Yongxi Li | Materials Science | Best Researcher Award

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Prof. Yongxi Li | Materials Science | Best Researcher Award

Prof. Yongxi Li | Nanjing University | China

Dr. Yongxi Li is an Associate Professor at the School of Frontier Sciences, Nanjing University, specializing in flexible electronics, organic photovoltaics, and lithography technologies. He earned his Ph.D. in Materials Science from East China University of Science & Technology with joint training at the University of Washington. Dr. Li has held research positions at Soochow University, Linköping University, and the University of Michigan, where he advanced solar energy and radiation-hardened devices. With over 60 publications, 6,500+ citations, and multiple prestigious awards, he continues to pioneer innovations in sustainable energy materials and next-generation photovoltaic technologies

Profiles

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Early Academic Pursuits

Dr. Yongxi Li laid a strong academic foundation in materials science and chemistry. He earned his B.E. in Chemistry from the East China University of Science and Technology, where his early exposure to material synthesis sparked his interest in energy research. He pursued a Ph.D. in Materials Science at the same institution, with a joint Ph.D. training program at the University of Washington, Seattle. This international academic training broadened his scientific perspective, equipping him with advanced knowledge in nanomaterials, organic electronics, and solar energy conversion systems.

Professional Endeavors

Dr. Li has held prestigious academic and research positions across leading global institutions. After his postdoctoral fellowship at Soochow University and VINNMER Fellowship at Linköping University, he became a Research Fellow at the University of Michigan, where he advanced organic solar cell research under Prof. Stephen R. Forrest. He later rose to Assistant and Associate Research Scientist at the University of Michigan, focusing on solar cell lifetimes and radiation hardness. In 2025, he joined the School of Frontier Sciences at Nanjing University as an Associate Professor, leading research in flexible electronics and lithography technologies.

Contributions and Research Focus

Dr. Li’s research is centered on organic and perovskite photovoltaics, flexible electronics, and energy-harvesting devices. He has contributed significantly to understanding the failure mechanisms of organic solar cells, improving their operational lifetimes, and enhancing their radiation tolerance for aerospace applications. His work on semi-transparent solar cells has paved the way for building-integrated photovoltaics (BIPV), promoting sustainable energy in architecture. He has also advanced fabrication methods, including vapor deposition and tandem module strategies, to achieve high-efficiency, durable solar technologies.

Impact and Influence

With over 60 peer-reviewed publications, more than 6,500 citations, and an H-index of 35, Dr. Li has established himself as a leading figure in renewable energy materials research. His papers have been published in top journals such as Nature Photonics, Nature Reviews Materials, Joule, and PNAS, with several recognized among the top 1% most cited in Materials Science and Engineering. Beyond publications, his patents on organic photovoltaic devices highlight his translational impact in commercializing solar technologies. His contributions are shaping the future of sustainable energy infrastructure and aerospace applications.

Research Skills

Dr. Li possesses advanced expertise in organic electronics, perovskite photovoltaics, thin-film fabrication, and lithography technologies. He is skilled in in-situ coating, vapor deposition, optical outcoupling, and tandem solar cell design, combining experimental techniques with device modeling to optimize efficiency and stability. His collaborative skills are evident in interdisciplinary projects spanning physics, chemistry, electrical engineering, and aerospace sciences. Additionally, he has mentored graduate and undergraduate students, fostering the next generation of solar energy researchers.

Awards and Honors

Dr. Li’s outstanding contributions have earned him several prestigious recognitions. He was a Nominee for the National Academy of Engineering – US Frontiers of Engineering and the Kenneth M. Reese Outstanding Research Scientist Award at the University of Michigan. He received the CNSF Young Investigator Program Award  and was honored with the First Class Honorary Doctorate of Science from East China University of Science & Technology. His work in the Journal of Materials Chemistry A was recognized as a Top Ten Cited Research Article, further underscoring his academic influence.

