Liudmila Alexandrova | Biology and Life Sciences | Research Excellence Award

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Dr. Liudmila Alexandrova | Biology and Life Sciences | Research Excellence Award

EIMB RAS | Russia

Liudmila A. Alexandrova is a senior researcher at the Engelhardt Institute of Molecular Biology, Russian Academy of Sciences, with a distinguished career spanning several decades in molecular biology and medicinal chemistry. She received her education from Lomonosov Moscow State University and completed her postgraduate training at EIMB RAS. An Alexander von Humboldt Foundation, she has gained extensive international research experience through postdoctoral work in Czechoslovakia and Germany. Her scientific contributions include the design and synthesis of biologically active modified nucleosides and nucleotides, with a strong focus on antiviral, antibacterial, and antifungal drug mechanisms. She has authored more than 100 peer-reviewed publications and holds five Russian patents, reflecting a substantial body of documented research output.  She has successfully supervised four PhD dissertations and over 35 diploma theses, while currently mentoring postgraduate researchers. Recipient of two Russian Academy of Sciences awards, her work has significantly advanced the development of novel bacterial and fungal growth inhibitors, establishing her as a respected contributor to biomedical and chemical research with lasting scientific influence.

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The synthesis and antituberculosis activity of 5′-nor carbocyclic uracil derivatives
E. Matyugina, A. Khandazhinskaya, L. Chernousova, S. Andreevskaya, Bioorganic & Medicinal Chemistry, 20(22), 6680–6686, 2012. (Citations: 82)


Inhibition of Mycobacterium tuberculosis strains H37Rv and MDR MS-115 by a new set of C5 modified pyrimidine nucleosides
E.R. Shmalenyuk, L.N. Chernousova, I.L. Karpenko, S.N. Kochetkov, Bioorganic & Medicinal Chemistry, 21(17), 4874–4884, 2013. (Citations: 72)


2′-Deoxynucleoside 5′-triphosphates modified at α-, β- and γ-phosphates as substrates for DNA polymerases
L.A. Alexandrova, A.Y. Skoblov, M.V. Jasko, L.S. Victorova, A.A. Krayevsky, Nucleic Acids Research, 26(3), 778–786, 1998. (Citations: 68)


Oligonucleotide derivatives bearing reactive and stabilizing groups attached to C5 of deoxyuridine
A.S. Levina, D.R. Tabatadse, L.M. Khalimskaya, T.A. Prichodko, G.V. Shishkin, Bioconjugate Chemistry, 4(5), 319–325, 1993. (Citations: 49)


Colorimetric solid-phase minisequencing assay illustrated by detection of alpha 1-antitrypsin Z mutation
L. Harju, T. Weber, L. Alexandrova, M. Lukin, M. Ranki, A. Jalanko, Clinical Chemistry, 39(11), 2282–2287, 1993. (Citations: 47)

Jingyuan Zhao | Energy and Sustainability | Research Excellence Award

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Dr. Jingyuan Zhao | Energy and Sustainability | Research Excellence Award

University of California Davis | United States

Jingyuan (Andy) Zhao, Ph.D., is an Assistant Professional Researcher and independent principal investigator at the University of California, Davis, internationally recognized for pioneering work in AI-enabled battery and energy systems. His research integrates multiphysics and multiscale modeling with advanced artificial intelligence to address battery safety, diagnostics, prognostics, and system-level optimization for electrified transportation.  He has led or co-led major U.S. and international research projects supported by USDOT, Caltrans, CEC, CARB, and national science foundations in China, while also translating research into industrial impact through prior leadership roles in electric vehicle battery intelligence. His academic training spans mechanical and vehicle engineering, complemented by extensive postdoctoral research in the U.S. and China. Dr. Zhao has received numerous honors, including Elsevier–Stanford World’s Top 2% Scientist and ScholarGPS Top 0.5% Scholar distinctions. Through interdisciplinary scholarship, global collaboration, and mentorship, his work advances safe, intelligent, and scalable battery energy systems, bridging laboratory innovation with real-world deployment and shaping the future of sustainable mobility.

