Ms. NTUMBA LOBO | Physical Chemistry | Best Researcher Award

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Ms. NTUMBA LOBO | Physical Chemistry | Best Researcher Award

Ms. NTUMBA LOBO | Physical Chemistry | PhD student at NAGOYA INSTITUTE OF TECHNOLOGY, Japan

Ntumba Lobo, a Congolese researcher, is a Ph.D. student and research assistant at Nagoya Institute of Technology, Japan. She specializes in semiconductor materials, focusing on carrier recombination effects in perovskites. She holds a Master’s degree from Shibaura Institute of Technology, Japan, in hydrogen storage materials, and an M.Sc. in Nuclear Physics from Addis Ababa University, Ethiopia. With experience in international collaborations, she was an exchange researcher at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany. Ntumba has participated in several scientific conferences and published extensively in high-impact journals. She has also held teaching and research positions, including at the University of Kinshasa and the Centre Régional de Recherche Nucléaire de Kinshasa. Her work contributes significantly to materials science and renewable energy applications.

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Summary of Suitability for Award:

Ntumba Lobo is an exceptional researcher with a strong multidisciplinary background in semiconductor materials, energy storage, and nuclear physics. Her Ph.D. research at Nagoya Institute of Technology, Japan, focuses on metal halide perovskites, lithium tantalate, and carrier dynamics, contributing significantly to the development of advanced semiconductor materials. She has demonstrated excellence in research through multiple international collaborations, including an exchange program at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany. Her expertise in material characterization techniques such as Time-Resolved Photoluminescence (TRPL), Scanning Electron Microscopy (SEM), and X-ray Diffraction (XRD) has led to high-impact publications and conference presentations. Ntumba Lobo’s extensive research contributions, global collaborations, and expertise in semiconductor and energy materials make her a strong candidate for the “Best Researcher Award.” Her work is not only innovative but also has a significant impact on the future of optoelectronic devices and sustainable energy solutions. Her dedication to scientific excellence, combined with her ability to work across disciplines, positions her as a deserving recipient of this prestigious recognition.

🎓Education:

Ntumba Lobo is currently pursuing a Ph.D. in Science and Engineering at Nagoya Institute of Technology, Japan, specializing in semiconductor materials (expected completion in September 2025). She was an exchange student at i-MEET, Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany, in 2022, where she worked on single and polycrystal semiconductor materials. She obtained a Master’s degree in Science and Engineering from Shibaura Institute of Technology, Japan (2018-2020), focusing on energy storage materials. Before that, she completed an M.Sc. in Nuclear Physics from Addis Ababa University, Ethiopia (2014-2016), with a dissertation on nuclear fusion reactions. Her academic journey began with a B.Sc. (Honors) in Physics from the University of Kinshasa, Democratic Republic of the Congo (2012), where she contributed to non-destructive characterization of reinforced concrete using ultrasound methods. Her diverse educational background in physics, material science, and engineering has equipped her with expertise in semiconductor research and energy materials.

🏢Work Experience:

Ntumba Lobo has extensive experience in research and teaching. Since 2020, she has been a Research Assistant at Nagoya Institute of Technology, working on semiconductor materials and device characterization. She has completed multiple internships, including at OSM Group Co., Ltd. (Japan, 2019) and For Delight Co. Ltd. (Japan, 2018), where she gained industry exposure. Her research career started with an internship at the Centre Régional de Recherche Nucléaire de Kinshasa (2016-2017) in nuclear physics. She also worked as a Teaching Assistant at the University of Kinshasa (2013-2014) and taught physics, scientific drawing, and technology at Liziba High School (2012-2013). Her hands-on expertise in material characterization techniques, including Scanning Electron Microscopy (SEM), X-ray Diffraction (XRD), and photoconductivity measurements, has contributed to multiple high-impact publications. Her professional experience spans academic, industrial, and research institutions, making her a well-rounded scientist in semiconductor and energy materials.