Legacy and Future Contributions

Dr. Yongxi Li’s legacy lies in bridging fundamental materials science with real-world energy applications. His pioneering research on durable, efficient, and radiation-hardened photovoltaics positions him at the forefront of next-generation solar technology. Moving forward, he is expected to drive advancements in flexible energy devices, perovskite tandem modules, and BIPV solutions, contributing to global clean energy transitions. As a mentor, innovator, and scholar, his future work promises to expand the boundaries of sustainable electronics and renewable energy engineering.

Publications Top Notes

Title: High fabrication yield organic tandem photovoltaics combining vacuum-and solution-processed subcells with 15% efficiency
Authors: X. Che, Y. Li, Y. Qu, S.R. Forrest
Journal: Nature Energy 3 (5), 422–427
Citations: 547 (2018)

Title: Conjugated‐polymer‐functionalized graphene oxide: synthesis and nonvolatile rewritable memory effect
Authors: X.D. Zhuang, Y. Chen, G. Liu, P.P. Li, C.X. Zhu, E.T. Kang, K.G. Noeh, B. Zhang, …
Journal: Advanced Materials 22 (15), 1731–1735
Citations: 469 (2010)

Title: High efficiency near-infrared and semitransparent non-fullerene acceptor organic photovoltaic cells
Authors: Y. Li, J.D. Lin, X. Che, Y. Qu, F. Liu, L.S. Liao, S.R. Forrest
Journal: Journal of the American Chemical Society 139 (47), 17114–17119
Citations: 456 (2017)

Title: Improved charge transport and absorption coefficient in indacenodithieno[3,2‐b]thiophene‐based ladder‐type polymer leading to highly efficient polymer solar cells
Authors: Y.X. Xu, C.C. Chueh, H.L. Yip, F.Z. Ding, Y.X. Li, C.Z. Li, X. Li, W.C. Chen, A.K.Y. Jen
Journal: Advanced Materials 24 (47), 6356–6361
Citations: 399 (2012)

Title: A near-infrared non-fullerene electron acceptor for high performance polymer solar cells
Authors: Y. Li, L. Zhong, B. Gautam, H.J. Bin, J.D. Lin, F.P. Wu, Z. Zhang, Z.Q. Jiang, …
Journal: Energy & Environmental Science 10 (7), 1610–1620
Citations: 308 (2017)

Title: Graphene oxide covalently functionalized with zinc phthalocyanine for broadband optical limiting
Authors: J. Zhu, Y. Li, Y. Chen, J. Wang, B. Zhang, J. Zhang, W.J. Blau
Journal: Carbon 49 (6), 1900–1905
Citations: 303 (2011)

Title: Non-fullerene acceptor organic photovoltaics with intrinsic operational lifetimes over 30 years
Authors: Y. Li, X. Huang, K. Ding, H.K.M. Sheriff Jr, L. Ye, H. Liu, C.Z. Li, H. Ade, …
Journal: Nature Communications 12 (1), 5419
Citations: 271 (2021)

Title: Dopant‐free spiro‐triphenylamine/fluorene as hole‐transporting material for perovskite solar cells with enhanced efficiency and stability
Authors: Y.K. Wang, Z.C. Yuan, G.Z. Shi, Y.X. Li, Q. Li, F. Hui, B.Q. Sun, Z.Q. Jiang, L.S. Liao
Journal: Advanced Functional Materials 26 (9), 1375–1381
Citations: 269 (2016)

Title: Non-fullerene acceptor with low energy loss and high external quantum efficiency: towards high performance polymer solar cells
Authors: Y. Li, X. Liu, F.P. Wu, Y. Zhou, Z.Q. Jiang, B. Song, Y. Xia, Z.G. Zhang, F. Gao, …
Journal: Journal of Materials Chemistry A 4 (16), 5890–5897
Citations: 247 (2016)

