting-edge technologies in the realm of solar energy.

Education

He completed his Master of Science (M.Sc.) in Analytical Chemistry with First Class honors at the Department of Chemistry, Shivaji University Kolhapur (SUK), Maharashtra, India, from July 2013 to March 2015. Under the guidance of Prof. G. B. Kolekar, his thesis titled “Pine Wood Derived Carbon Quantum Dots for Fluorescence Applications: Hydrothermal Synthesis and Characterization” showcased his expertise in the field. Subsequently, from July 2010 to April 2013, he attained his Bachelor of Science (B.Sc.) in Chemistry with First Class with Distinction at the Department of Chemistry, Shrimant Babasaheb Deshmukh Mahavidyalaya, Atpadi, affiliated to Shivaji University Kolhapur (SUK), Maharashtra, India. 🎓

Building on this foundation, he pursued a Ph.D. in Chemical Engineering with First Class honors at the Nao-Chemistry Laboratory, National Taiwan University of Science & Technology (NTUST), Taiwan. 🌐 His doctoral research, conducted within the timeframe of September 2018 to June 2021, focused on advancing the field through the design and fabrication of green, efficient, and stable Quantum Dot-Sensitized Solar Cells (QDSSCs) via electrolyte engineering. 🌞📚

Professional Profiles:

 Research interests 

Current research interests are highly aligned with the most exciting and cutting-edge areas of research in materials
science and engineering, including but not limited to the synthesis of quantum dots (QDs) and two-dimensional
(2D) nanomaterials for advanced energy technologies.

Green and solution-processed QDs: Development of novel, non-toxic, water-based alloyed semiconductor QDs,
such as ZnCuInS, ZnCuInSe, AgCuInSe, and AgCuInSe, with higher quantum yield (QY) and lifetime for energy
conversion and storage applications. In addition, synthesize lead-free perovskite (Cs3Bi2Br9, CsSnI3, etc.) QDs and
carbon-based QDs (graphene, polymer dots, etc.) for energy applications.

Printed and flexible electronics: Development of new printing and solution-based processes for the fabrication of
photovoltaic cells, supercapacitor devices, and Zn-air batteries on flexible substrates, such as polymers and
conducting paper. This could include the development of new inks, printing techniques, and quasi-solid state gel
electrolyte (QSSGE) methods.

Multifarious electrocatalysts: Development of new, high-performance, stable, and multifunctional electrocatalysts
for multidisciplinary applications of photovoltaics, water splitting, Zn-air batteries, supercapacitors, and other
advanced technologies.

 

Honors and awards

He has an impressive academic and research background, having secured a series of fellowships and scholarships in Taiwan. Beginning with a full Ph.D. fellowship funded by the Ministry of Education (MoE) and the Department of Chemical Engineering at the National Taiwan University of Science & Technology (NTUST) from September 2018 to August 2021, he demonstrated commitment and excellence in his doctoral studies. Following this, he embarked on a succession of National Science and Technology Council (NSTC) Postdoctoral Research Fellowships, spanning from August 2021 to July 2024.

These prestigious fellowships, awarded annually, reflect the recognition of his research contributions and potential in the field. This trajectory highlights his dedication to advancing scientific knowledge and positions him as a promising researcher in the domain of materials science and engineering.

WORKSHOPS/CONFERENCE •

He has actively participated in and contributed to various academic and professional events, showcasing a diverse range of interests and engagements. In February 2018, he attended the International Conference on Advances in Chemical Sciences (IC-ACS 2018), hosted by the Department of Chemistry at Shivaji University, Kolhapur, MS, India. Additionally, he participated in a one-day workshop on “Hands-on Training Programme on GC/MS” organized by USIC (CFC), Shivaji University, Kolhapur, in collaboration with Toshvin Analytical Ltd. Mumbai in November 2017. Earlier, in September 2017, he engaged with the National Conference of Recent Trends in Nanomaterials (NCRTN), organized by the Department of Nanoscience and Technology at Yashawantrao Chavan (Y.C.) Institute of Science in Satara, MS, India.

His involvement in workshops and conferences extends beyond his academic focus, as seen in his participation in a district conference organized by UDAN 2016 and a workshop on “Awareness Programme on Biodiversity Conservation” funded by the Ministry of Environment and Forests (MoEF) of New Delhi, India, in September 2016 and 2010, respectively. These diverse experiences reflect his interdisciplinary approach and a commitment to staying abreast of the latest developments in various fields.