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Review on Supercapacitors: Technologies and Performance Evaluation
J. Zhao, A.F. Burke, Journal of Energy Chemistry, 59, 276–291, 2021. (Citations: 602)


Autonomous Driving System: A Comprehensive Survey
J. Zhao, W. Zhao, B. Deng, Z. Wang, F. Zhang, et al., Expert Systems with Applications, 242, 122836, 2024. (Citations: 330)


Electrochemical Capacitors: Materials, Technologies and Performance
J. Zhao, A.F. Burke, Energy Storage Materials, 36, 31–55, 2021. (Citations: 202)


Electrochemical Capacitors: Performance Metrics and Evaluation by Testing and Analysis
J. Zhao, A.F. Burke, Advanced Energy Materials, 11(1), 2002192, 2021. (Citations: 182)


Machine Learning for Predicting Battery Capacity for Electric Vehicles
J. Zhao, H. Ling, J. Liu, J. Wang, A.F. Burke, Y. Lian, eTransportation, 15, 100214, 2023. (Citations: 171)

Pınar Celen | Energy and Sustainability | Excellence in Research Award

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Assist. Prof. Dr. Pınar Celen | Energy and Sustainability | Excellence in Research Award

Gumushane University | Turkey

Dr. Pınar Celen is an Assistant Professor at Gümüşhane University whose academic work centers on energy systems, solar energy technologies, and carbon footprint assessment, with a strong emphasis on sustainable and efficient thermal systems. She earned her PhD (2019) and MSc (2013) in Mechanical Engineering from Yıldız Teknik University, following a BSc in Mechanical Engineering from Niğde University (2009). From 2011 to 2019, she served as a Research Assistant at Yıldız Teknik University, where she gained extensive experience in experimental and computational analysis of heat transfer and thermodynamic systems. Since 2019, she has continued her academic career at Gümüşhane University, contributing to teaching, research, and applied energy studies. Her research interests include energy system modeling, solar thermal applications, boiler and power plant performance analysis, drying technologies, and environmental impact evaluation through carbon footprint metrics. Her scholarly output is indexed in major academic databases and is reflected through measurable bibliometric indicators, including an h-index (not disclosed), a portfolio of peer-reviewed documents (count not disclosed), and accumulated citations (count not disclosed). Dr. Celen’s work supports both academic advancement and practical energy optimization, contributing to the transition toward cleaner and more efficient energy systems, and positioning her as a committed researcher in sustainable energy engineering.

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A Review of Flow Boiling in Mini and Microchannel for Enhanced Geometries
A. Çebi, A. Celen, A.H. Donmez, Y. Karakoyun, P. Celen, M. Salih, Journal of Thermal Engineering, 4(3), 2037–2074, 2018. (Citations: 42)


An Experimental Investigation of Single Lignite Particle Dried in Superheated Steam and Hot Air
P. Celen, H.H. Erdem, International Journal of Coal Preparation and Utilization, 41(12), 845–854, 2021. (Citations: 5)


A Case Study for Calculation of Boiler Efficiency by Using Indirect Method
P. Celen, H. Erdem, 3rd Conference on Advances in Mechanical Engineering (ICAME 2017), Istanbul, 2017. (Citations: 3)


Farklı Eğim Açılarında Güneş Kollektörlerinin Enerji ve Ekserji Analizi: Erzincan İli Örneği
M.Y. Kaba, A.K. Seyhan, P. Celen, A. Celen, Konya Journal of Engineering Sciences, 10(3), 634–648, 2022. (Citations: 2)


Enerji Dönüşüm Santrallarında Performansın Belirlenmesi ve Değerlendirilmesi Yöntemleri
P. Celen, MSc Thesis, Yıldız Teknik University, Institute of Science and Technology, 2013. (Citations: 2)

Maria Oliveri | Engineering and Technology | Excellence in Research Award

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Dr. Maria Oliveri | Engineering and Technology | Excellence in Research Award