Title: Semitransparent organic photovoltaics for building-integrated photovoltaic applications
Authors: Y. Li, X. Huang, H.K.M. Sheriff Jr, S.R. Forrest
Journal: Nature Reviews Materials 8 (3), 186–201
Citations: 228 (2023)

Title: Non-fullerene polymer solar cells based on a selenophene-containing fused-ring acceptor with photovoltaic performance of 8.6%
Authors: Y. Li, L. Zhong, F.P. Wu, Y. Yuan, H.J. Bin, Z.Q. Jiang, Z. Zhang, Z.G. Zhang, Y. Li, …
Journal: Energy & Environmental Science 9 (11), 3429–3435
Citations: 186 (2016)

Title: Molecular weight effect on the absorption, charge carrier mobility, and photovoltaic performance of an indacenodiselenophene-based ladder-type polymer
Authors: J.J. Intemann, K. Yao, H.L. Yip, Y.X. Xu, Y.X. Li, P.W. Liang, F.Z. Ding, X. Li, …
Journal: Chemistry of Materials 25 (15), 3188–3195
Citations: 185 (2013)

Title: Highly Efficient Inverted Organic Solar Cells Through Material and Interfacial Engineering of Indacenodithieno[3,2‐b]thiophene‐Based Polymers and Devices
Authors: J.J. Intemann, K. Yao, Y.X. Li, H.L. Yip, Y.X. Xu, P.W. Liang, C.C. Chueh, F.Z. Ding, …
Journal: Advanced Functional Materials 24 (10), 1465–1473
Citations: 175 (2014)

Conclusion

Dr. Yongxi Li is a leading researcher whose work bridges materials science, renewable energy, and advanced device engineering. With a strong record of innovation, mentorship, and international collaboration, he has significantly advanced organic and perovskite solar cell technologies, flexible electronics, and sustainable energy solutions. His extensive publication record, high citation impact, and prestigious awards underscore his scientific influence. As an educator and innovator, he continues to inspire the next generation of researchers while pushing the boundaries of photovoltaic applications for global sustainability. Dr. Li’s expertise and vision position him as a transformative figure in energy and materials research.

Yongmin He | 2D Materials | Best Researcher Award

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Prof. Yongmin He | 2D Materials | Best Researcher Award

Prof. Yongmin He, Hunan University, China.

Prof. Yongmin He 🧪 is a leading researcher in electrocatalysis, atom-thin materials, and microelectrochemical devices. Currently a Yuelu Professor at Hunan University, he has held research fellowships at Nanyang Technological University, Singapore. With a citation index of 9461 📈 and publications in top-tier journals like Nature Materials and Advanced Materials, he pioneers innovations that advance clean energy ⚡ and nanoelectronics. His groundbreaking work bridges 2D materials and electrochemistry at the nanoscale 🔬.

Profile

Scopus Profile

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Google Scholar Profile

🎓 Early Academic Pursuits

Professor Yongmin He began his academic journey with an unwavering interest in chemistry and materials science, ultimately securing esteemed research fellow positions at Nanyang Technological University (NTU), Singapore, from 2015 to 2021. His early training in both the School of Materials Science and Engineering and School of Electrical & Electronic Engineering at NTU equipped him with cross-disciplinary expertise vital to his future innovations. These foundational years served as the bedrock for his pioneering work in micro/nano electrochemical devices and 2D materials.

💼 Professional Endeavors

Since May 2021, Professor He has held the prestigious title of Yuelu Professor at the College of Chemistry and Chemical Engineering, Hunan University, China. His career has been marked by a seamless blend of academic excellence and research leadership. Through multiple national and provincial-level funded projects, he has consistently led cutting-edge initiatives focused on advancing electrocatalysis and water splitting technologies. He is also an active collaborator with global institutions and research leaders, reinforcing his role in the international scientific community.

