Abdumutolib Atakhanov | Novel Acryloylated | Best Researcher Award

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Prof. Abdumutolib Atakhanov | Novel Acryloylated | Best Researcher Award

Director at ,Institute of Polymer Chemistry and Physics, Uzbekistan

Director of the Institute of Polymer Chemistry and Physics since 2024, this professor has over two decades of experience in polymer chemistry research. Their leadership roles include managing key projects and laboratories in nanomaterials, biopolymers, and macromolecular systems. They’ve been instrumental in advancing both fundamental and applied research in Uzbekistan and internationally. An active member of the International Union of Pure and Applied Chemistry (IUPAC), they’ve contributed to multiple international conferences and collaborations, driving innovations in polymer science. Their work bridges scientific inquiry with industrial applications, from nanofibers to biodegradable films.

Publication Profile

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Education 🎓📚

Bachelor’s degree in chemistry from Tashkent State University (1996-1999), followed by a Master’s in macromolecular chemistry from the National University of Uzbekistan (2000-2001). Ph.D. from the Institute of Polymer Chemistry and Physics (2006), Doctor of Sciences (2016), and full professorship (2022). With extensive training in Uzbekistan and collaborative research travel to Reading University (UK) and A.V.Topchiev Institute (Russia), they’ve built a robust academic foundation that spans over two decades of polymer research.

Professional Experience

Current Director of the Institute of Polymer Chemistry and Physics (2024-present). Held leadership roles as Head of Laboratory (2018-2024), Scientific Secretary (2013-2017), and Project Manager since 2010. Began as a junior researcher and doctoral student (2001-2008), progressing into senior roles where they managed high-profile projects related to nanofibers, biodegradable films, and nanocellulose. Their expertise in polymer chemistry has positioned them as a leader in both academic and applied research, fostering innovation in Uzbekistan’s scientific community. 🧑‍🔬👩‍💼

Awards and Honors

Recipient of numerous accolades for contributions to polymer science, they’ve led successful national and international collaborations, earning recognition for pioneering biodegradable materials and nanofiber technologies. They are a regular invited speaker at international symposiums, sharing insights on biodegradable composites, nanocellulose, and polymer nanostructures. Editorial board member of Uzbekistan Journal of Polymers and Thematic Journal of Chemistry, their impact in the field is celebrated by peers worldwide. 🏅🌟

Research Focus 🔬

Specializes in the fundamental and applied aspects of polymer chemistry, particularly nanofibers, biodegradable materials, and nanocellulose. Their projects include hydrogen and photocurrent generation using conductive biopolymers, microcrystalline cellulose production, and biodegradable film technologies. They’ve explored the relationship between polymer structure and function, contributing valuable knowledge on nanocomposites and biopolymers. Their work bridges theoretical research and practical industrial applications, driving sustainable solutions in polymer science.