Purdue University | United States

Maria Elena Oliveri, PhD, is a Research Associate Professor in the College of Engineering at Purdue University and an internationally recognized scholar in measurement, evaluation, and evidence-based assessment. She earned her PhD and multiple graduate degrees from the University of British Columbia, where she developed deep expertise in research methodology, educational measurement, and applied evaluation. Her academic and professional career spans leading research-intensive roles at Purdue University, the Buros Testing Center at the University of Nebraska–Lincoln, and Educational Testing Service, where she contributed to large-scale workforce, higher education, and K–12 assessment initiatives. Her scholarship focuses on competency modeling, assessment design and validation, learning analytics, and the alignment of education with emerging fields such as semiconductors, artificial intelligence, quantum technologies, and advanced communication systems. She has led and managed multimillion-dollar funded projects, authored and reviewed high-impact research outputs, and is widely recognized for translating complex assessment data into actionable insights for policy, curriculum, and workforce development.  She has received professional recognition for excellence in research leadership, assessment innovation, and service, and continues to shape the future of engineering education through interdisciplinary research, faculty development, and global partnerships.

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Investigation of Model Fit and Score Scale Comparability in International Assessments
M. E. Oliveri, M. von Davier. Psychological Test and Assessment Modeling, 53(3), 315, 2011. (Citations: 163)

Disrupting White Supremacy in Assessment: Toward a Justice-Oriented, Antiracist Validity Framework
J. Randall, D. Slomp, M. Poe, E. Oliveri. Twin Pandemics, pp. 78–86, 2023. (Citations: 139)

In Search of Validity Evidence in Support of the Interpretation and Use of Assessments of Complex Constructs
K. Ercikan, M. E. Oliveri. Applied Measurement in Education, 29(4), 310–318, 2016. (Citations: 107)

Toward Increasing Fairness in Score Scale Calibrations Employed in International Large-Scale Assessments
M. E. Oliveri, M. von Davier. International Journal of Testing, 14(1), 1–21, 2014. (Citations: 89)
A Literature Review on Collaborative Problem Solving for College and Workforce Readiness
M. E. Oliveri, R. Lawless, H. Molloy. ETS Research Report Series, 2017(1), 1–27, 2017. (Citations: 83)

Chetan Papade | Engineering and Technology | Outstanding Innovation Award

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Dr. Chetan Papade | Engineering and Technology | Outstanding Innovation Award

N.K.Orchid College of Engineering and Technology Solapur | India

Dr. Papade Chetan Vijaykumar is an Assistant Professor of Mechanical Engineering with over 17 years of combined academic, research, and limited industrial experience, specializing in solar energy systems and thermal sciences. He earned his Ph.D. in Mechanical Engineering from Savitribai Phule Pune University in 2024, an M.Tech. in Heat Power Engineering from Walchand College of Engineering, Sangli, and a B.E. in Mechanical Engineering. His teaching portfolio spans undergraduate and postgraduate courses including thermodynamics, fluid mechanics, refrigeration and air conditioning, computational fluid dynamics, renewable energy systems, and advanced solar technologies. Dr. Papade’s research interests encompass solar thermal systems, CFD, nano-mixed phase change materials, energy storage, refrigeration systems, and sustainable energy solutions.  His work has been recognized through multiple Best Faculty and Academic Excellence Awards, along with national-level teaching honors. He has successfully led several funded solar research projects, developed institutional research infrastructure, and holds multiple granted and filed patents in solar and IoT-based energy systems. Overall, Dr. Papade’s career demonstrates sustained contributions to engineering education, applied research, and renewable energy innovation.

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Kamal Reddad | Advanced Materials Engineering | Research Excellence Award

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Mr. Kamal Reddad | Advanced Materials Engineering | Research Excellence Award