🔬 Contributions and Research Focus On 2D Materials

Prof. He’s research spans across electrocatalysis, atom-thin materials, water splitting, electrochemical transistors, and amorphous structures. He is renowned for designing on-chip micro-electrochemical cells that allow real-time, in-situ analysis of catalytic processes—revolutionizing the understanding of water electrolysis. He has also achieved wafer-scale CVD growth of 2D TMDCs (MoS₂, MoSe₂, WSe₂), crucial for next-gen electronics including high-performance transistors and memory devices. His work represents a harmonious blend of electrochemistry and nanotechnology and propels forward the practical application of 2D materials.

🌍 Impact and Influence

Prof. He’s work has appeared in the world’s top-tier journals, including Nature Materials, Nature Catalysis, Nature Synthesis, Nature Communications, Advanced Materials, Nano Letters, and ACS Nano. With a citation index of 9,461, his research has profoundly influenced the fields of materials science and electrochemistry. He is considered a leader in applying fundamental materials chemistry to address modern energy and electronic challenges, setting benchmarks in atom-thin device fabrication and micro-electrochemical innovation.

🧠 Research Skills

Prof. He possesses an exceptional skill set in:

  • Design of micro/nano electrochemical systems

  • Synthesis of 2D materials via CVD

  • In-situ electrochemical analysis techniques

  • Device integration for transistors and sensors

  • Electrocatalyst development for water splitting
    His technical command bridges experimental chemistry with device physics, empowering the next generation of flexible and energy-efficient technologies.

🏅 Awards and Honors

Prof. He has received multiple prestigious research grants, including:

  • National Excellent Youth Fund (Overseas)

  • Hunan Provincial Outstanding Youth Fund Project

  • National Natural Science Foundation (Youth and General Projects)

  • Guangdong Natural Science Foundation General Project

These recognitions are a testament to his trailblazing work in microelectrochemistry and atom-thin materials.

🏛️ Legacy and Future Contributions

Prof. Yongmin He’s contributions are not just contemporary accomplishments—they form the basis for sustainable energy innovations and next-gen electronics. By pushing the limits of electrochemical device miniaturization and atomically thin materials, he is set to redefine the roadmap for nanotechnology-enabled energy solutions. As a role model for emerging researchers and a beacon for interdisciplinary science, his legacy is already being cemented in academic and industrial ecosystems alike.

Publications Top Notes

  • Freestanding Three-Dimensional Graphene/MnO₂ Composite Networks
    📖 ACS Nano, 1570 citations, 2013
    Ultralight & Flexible Supercapacitor Electrodes ⚙️

  • Defects Engineered Monolayer MoS₂ for Improved Hydrogen Evolution Reaction
    📖 Nano Letters, 1259 citations, 2016
    💧 Boosting Hydrogen Evolution via Defect Engineering 🔬

  • Liquid Phase Exfoliation of 2D Materials
    📖 Nano Letters, 642 citations, 2015
    🧪 Surface Tension-Based Exfoliation of 2D Sheets 🌫️

  • Two-Step Growth of WSe₂/MoSe₂ Heterostructures
    📖 Nano Letters, 621 citations, 2015
    🌐 Controlled Heterostructure Synthesis 🧱

  • Overview of Carbon Materials for Flexible Electrochemical Capacitors
    📖 Nanoscale, 338 citations, 2013
    🔋 Review on Carbon Materials for Supercapacitors 🧩

  • Surface Functionalization of Metal Chalcogenides by Lewis Acid–Base Chemistry
    📖 Nature Nanotechnology, 266 citations, 2016
    ⚛️ Tuning 2D Surfaces with Chemical Precision 🧪

  • Chemical Vapor Deposition of Monolayer ReS₂
    📖 Advanced Materials, 241 citations, 2015
    🧬 CVD Techniques for Rhenium-Based 2D Materials 🔥

  • Engineering Grain Boundaries at 2D Limit for HER
    📖 Nature Communications, 238 citations, 2020
    🌊 Hydrogen Production via Grain Boundary Tuning ⚙️