ACADEMIC & INDUSTRIAL EXPERIENCE

During the period spanning from July 2017 to September 2018, he served as a Contributory Teacher in Applied Chemistry at the Department of Applied Chemistry, Shivaji University, Kolhapur, MS, India. His teaching responsibilities included delivering the course titled “Quantum Dots (QDs) for Nanotechnology” to M.Sc. students. In this capacity, he not only imparted theoretical knowledge but also conducted practical sessions, overseeing activities such as spectrophotometric determination of Fe in water samples using the standard addition method. Additionally, he guided students in the analysis of biological oxygen demand (BOD) and dissolved oxygen (DO) in wastewater samples.

Prior to these roles, from December 2016 to May 2017, he served as a Lecturer in Chemistry at the Department of General Science, Shivaji Polytechnic, Atpadi, MS, India. In this role, he taught the course “Quantum Dots (QDs) for Nanotechnology” to diploma students and oversaw inorganic practical sessions involving colorimetric analysis, spectrophotometry, nephelometry, and fluorimetry. 🎓🔬 These diverse teaching experiences showcase his commitment to education across different academic levels and his expertise in both theoretical and practical aspects of chemistry.

RESEARCH EXPERIENCE

Since August 2022, he has been serving as a Postdoctoral Research Associate in the Department of Chemical Engineering at National Taiwan University (NTU), Taiwan, under the guidance of Project Investigator Prof. Wen-Yueh Yu. As a key member of the catalyst and surface chemistry laboratory (CSC), he is actively engaged in the synthesis of high-energy-density catalysts designed for applications in the oxygen evolution reaction (OER) and urea oxidation reaction (UOR). Notably, .

His prior experience includes a Postdoctoral Researcher position from August 2021 to July 2022 at the Department of Chemical Engineering at the National Taiwan University of Science and Technology (NTUST), Taiwan, working under the supervision of Prof. Jia-Yaw Chang. As a part of the nano-chemistry laboratory, he played a pivotal role in synthesizing solution-processed, aqueous, and environmentally friendly carbon quantum dots (CQDs) and perovskite quantum dots (PQDs) using a facile microwave synthesis process. 🌐✨

Published

1. Akash S. Rasal, Meng-Hsun Wu, Girum Gatechew, Anil A. Kashale, I-Wen Peter Chen, Jia-Yaw Chang, DefectActivated Ternary Carbon Alloy: A Multifunctional Electrocatalyst for Efficient Oxidation of Water, Urea,
ORR, and Zinc-Air Batteries (Journal of Energy Storage, I.F. = 9.4) doi.org/10.1016/j.est.2023.108186

2. Akash S. Rasal, Hao-Ming Chen, Wen-Yueh Yu, Electronic Structure Engineering of Electrocatalyst for
Efficient Urea Oxidation Reaction (Accepted in Nano Energy, I.F. = 19.069)

3. Akash S. Rasal, Meng-Hsun Wu, Anil V. Ghule, Girum Gatechew, Anil A. Kashale, I-Wen Peter Chen, Jia-Yaw
Chang, Advancing the Stability and Efficiency of Quantum Dot-Sensitized Solar Cells Through a Novel,
Green, and Water-based Thixotropic Biopolymer/Ordered Mesoporous Silica Designed Quasi-Solid-State
Gel Electrolytes (Chemical Engineering Journal, I.F. = 16.744) doi.org/10.1016/j.cej.2022.137293

4. Akash S. Rasal, Ting-Ying Lee, Pei-Yun Kao, Girum Getachew, Aswandi Wibrianto, Worku Batu Dirersa, A. V.
Ghule, Jia-Yaw Chang, Composition, Morphology, and Interface Engineering of 3D Cauliflower like Porous
Carbon Wrapped Metal Chalcogenides as Advanced Electrocatalyst for Quantum Dot-Sensitized Solar Cells
(Nano-Micro Small, I.F. = 15.153) doi.org/10.1002/smll.202202133

5. Akash S. Rasal, Sudesh Yadav, Anil A Kashale, Ali Altaee, Jia-Yaw Chang, Stability of Quantum Dot-Sensitized
Solar Cells: A Review and Prospects (Nano Energy, I.F. = 19.069) doi.org/10.1016/j.nanoen.2021.106854

6. Akash S. Rasal, Ting-Wei Chang, C. Korupalli, Jia-Yaw Chang, Composition Engineered Ternary Copper
Chalcogenide Alloyed Counter Electrodes for High-Performance and Stable Quantum Dot-Sensitized Solar
Cells (Composite part B: Engineering, I.F. = 13.1) doi.org/10.1016/j.compositesb.2021.109610