Publication  Top Notes

  • Physicochemical properties and antimicrobial activity of nanocomposite films based on carboxymethylcellulose and silver nanoparticles
    Kh.E. Yunusov, A.A. Sarymsakov, J.Z. Jalilov, A.A. Atakhanov
    Polymers for Advanced Technologies, 19, 2021.
  • Physicochemical studies of cotton cellulose and its derivatives containing silver nanoparticles
    K.E. Yunusov, A.A. Atakhanov, N.S. Ashurov, A.A. Sarymsakov, S.S. Rashidova
    Chemistry of Natural Compounds, 47, 415-418, 2011.
  • Isolation of nanocellulose from cotton cellulose and computer modeling of its structure
    A. Atakhanov, I. Turdikulov, B. Mamadiyorov, N. Abdullaeva, I. Nurgaliev, …
    Open Journal of Polymer Chemistry, 9(04), 117-129, 2019.
  • Comparative study of the physicochemical properties and structure of cotton cellulose and its modified forms
    A.A. Atakhanov, B. Mamadierov, M. Kuzieva, S.M. Yugai
    Chemistry of Vegetable Raw Materials, 3, 5-13, 2019.
  • Cotton cellulose, microcrystalline cellulose and nanocellulose: carboxymethylation and oxidation reaction activity
    S. Yuldoshov, A. Atakhanov, S. Rashidova
    Nano Sci. Nano Technol, 10(6), 106, 2016.
  • Preparation of oxidized nanocellulose by using potassium dichromate
    K. Makhliyo, A. Abdumutolib, S. Sirojiddin, A. Nurbek, Y. Khaydar, G. Jiang
    Cellulose, 30(9), 5657-5668, 2023.
  • Comparative studies of the sorption properties and capillary-porous structure of cellulose, microcrystalline cellulose, and nanocellulose
    A.A. Atakhanov, M.Y. Yunusov, A.A. Sarymsakov, S.S. Rashidova
    Chemistry of Vegetable Raw Materials, 45-48, 2012.
  • Physicochemical studies of the structure of chitosan and chitosan ascorbate nanoparticles
    N.S. Ashurov, S.M. Yugai, S.S. Shakhobutdinov, A.S. Kulumbetov, …
    Russian Chemical Bulletin, 71(2), 227-231, 2022.
  • Silver nanoparticles were formed on the polymer matrices and their bactericidal properties
    Y. Kh.E., A.A. Atakhanov, A.A. Sarymsakov, R. S.Sh, K.V. Lobanova
    Pharmaceutical Journal, 1, 55-59, 2010.
  • Obtaining and studying properties of biodegradable composite films based on polyethylene
    I.H. Turdikulov, B.N. Mamadiyorov, M.Q. Saidmuhammedova, A.A. Atakhanov
    Open Journal of Chemistry, 6(1), 030-036, 2020.
  • Rheological behavior of nanocellulose aqueous suspensions
    A.A. Atakhanov, A.A. Kholmuminov, B.N. Mamadierov, I.K. Turdikulov, …
    Polymer Science, Series A, 62, 213-217, 2020.
  • New low-silicate stabilizing systems for peroxide bleaching of cotton fibers
    A.A. Atakhanov, A.D. Tikhonovetskaya, D.S. Nabiyev, S.S. Rashidova
    Chemistry of Vegetable Raw Materials, 5-9, 2004.
  • Structure and thermal properties of chitin and chitosan from various sources
    N.S. Ashurov, M. Abdurazakov, S.M. Yugay, A.A. Atakhanov, K.A. Gulamjanov, …
    Journal of Physics: Conference Series, 2388(1), 012011, 2022.
  • Thermal and mechanical properties of polymer composites reinforced by sulfuric acid-hydrolyzed and tempo-oxidized nanocellulose: a comparative study
    M.I. Voronova, O.V. Surov, M.M. Kuziyeva, A.A. Atakhanov
    Izvestiya Vysших Uchebnykh Zavedeniy. Seriya “Khimiya i Khimicheskaya Tekhnologiya”, 4, 2022.
  • Biomedical polymers and perspectives of their creation
    A.A. Sarymsakov, Y. Kh.E., A.A. Atakhanov, R. S.Sh
    Pharmaceutical Journal, 3, 29-37, 2011.
  • Possibility of obtaining cotton cellulose by combined cooking and bleaching
    A.A. Atakhanov, A.D. Tikhonovetskaya, D.S. Nabiyev, S.S. Rashidova
    Chemistry of Vegetable Raw Materials, 23-26, 2004.
  • Sodium-Carboxymethylcellulose/Polyphenol-Gossypol-Carboxymethylcellulose Copolymer Films for Ocular Drug Delivery: Preparation and Physico-Chemical Properties
    S.S. Yunusov Kh., Sarymsakov A., Shukurov A., Todjiyev J., Atakhanov A., Guohua J.
    Asian Journal of Chemistry, 34(12), 3085-3092, 2022.
  • Comparative studies of the physicochemical properties and structure of cotton cellulose and its modified forms
    A.A. Atakhanov, B. Mamadiyorov, M. Kuzieva, S.M. Yugai, S. Shakhobutdinov, …
    Chemistry of Vegetable Raw Materials, 5-13, 2019.
  • Biodegradable Polyethylene-Based Composites Filled with Cellulose Micro-and Nanoparticles
    M.Q. Saidmuhammedova, I.H. Turdikulov, A.A. Atakhanov, N.S. Ashurov, …
    Eurasian Journal of Chemistry, 28(2 (110)), 2023.
  • Founders: Ivanovo State Chemical Technology University
    A.E. Ponomareva, V.V. Pantelieva, A.B. Shein
    Izvestiya Vysших Uchebnykh Zavedeniy, 65(3), 52-59, 2022.