  • Self-Gating in Semiconductor Electrocatalysis
    📖 Nature Materials, 232 citations, 2019
    🔌 Electrocatalysis with Built-In Charge Control

  • Photoelectrochemical Water Splitting of Hematite Nanowires
    📖 Energy & Environmental Science, 227 citations, 2017
    ☀️ Nanowire Optimization for Solar Water Splitting 💧

  • Graphene-Coupled Oxide Nanoparticles for Mid-IR Photodetection
    📖 Nature Communications, 224 citations, 2018
    📸 Infrared Sensing with Graphene Hybrids 🌌

  • Review on Self-Powered UV Photodetectors
    📖 Nanoscale, 224 citations, 2016
    🌞 UV Detection Without External Power 🔦

  • Strong Coupling in WSe₂–MoSe₂ Heterobilayers Under Pressure
    📖 Nature Physics, 213 citations, 2021
    🧲 Strain & Coupling Effects in Heterobilayers 🧯

  • Amorphizing Noble Metal Chalcogenides for Hydrogen Production
    📖 Nature Catalysis, 210 citations, 2022
    ⚗️ Single-Layer Catalyst Design for HER 🌡️

  • Optoelectronic Memory with 2D Materials
    📖 Nano Letters, 209 citations, 2015
    💡 2D Material-Based Memory Devices 🧠

  • Synthesis of mm-Scale TMDCs Single Crystals
    📖 Advanced Functional Materials, 193 citations, 2016
    🏗️ Large-Scale Crystal Growth Techniques 🧱

Kee-Sun Sohn | Materials Science | Best Researcher Award

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Prof Kee-Sun Sohn | Materials Science | Best Researcher Award

Prof. Kee-Sun Sohn, Sejong University, South Korea.

Dr. Kee-Sun Sohn is a distinguished professor in the Faculty of Nanotechnology and Advanced Materials Engineering at Sejong University, Korea. He earned his Ph.D. in Materials Science & Engineering from POSTECH and has made significant contributions to nanotechnology and advanced materials research. With over two decades of experience, he has held key positions at Sunchon National University and the Korea Research Institute of Chemical Technology. As a Daeyang Distinguished Professor, he has published extensively and mentored numerous researchers. His expertise in metallurgical engineering and materials innovation has positioned him as a leading figure in the scientific community.

Professional Profile

🌟 Suitability for Best Researcher Award

Prof. Kee-Sun Sohn is a distinguished scholar in nanotechnology and advanced materials engineering, with a career spanning over three decades. His academic journey, beginning with a B.S. in Metallurgical Engineering from Yonsei University, followed by M.S. and Ph.D. degrees from POSTECH, underscores his strong foundation in materials science. His extensive research experience includes pivotal roles as a Senior Researcher at KRICT, a Post-Doctoral Researcher at Queen Mary University of London, and a faculty member at Sunchon National University, culminating in his current position as a Daeyang Distinguished Professor at Sejong University.

🎓 Education

Dr. Kee-Sun Sohn holds a strong academic background in materials science and engineering. He earned his Bachelor of Science in Metallurgical Engineering from Yonsei University, Korea, in 1990. He then pursued his Master of Science in Materials Science & Engineering at POSTECH, Korea, completing it in 1992. Committed to advancing his expertise, he obtained a Ph.D. in Materials Science & Engineering from POSTECH in 1996. His academic journey laid the foundation for his pioneering research in nanotechnology and advanced materials, contributing significantly to the fields of metallurgical engineering, materials innovation, and applied sciences.