🏅Awards: 

Ntumba Lobo has been recognized for her contributions to material science and semiconductor research. She received funding for an exchange research program at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany (2022), where she worked on advanced semiconductor materials. Her research on energy storage materials during her Master’s at Shibaura Institute of Technology was highly appreciated. She has presented her work at prestigious conferences, including the 16th International Symposium on Metal-Hydrogen Systems (China, 2018) and the Solid-State Devices and Materials Conference (Japan, 2023). She also participated in specialized training programs such as the Summer School on Space Weather in Kinshasa (2011) and Advanced Python Programming and Geographic Information Systems training in Addis Ababa (2016). Her continuous engagement in international research collaborations and conferences showcases her commitment to scientific advancement.

🔬Research Focus:

Ntumba Lobo’s research focuses on semiconductor materials, particularly metal halide perovskites and their carrier dynamics. She investigates surface recombination, carrier lifetime, and trapping effects in single and polycrystalline materials using techniques like Microwave Photoconductivity Decay (µPCD) and Time-Resolved Photoluminescence (TRPL). Her work extends to lithium tantalate and its photoconductance properties. She has also contributed to the field of hydrogen storage materials, analyzing the effects of TiO₂, Nb₂O₅, and TiH₂ catalysts on magnesium hydride. Additionally, her expertise in nuclear physics has allowed her to explore neutron-induced reactions and fusion mechanisms. By integrating her knowledge in physics, materials science, and engineering, she aims to develop efficient, stable, and high-performance materials for energy storage and semiconductor applications. Her research is pivotal in advancing next-generation optoelectronic devices and sustainable energy solutions.

Publication Top Notes:

Stability investigation of the γ-MgH₂ phase synthesized by high-energy ball milling

Citations: 27

Stable quasi-solid-state zinc-ion battery based on the hydrated vanadium oxide cathode and polyacrylamide-organohydrogel electrolyte

Citations: 13

Trapping effects and surface/interface recombination of carrier recombination in single- or poly-crystalline metal halide perovskites

Citations: 9

Study of ²⁰Ne Induced Reaction in ⁵⁹Co: Incomplete and Complete Fusion

Citations: 3

Effect of TiO₂ + Nb₂O₅ + TiH₂ Catalysts on Hydrogen Storage Properties of Magnesium Hydride

Citations: 2

La Super Symétrie en Physique Quantique

Citations: 1

Mitigation of carrier trapping effects on carrier lifetime measurements with continuous-wave laser illumination for Pb-based metal halide perovskite materials

Transport and business improvement in the province of South-Ubangi (Democratic Republic of the Congo)

 

Amanpreet Kaur | Inorganic Chemistry | Best Researcher Award

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Assist Prof Dr. Amanpreet Kaur Inorganic Chemistry| Best Researcher Award

Assistant Professor at Guru Nanak Dev University, Amritsar, Punjab, India

Dr. Amanpreet Kaur is an accomplished Assistant Professor in the Department of Chemistry at Guru Nanak Dev University, Amritsar, specializing in Inorganic Chemistry and its applications in electrochemical energy. With extensive research experience across several prestigious institutions globally, Dr. Kaur has made significant contributions to the fields of electrocataysis and energy storage.

Author Metrics

Google Scholar Profile

ORCID Profile

Dr. Kaur’s research impact is evidenced by her Google Scholar profile, which lists a total of 928 citations, an h-index of 17, and an i10-index of 29. These metrics highlight her active engagement and influence within the academic community, reflecting the relevance and quality of her research contributions.

Education

Dr. Kaur completed her Bachelor’s degree in Medical Science from Panjab University in 2008, followed by a Master’s degree in Chemistry from Guru Nanak Dev University in 2010. She achieved her Ph.D. in Chemistry from the same institution in 2016, showcasing a strong foundational knowledge that supports her current research endeavors.

Research Focus

Her research interests encompass a wide array of topics including Metal-Organic Frameworks (MOFs), polyoxometalates, and electro/photoelectrocatalysis. Dr. Kaur is particularly focused on developing sustainable energy solutions through electrochemical energy storage and the electrocatalytic conversion of biowaste into valuable chemicals and biofuels.

Professional Journey

Dr. Kaur’s professional trajectory includes prestigious postdoctoral and visiting research positions at notable institutions, such as the Technion in Israel and the Indian Institute of Technology, Delhi. Her current role as an Assistant Professor began in April 2023, marking a significant milestone in her academic career.

Honors & Awards

Dr. Kaur has received several accolades, including a Gold Medal for her academic excellence in her Master’s program and multiple international travel grants from the Department of Science and Technology (DST), India. Her recognition as a lifetime member of the Chemical Research Society of India further underscores her commitment to her field.