Conclusion

The candidate is a strong contender for the Best Researcher Award due to their extensive educational background, leadership in significant research projects, and active participation in the scientific community. Their work in developing innovative materials aligns well with current global challenges, particularly in sustainability. While there are opportunities for improvement in publication output and collaboration, their strengths far outweigh these areas. Awarding them this recognition would not only honor their contributions but also inspire further advancements in polymer chemistry and materials science.

Prof João Abrantes | Solid State Ionics | Best Researcher Award

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Prof João Abrantes | Solid State Ionics
| Best Researcher Award

Prof João Abrantes, Instituto Politécnico de Viana do Castelo, Portugal

Prof João Abrantes is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

 

Professional Profiles:

Google scholar

Academic Training 📚

The academic journey began at the University of Aveiro, where a degree in Ceramic and Glass Engineering was earned in 1988. This was followed by a master’s degree in Materials Engineering in 1992, and a Ph.D. in Materials Science and Engineering in 2001. Recently, in 2021, the title of Habilitation in Materials Science and Engineering was also obtained from the same university.

Professional Career 🏢

The professional career commenced in 1991 at the Polytechnic Institute of Viana do Castelo (IPVC) as an Assistant Professor, progressing to Auxiliary Professor in 1993 and Associate Professor in 2018. Throughout this career, several undergraduate and master courses were created, including a master in Mechanical, Energy, and Materials Engineering, approved by the national agency and set to begin in the upcoming academic year.As a group leader, significant contributions include the creation of the internal IPVC research unit, UIDM, in 2005, and its directorship until 2021. Additionally, in 2018, a strong collaboration with other IPVC groups led to the establishment of proMetheus – Research Unit in Materials, Energy, and Environment for Sustainability, where the role of Director and President of the Scientific Council was assumed.

Academic Management 🏫

Significant roles in academic management have been undertaken, such as being a member of the General Council of IPVC since its inception in 1995 until 2020, President of the General Assembly, department head, disciplinary group head, scientific area head, and a member of the scientific council for several years.

Scientific Activity 🔬

Research focuses on developing electroceramic materials for solid-state electrochemistry systems, such as solid oxide fuel cells (SOFC). This includes optimizing oxygen ion-conducting electrolytic materials and mixed ionic electronic materials (MIEC) for SOFC electrodes. The expertise in ceramic engineering facilitated the development of new cellular ceramics with phase change materials (PCM) for thermal energy storage systems.

Experimental Skills and Methodologies 🧪

The development of experimental methodologies and software tools for data acquisition is a notable achievement, including advanced electrochemical measurement techniques like impedance spectroscopy. These methods and tools have been recognized and adopted by various laboratories, including those at the University of Aveiro, University of Málaga, University of La Laguna, and Instituto de Cerámica y Vidrio CSIC.

Scientific Publications and Discoveries 📑

Almost a hundred articles have been published in scientific journals, along with over one hundred communications at international conferences. Key discoveries include:Non-stoichiometry of LaMnO3 perovskite promoting stability and conductivity, enhancing SOFC electrode performance.Controlled porosity in niobium-doped strontium titanate optimizing resistive oxygen sensors.Modeling of heat or cold discharge from encapsulated PCM aiding in device sizing.

Electrochemical Impedance Spectroscopy (EIS) 📊

The use of EIS in characterizing transport properties of MIEC materials has led to:Publications discussing EIS spectra representations.Proposing a new graphic representation of EIS spectra enhancing low-frequency effects.Studies on pyrochlore materials as solid electrolytes.EIS application in monitoring concrete corrosion and predicting ceramic material properties.

X-ray Diffraction (XRD) Expertise 📈

Specialization in XRD, particularly through Rietveld refinements, opened new research lines and collaborations, such as:Biomaterials based on hydroxyapatite.Hydration of recycled cement.Synthesis of struvite from cattle slurry and sewage sludge for use as fertilizer.