💼Professional Experience

Dr. Kee-Sun Sohn is a distinguished professor in the Faculty of Nanotechnology and Advanced Materials Engineering at Sejong University, Korea. He earned his Ph.D. in Materials Science & Engineering from POSTECH and has made significant contributions to nanotechnology and advanced materials research. With over two decades of experience, he has held key positions at Sunchon National University and the Korea Research Institute of Chemical Technology. As a Daeyang Distinguished Professor, he has published extensively and mentored numerous researchers. His expertise in metallurgical engineering and materials innovation has positioned him as a leading figure in the scientific community.

🌍Research Contributions On Materials Science

Dr. Kee-Sun Sohn has made significant contributions to the field of materials science, particularly in nanotechnology and advanced materials engineering. His research focuses on developing innovative materials with applications in various industries, including energy, electronics, and environmental sustainability. Throughout his career, Dr. Sohn has led groundbreaking studies on material properties at the nanoscale, advancing the understanding of their behavior and performance. His work has resulted in numerous high-impact publications, influencing both academic and industrial sectors. His leadership in research and dedication to mentoring have further solidified his reputation as a key figure in materials science.

💡Impact and Recognition

Dr. Kee-Sun Sohn has made a profound impact on the fields of materials science and nanotechnology through his extensive research and academic leadership. His work, particularly in advanced materials and metallurgical engineering, has earned him widespread recognition within the scientific community. With a strong citation record, Dr. Sohn has contributed to numerous high-impact publications that have influenced both research and industry practices. His role as a Daeyang Distinguished Professor at Sejong University further underscores his leadership, while his mentorship of future researchers ensures the continued advancement of knowledge. Dr. Sohn’s contributions have cemented his reputation as a leading expert in his field.

Conclusion

Prof. Kee-Sun Sohn’s outstanding research contributions, academic leadership, and commitment to advancing materials science make him a highly deserving candidate for the Best Researcher Award. His dedication to scientific innovation and excellence aligns perfectly with the award’s objectives, solidifying his place among the top researchers in his field.

📚Publication Top Notes

Unravelling the nature of the intrinsic complex structure of binary‐phase Na‐layered oxides

Authors: AK Paidi, WB Park, P Ramakrishnan, SH Lee, JW Lee, KS Lee, H Ahn, …

Publication: Advanced Materials

Citations: 57

Year: 2022

📚🔬

Dark‐Mode Human–Machine Communication Realized by Persistent Luminescence and Deep Learning

Authors: S Timilsina, HG Shin, KS Sohn, JS Kim

Publication: Advanced Intelligent Systems

Citations: 10

Year: 2022

💻🔮

Zinc Anodes Modified by One‐Molecular‐Thick Self‐Assembled Monolayers for Simultaneous Suppression of Side‐Reactions and Dendrite‐Formation in Aqueous Zinc‐Ion Batteries

Authors: M Mwemezi, SJR Prabakar, SC Han, WB Park, JY Seo, KS Sohn, M Pyo

Publication: Small

Citations: 21

Year: 2022

🔋⚡

Discovery of Pb-free hybrid organic–inorganic 2D perovskites using a stepwise optimization strategy

Authors: BD Lee, JW Lee, M Kim, WB Park, KS Sohn

Publication: npj Computational Materials

Citations: 16

Year: 2022

💡🔬

Digital Image Correlation Compatible Mechanoluminescent Skin for Structural Health Monitoring

Authors: HG Shin, S Timilsina, KS Sohn, JS Kim

Publication: Advanced Science

Citations: 30

Year: 2022

🏗️📊

Sulfide phosphor and light-emitting device comprising the same

Authors: KS Sohn, M Kim

Publication: US Patent App. 17/109,260

Citations: N/A

Year: 2022

💡🔧

Multi-variable Bayesian optimization for a new composition with high Na⁺ conductivity in the Na₃PS₄ family

Authors: JY Seo, S Shim, JW Lee, B Do Lee, S Park, WB Park, S Han, M Pyo, …

Publication: Journal of Materials Chemistry A

Citations: 23

Year: 2022

🧪📊

Vacancy-controlled quaternary sulfide Na₃−xZn₁−xGa₁+xS₄ with improved ionic conductivity and aqueous stability