Ibn Tofail University Kenitra | Morocco

Kamal Reddad is a doctoral researcher in computational materials science specializing in hydrogen storage materials for sustainable energy applications. He is currently pursuing a PhD at the National School of Applied Sciences (ENSA), Ibn Tofail University, with a strong academic background in physics, holding a master’s degree in matter and radiation and a bachelor’s degree in physics with a focus on energetics. His research centers on magnesium hydride (MgH₂), where he investigates hydrogen desorption mechanisms using density functional theory (DFT), predictive temperature programmed desorption (TPD) modeling, and kinetic Monte Carlo (KMC) simulations. His work emphasizes the role of transition-metal doping and vacancy defects in enhancing hydrogen release kinetics, contributing to multiscale frameworks that bridge atomistic insights with macroscopic behavior. He has authored several peer-reviewed journal articles in high-impact Q1 and Q2 journals and actively contributes to the scientific community as a peer reviewer.  In recognition of academic excellence, he received the UM5 Excellence Prize during his master’s studies. Overall, his research aims to advance first-principles-driven materials design for next-generation hydrogen storage technologies and clean energy systems.

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Enhancing Hydrogen Desorption in MgH2: A DFT Study on the Effects of Copper and Zinc Doping
K. Reddad, H. Labrim, D. Zejli, R. El Bouayadi.
International Journal of Hydrogen Energy, 2024, 87, 1474–1479. (Citations: 26)


Predictive Modeling of Temperature Programmed Desorption (TPD) in Magnesium Hydride MgH2
K. Reddad, H. Labrim, R. El Bouayadi.
Fuel, 2026, 403, 136152. (Citations: 5)


Vacancy Defects and Mo Doping Synergy in MgH2: A DFT Study on Hydrogen Desorption and Electronic Enhancement
K. Reddad, H. Labrim, R. El Bouayadi.
International Journal of Hydrogen Energy, 2025, 157, 150454. (Citations: 5)


Kinetic Monte Carlo Simulations of Hydrogen Desorption: The Influence of Rhodium in MgH2
K. Reddad, H. Labrim, R. El Bouayadi.
Bulletin of Materials Science, 2026, 49(1), 7. (Accepted)

Cai Xuan | Engineering and Technology | Research Excellence Award

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Mr. Cai Xuan | Engineering and Technology | Research Excellence Award

Beihang University | China

Cai Xuan is a doctoral researcher in transportation engineering with a strong background in mechanical engineering and a research focus on autonomous driving safety, intelligent testing, and AI-driven decision making. He is currently pursuing a PhD at Beihang University after completing his master’s and bachelor’s degrees in Mechanical Engineering at Hunan University. His research experience spans adversarial reinforcement learning, large language model–based scenario generation, energy management for hybrid vehicles, and safety-critical testing frameworks for autonomous vehicles. He has served as lead or co-author on multiple peer-reviewed publications in high-impact journals and top-tier conferences, including IEEE Transactions on Intelligent Vehicles, Energy, Automotive Innovation, and IEEE Intelligent Vehicles Symposium. His scholarly output has resulted in 7 published papers, an h-index of 3, and over 16citations, reflecting growing academic influence in intelligent transportation systems. His work has demonstrated significant improvements in robustness, vulnerability discovery, and real-time performance of autonomous and electrified vehicle systems. He is the recipient of multiple academic scholarships and competitive research awards at both undergraduate and graduate levels. Overall, his research contributes practical and theoretical advances toward safer, more reliable, and intelligent mobility systems.

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Koma: Knowledge-driven Multi-agent Framework for Autonomous Driving with Large Language Models
K. Jiang, X. Cai, Z. Cui, A. Li, Y. Ren, H. Yu, H. Yang, D. Fu, L. Wen, P. Cai.
IEEE Transactions on Intelligent Vehicles, 2024.


Adversarial Stress Test for Autonomous Vehicle via Series Reinforcement Learning Tasks with Reward Shaping
X. Cai, X. Bai, Z. Cui, P. Hang, H. Yu, Y. Ren.
IEEE Transactions on Intelligent Vehicles, 2024. (Citations: 15)


Text2Scenario: Text-driven Scenario Generation for Autonomous Driving Test
X. Cai, X. Bai, Z. Cui, D. Xie, D. Fu, H. Yu, Y. Ren.
Automotive Innovation, 2026, 1–26. (Citations: 14)

Biomimetic Multi-UAV Swarm Exploration with U2U Communications Under Resource Constraints
Y. Huang, H. Wang, X. Bai, X. Cai, H. Yu, Y. Ren.
IEEE Transactions on Vehicular Technology, 2025. (Citations: 5)