📖 Publications Top Note :

Electrochemical Impedance Spectroscopy (EIS) in Corrosion Monitoring 🧪

Application of electrochemical impedance spectroscopy (EIS) to monitor the corrosion of reinforced concrete: A new approach

DV Ribeiro, JCC Abrantes

Journal: Construction and Building Materials 111, 98-104 (2016)

Citations: 315

Use of Electrochemical Impedance Spectroscopy (EIS) to monitoring the corrosion of reinforced concrete

DV Ribeiro, CAC Souza, JCC Abrantes

Journal: Revista IBRACON de Estruturas e Materiais 8, 529-546 (2015)

Citations: 155

2. Electronic Transport in Electrolytes and Ceramics 🔋

The effect of cobalt oxide sintering aid on electronic transport in Ce0.80Gd0.20O2−δ electrolyte

DP Fagg, JCC Abrantes, D Pérez-Coll, P Nunez, VV Kharton, JR Frade

Journal: Electrochimica Acta 48 (8), 1023-1029 (2003)

Citations: 153

Applicability of the brick layer model to describe the grain boundary properties of strontium titanate ceramics

JCC Abrantes, JA Labrincha, JR Frade

Journal: Journal of the European Ceramic Society 20 (10), 1603-1609 (2000)

Citations: 112

Conductivity of CGO and CSO ceramics obtained from freeze-dried precursors

D Pérez-Coll, P Núñez, JR Frade, JCC Abrantes

Journal: Electrochimica Acta 48 (11), 1551-1557 (2003)

Citations: 98

3. Materials for Regenerative Medicine and Biocompatibility 🦴

Effects of Mn-doping on the structure and biological properties of β-tricalcium phosphate

SI Vieira, AR Cerqueira, S Pina, OAB da Cruz Silva, JCC Abrantes, …

Journal: Journal of Inorganic Biochemistry 136, 57-66 (2014)

Citations: 96

Biocompatibility and antimicrobial activity of biphasic calcium phosphate powders doped with metal ions for regenerative medicine

CF Marques, S Olhero, JCC Abrantes, A Marote, S Ferreira, SI Vieira, …

Journal: Ceramics International 43 (17), 15719-15728 (2017)

Citations: 80

4. Advanced Ceramic and Electrolyte Materials 🏺

Effects of firing conditions and addition of Co on bulk and grain boundary properties of CGO

D Pérez-Coll, P Núñez, JCC Abrantes, DP Fagg, VV Kharton, JR Frade

Journal: Solid State Ionics 176 (37-38), 2799-2805 (2005)

Citations: 84

Electronic transport in Ce0.8Sm0.2O1.9−δ ceramics under reducing conditions

JCC Abrantes, D Pérez-Coll, P Nunez, JR Frade

Journal: Electrochimica Acta 48 (19), 2761-2766 (2003)

Citations: 68

Ionic and electronic conductivity of Yb2+xTi2−xO7−x/2 materials

JCC Abrantes, A Levchenko, AV Shlyakhtina, LG Shcherbakova, …

Journal: Solid State Ionics 177 (19-25), 1785-1788 (2006)

Citations: 67

Synthesis and characterization of La2Mo2O9 obtained from freeze-dried precursors

D Marrero-López, JC Ruiz-Morales, P Nunez, JCC Abrantes, JR Frade

Journal: Journal of Solid State Chemistry 177 (7), 2378-2386 (2004)

Citations: 62

Stability and transport properties of La2Mo2O9

D Marrero-López, JC Ruiz-Morales, D Perez-Coll, P Núñez, …

Journal: Journal of Solid State Electrochemistry 8, 638-643 (2004)

Citations: 49

Synthesis and electrical transport properties of Lu2+xTi2−xO7−x/2 oxide-ion conductors

AV Shlyakhtina, JCC Abrantes, AV Levchenko, AV Knot’ko, OK Karyagina, …

Journal: Solid State Ionics 177 (13-14), 1149-1155 (2006)

Citations: 46

5. Sustainable and Circular Economy 🌍

Policy narratives of circular economy in the EU–Assessing the embeddedness of water and land in national action plans

T Fidélis, AS Cardoso, F Riazi, AC Miranda, J Abrantes, F Teles, …

Journal: Journal of Cleaner Production 288, 125685 (2021)

Citations: 45