Authors: S Han, JY Seo, WB Park, AB Ikhe, SY Choi, SC Han, KS Sohn, M Pyo

Publication: Journal of Materials Chemistry A

Citations: 14

Year: 2022

🧑‍🔬🔋

Argyrodite configuration determination for DFT and AIMD calculations using an integrated optimization strategy

Authors: B Do Lee, JW Lee, J Park, MY Cho, WB Park, KS Sohn

Publication: RSC Advances

Citations: 11

Year: 2022

🖥️🔍

Li+-intercalated carbon cloth for anode-free Li-ion batteries with unprecedented cyclability

Authors: AB Ikhe, WB Park, SC Han, JY Seo, S Han, KS Sohn, M Pyo

Publication: Journal of Materials Chemistry A

Citations: 10

Year: 2022

🔋✨

Nominally stoichiometric Na₃(WₓSiₓSb₁−₂ₓ)S₄ as a superionic solid electrolyte

Authors: S Han, JY Seo, WB Park, SJR Prabakar, S Park, KS Sohn, M Pyo

Publication: Inorganic Chemistry Frontiers

Citations: 13

Year: 2022

🔬⚡

Large‐Area Piezoresistive Tactile Sensor Developed by Training a Super‐Simple Single‐Layer Carbon Nanotube‐Dispersed Polydimethylsiloxane Pad

Authors: MY Cho, JW Lee, C Park, BD Lee, JS Kyeong, EJ Park, KY Lee, KS Sohn

Publication: Advanced Intelligent Systems

Citations: 15

Year: 2022

🤖👆

Ultra-stable Ti₂O(PO₄)₂(H₂O) as a viable new Ca²⁺ storage electrode material for calcium-ion batteries

Authors: SJR Prabakar, WB Park, JY Seo, SP Singh, D Ahn, KS Sohn, M Pyo

Publication: Energy Storage Materials

Citations: 24

Year: 2021

🔋💡

3-V class Mg-based dual-ion battery with astonishingly high energy/power densities in common electrolytes

Authors: AB Ikhe, JY Seo, WB Park, JW Lee, KS Sohn, M Pyo

Publication: Journal of Power Sources

Citations: 17

Year: 2021

🔋⚡

Positive electrode active material for potassium secondary battery and potassium secondary battery containing same

Authors: KS Sohn, U Park

Publication: US Patent 11,075,402

Citations: N/A

Year: 2021

⚡🔋

Composition-tuned lithium aluminosilicate as a new humidity-sensing ceramic material with high sensitivity

Authors: SG Lee, JY Seo, JW Lee, WB Park, KS Sohn, M Pyo

Publication: Sensors and Actuators B: Chemical

Citations: 9

Year: 2021

🌡️📊

Fluoride-based phosphors for light emitting device

Authors: KS Sohn, M Kim

Publication: US Patent 11,053,438

Citations: N/A

Year: 2021

💡🔧

A machine-learning-based alloy design platform that enables both forward and inverse predictions for thermo-mechanically controlled processed (TMCP) steel alloys

Authors: JW Lee, C Park, B Do Lee, J Park, NH Goo, KS Sohn

Publication: Scientific Reports

Citations: 34

Year: 2021

🛠️🤖

Cyan-Light-Emitting Chalcogenometallate Phosphor, KGaS₂:Eu²⁺, for Phosphor-Converted White Light-Emitting Diodes

Authors: S Shim, WB Park, M Kim, JW Lee, SP Singh, KS Sohn

Publication: Inorganic Chemistry

Citations: 32

Year: 2021

💡💡

Metal fluoride red phosphor and light emitting element using same

Authors: CH Kim, BG Bang, KS Choi, JK Park, MS Kim, KS Sohn

Publication: US Patent 10,961,450

Citations: N/A

Year: 2021

💡🔧