Mustafa Pehlivan | Gaziantep University | Excellence in Research Award

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Mr. Mustafa Pehlivan | Gaziantep University | Excellence in Research Award

Gaziantep University | Turkey

Mustafa Pehlivan is an Associate Professor of Botany with an academic background spanning undergraduate to doctoral training in Biology, completed at Çukurova University and Gaziantep University, with doctoral research focused on floristic composition and hemeroby analysis and master’s work on regional herbaceous flora. His academic experience includes long-term service as Doctor Faculty Member and Associate Professor at Gaziantep University, contributing to both biology and medicinal–aromatic plants programs. His research integrates botany, ethnobotany, plant ecology, phytochemistry, and experimental biology, with a strong emphasis on Lamiaceae species, bioactive plant extracts, green-synthesized nanoparticles, and their anticancer, antioxidant, apoptotic, and anti-inflammatory effects on cancer cell lines. He has supervised numerous completed and ongoing master’s and doctoral theses and has served as investigator or principal investigator in many nationally funded research projects, including TÜBİTAK and university-supported grants. His scholarly output is indexed in international databases, with documented publications, citations, and an established h-index reflecting sustained scientific impact. He has contributed to biodiversity inventories, traditional knowledge documentation, environmental contamination studies, and applied biomedical plant research. Overall, his work bridges classical botany with modern molecular and cellular approaches, supporting both biodiversity conservation and translational biomedical science.


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Featured Publications



In Vitro Evaluation of Anticancer Activity and Phenolic Compounds of Hypericum olympicum in Human Lung Cancer Cells
P. Yumrutaş, M. Korkmaz, M. Pehlivan, D. Taşdemir, Ö. Yumrutaş.
Brazilian Archives of Biology and Technology, 2025.


Roles on Antiproliferation, Apoptosis, Necrosis and Proinflammation of Micromeria fruticosa Essential Oil on Lung Cancer Cells
P. Yumrutaş, M. Korkmaz, M. Pehlivan, D. Taşdemir, Ö. Yumrutaş.
International Journal of Environmental Health Research, 2025.


Possible Induction of Apoptotic and Necrotic Death Pathways in Lung Cancer Cells by Clinopodium vulgare L.
Ö. Yumrutaş, M. Pehlivan, P. Yumrutaş, D. Kahraman.
Boletín Latinoamericano y del Caribe de Plantas Medicinales y Aromáticas, 2024.


Determination of Some Selected Heavy Metals in Wheat and Pepper Samples Collected from Gaziantep (Türkiye)
K. Mencik, M. Doğan, M. Pehlivan.
Comptes Rendus de l’Académie Bulgare des Sciences, 2023.


Sideritis Species in Challenging Against Cancer: Cytotoxic, Antiproliferative and Apoptotic Roles
Ö. Yumrutaş, M. Pehlivan, P. Yumrutaş.
Eurasian Journal of Biological and Chemical Sciences, 2023.

Mohammadreza Hasandust Rostami | Energy and Sustainability | Engineering Creativity Award

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Dr. Mohammadreza Hasandust Rostami | Energy and Sustainability | Engineering Creativity Award

Tarbiat modares university | Iran

Mohammadreza Hasandust Rostami is a mechanical engineering researcher specializing in renewable energy systems, computational fluid dynamics (CFD), and advanced thermal engineering. He is currently pursuing doctoral research in biosystem mechanics with a strong academic record and extensive experience in numerical modeling, thermal optimization, and energy-efficient system design. His research portfolio includes peer-reviewed journal articles indexed in international databases, contributing to an established h-index, multiple published documents, and an increasing citation record within the fields of heat and mass transfer and sustainable energy systems. His scholarly work focuses on thermal energy storage systems, atmospheric water generation technologies, nanofluid-enhanced heat exchangers, phase change materials, and geothermal-assisted cooling solutions. Professionally, he has served as an industrial design engineer, mechanical engineer, and consulting specialist, collaborating with manufacturing and heavy industry sectors on FEM analysis, CFD simulations, and thermal performance optimization using advanced engineering software. His research outputs have appeared in reputable international journals published by Wiley, MDPI, and other academic publishers, and several additional works are under review. Through applied research, industrial consulting, and interdisciplinary innovation, his work contributes to energy efficiency, water sustainability, and climate-responsive engineering, positioning him as an emerging researcher at the intersection of thermal sciences, renewable energy, and computational engineering.