Publications Noted & Contributions

Dr. Kaur has contributed to various journals and has authored book chapters, including significant works on nanocomposites and electrocatalysts. Her publications demonstrate her research’s practical implications, particularly in environmental and biomedical applications.

Dual Channel Rhodamine Appended Smart Probe for Selective Recognition of Cu²⁺ and Hg²⁺ via “Turn On” Optical Readout

Publication: Analytica Chimica Acta
Date: July 2023
DOI: 10.1016/j.aca.2023.341299
Contributors: Pawan Kumar Sada, Amit Bar, Amanpreet Kaur Jassal, Alok Kumar Singh, Laxman Singh, Abhishek Rai
Overview: This article presents a smart probe designed for the selective detection of copper (Cu²⁺) and mercury (Hg²⁺) ions using a “turn on” optical readout. The research emphasizes the development of a dual-channel sensor that enhances sensitivity and specificity for these heavy metals, which are of significant environmental and health concern.

A Rational Assembly of Paradodecatungstate Anions from Clusters to Morphology-Controlled Nanomaterials

Publication: Materials Chemistry Frontiers
Date: 2021
DOI: 10.1039/D0QM00646G
Contributors: Amanpreet Kaur Jassal, Rahul Kumar Mudsainiyan, Ravi Shankar
Overview: This study focuses on the synthesis and characterization of nanomaterials derived from paradodecatungstate anions. The work highlights the rational design of these nanomaterials and their potential applications in materials science, particularly in enhancing functionality through controlled morphology.

Advances in Ligand-Unsupported Argentophilic Interactions in Crystal Engineering: An Emerging Platform for Supramolecular Architectures

Publication: Inorganic Chemistry Frontiers
Date: 2020
DOI: 10.1039/D0QI00447B
Contributors: Amanpreet Kaur Jassal
Overview: This article reviews the developments in ligand-unsupported argentophilic interactions and their implications in crystal engineering. Dr. Kaur discusses how these interactions can be leveraged to create novel supramolecular architectures, expanding the possibilities in material design.

Magnetic, Luminescence, Topological and Theoretical Studies of Structurally Diverse Supramolecular Lanthanide Coordination Polymers with Flexible Glutaric Acid as a Linker

Publication: New Journal of Chemistry
Date: 2019
DOI: 10.1039/C9NJ03664D
Contributors: Manesh Kumar, Cheng-Qiang Qiu, Jan K. Zaręba, Antonio Frontera, Amanpreet Kaur Jassal, Subash Chandra Sahoo, Sui-Jun Liu, Haq Nawaz Sheikh
Overview: This paper investigates the structural diversity of lanthanide coordination polymers linked by glutaric acid. The research includes magnetic and luminescent properties, along with theoretical studies that provide insights into the coordination chemistry of lanthanides, paving the way for potential applications in advanced materials.

Indirect Influence of Alkyl Substituent on Sigma-Hole Interactions: The Case Study of Antimony(III) Diphenyldithiophosphates with Covalent Sb-S and Non-Covalent Sb⋯S Pnictogen Bonds

Publication: Polyhedron
Date: November 2019
DOI: 10.1016/j.poly.2019.114126
Contributors: Anu Radha, Sandeep Kumar, Deepika Sharma, Amanpreet K. Jassal, Jan K. Zaręba, Antonio Franconetti, Antonio Frontera, Puneet Sood, Sushil K. Pandey
Overview: This research explores the influence of alkyl substituents on sigma-hole interactions in antimony(III) compounds. It highlights the significance of both covalent and non-covalent interactions, contributing to a better understanding of bonding in coordination chemistry and its implications for material properties.

Research Timeline

Dr. Kaur’s research timeline is marked by key projects funded by the DST, focusing on the synthesis and application of coordination compounds and the development of catalysts for water oxidation. Her ongoing projects further explore single-atom catalysts for efficient electrocatalytic water splitting.

Conclusion

In summary, Dr. Amanpreet Kaur is a distinguished chemist whose academic and research contributions are shaping the future of inorganic chemistry and sustainable energy applications. Her commitment to teaching, research, and mentorship continues to inspire future generations of scientists.