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Thermal Performance Investigation of SWCNT and Graphene Quantum Dots Nanofluids in a Shell-and-Tube Heat Exchanger Using Fin-Blade Tubes
M. H. Rostami, G. Najafi, B. Ghobadin, A. Motevali.
Heat Transfer, 2020, 49(8), 4783–4800. (Citations: 23)


Evaluation and Improvement of PCM Melting in Double-Tube Heat Exchangers Using Nanoparticle–PCM Combinations for Renewable Energy Systems
A. Motevali, M. Hasandust Rostami, G. Najafi, W. M. Yan.
Sustainability, 2021, 13(19), 10675. (Citations: 21)


Evaluation and Enhancement of Thermal Energy Performance of Heat Exchangers Using SWCNT, GQD Nanoparticles and PCM (RT82)
M. H. Rostami, G. Najafi, A. Motevali, N. A. C. Sidik, M. A. Harun.
Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 2021, 79(1). (Citations: 15)


Numerical Analysis of Thermal and Hydrothermal Characteristics of a Heat Sink with Various Fin Configurations and Ternary Nanofluid Composition
A. Najafpour, M. H. Rostami.
Case Studies in Thermal Engineering, 2025, 68, 105928. (Citations: 12)


Experimental Analysis and CFD Simulation of a Photovoltaic/Thermal System Using Nanofluids for Sustainable Energy Solutions
M. F. Ghazali, M. I. Maulana, N. A. C. Sidik, G. Najafi, M. I. M. Rashid, M. F. Jamlos, et al.
Journal of Advanced Research in Numerical Heat Transfer, 2024, 24(1), 1–13. (Citations: 8)

Lei Dong | Advanced Materials Engineering | Research Excellence Award

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Prof. Lei Dong | Advanced Materials Engineering | Research Excellence Award

Northwestern Polytechnical University | China

Prof. Lei Dong is a leading materials scientist specializing in graphene-based technologies, energy storage, and ion-transport systems. He earned his PhD in Polymer Chemistry and Physics in 2015 and subsequently gained international research experience through postdoctoral and visiting appointments at major research-intensive universities, before progressing to faculty roles and attaining a full professorship. His academic career reflects a strong trajectory from fundamental two-dimensional (2D) materials synthesis to application-driven research in Li-ion batteries and ion-sieving membranes.  He has secured more than 10 competitive research grants and filed over 30 national invention patents, underscoring both scientific excellence and translational impact. His work has been recognized through multiple prestigious talent and innovation awards at the provincial level. Overall, Prof. Dong’s contributions significantly advance scalable 2D materials, high-performance energy storage, and membrane technologies, positioning him as a prominent figure in contemporary materials science and engineering.

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Synthesis and Reduction of Large-Sized Graphene Oxide Sheets
L. Dong, J. Yang, M. Chhowalla, K. P. Loh.
Chemical Society Reviews, 2017


Interface-Confined Hydrogen Evolution Reaction in Zero-Valent Metal Nanoparticles–Intercalated MoS₂
Z. Chen, K. Leng, X. Zhao, S. Malkhandi, W. Tang, B. Tian, L. Dong, et al.
Nature Communications, 2017


A Non-Dispersion Strategy for Large-Scale Production of Ultra-High-Concentration Graphene Slurries in Water
L. Dong, Z. Chen, X. Zhao, J. Ma, S. Lin, M. Li, et al.
Nature Communications, 2018


Spontaneous Exfoliation and Tailoring of MoS₂ in Mixed Solvents
L. Dong, S. Lin, L. Yang, J. Zhang, C. Yang, D. Yang, H. Lu.
Chemical Communications, 2014