Welcome to PHUONG GROUP
to seek NANO WORLDS !
Our group integrates multidisciplinary research, combining experimental and simulation approaches to explore, mimic, sense, and synthesize emerging low-dimensional materials. We focus on the physical, chemical, and mechanical properties of these materials at the micro, nano, and pico scales, with applications in rigid, flexible, and stretchable electronics and optoelectronics.
We warmly welcome visiting scholars, graduate students, and interns from diverse fields, including applied physics, materials chemistry, materials science, chemical engineering, electrical engineering, and mechanical engineering. Ideal candidates will have strong backgrounds in micro/nano-fabrication, excellent hands-on experimental skills, and a potential interest in 2D materials-based computational research.
Join us at Physics-NSYSU, Taiwan, to collaborate on projects involving nanotechnology, materials physics, surface physics, chemical engineering, atomic film synthesis, 2D heterostructures, nanofilm transfer, donor/acceptor systems, nanocomposites, plasma engineering for advanced electronics/optoelectronics, energy storage, environment as well as parallelly with the extending to predictive simulations associated with next-generation nanomaterials processes (kinetics, growths).
Congratulations to Hung Anh and Cathrins for the Acceptance in
Journal of Alloys and Compounds (IF: 6.3) (Sept 2025)
Congratulations to Muhammad Adnan for the Acceptance in
Materials Today (IF: 22) (Sept 2025)
Congratulations to Cathrin Lims for the Acceptance in
Chemical Engineering Journal (IF: 13.2) (Aug 2025)
Congratulations to The-Hung Mai on joining Ph.D. program at College of Design & Engineering, National University of Singapore (NUS) - No. 1 University in Asia! Wishing you all the best on this exciting journey. Cheers, and keep pushing forward! (Aug 2025)
Congratulations to Cathrin Lims for the Acceptance in
Nano Energy (IF: 17.1) (July 2025)
Great news! Our 2nd NSTC project in Taiwan, funded by the National Science and Technology Council of Taiwan, has just been officially approved for a 3-year term. With this support, our group is now fully funded to continue our main and sub research projects for the next 3 years. Exciting times ahead, cheers! (July 2025)
Congratulations to our work is selected as Front Cover of
"2D Heterostructure-based Sweat and Heat Sensors" published in ACS Applied Electronic Materials (IF: 4.7)(Mar 2025)
Congratulations to The-Hung Mai for the Successful MS Defense in Physics-NSYSU (Jan 2025). Best Wishes to Your Next Path!
Congratulations to Cathrin Lims for the Acceptance in
Coordination Chemistry Reviews (IF: 20.3) (Dec 2024)
Congratulations to Muhammad H. Nawaz for the Acceptance in
Coordination Chemistry Reviews (IF: 20.3) (Dec 2024)
Zhejiang University (China), where I have worked for 4 years, stands as 1st rank in the world by the number of scientific publications (above Harvard University). Cheers up!
Congratulations to The-Hung Mai for the Acceptance in
Journal of Catalysis (IF: 6.5) (Sept 2024)
Congratulations to Cathrin Lims for the Acceptance in
Materials Characterization (IF: 5.5) (Aug 2024)
Congratulations to Cathrin Lims for the Acceptance in
RSC Advances (IF: 4.6) (July 2024)
Congratulations to Devi Gayathri N. for the Acceptance in Nanoscale Horizons (IF: 6.6) (June 2024)
Congratulations to The-Hung Mai for the Acceptance in Nanotechnology (June 2024)
Breaking News of Our Group: "NSYSU's paper on thinning two-dimensional materials was published in a top journal, boosting the semiconductor industries" https://www.nsysu.edu.tw/p/406-1000-332922,r5187.php?Lang=en (May 2024)
Big Congratulations to The-Hung Mai for the Acceptance in
ACS Nano (IF: 16) (Apr 2024)
Big Congratulations to The-Hung Mai for the Acceptance in Chemical Society Reviews (IF: 39) (Mar 2024)
5hemical Reviews 2022 (IF: 55.8)
2D Heterostructures for Ubiquitous Electronics and Optoelectronics: Principles, Opportunities, and Challenges
Chemical Society Reviews 2024 (IF: 39)
Layer-by-Layer Thinning of Two-Dimensional Materials
Chemical Society Reviews 2017 (IF: 39)
Direct Growth of Graphene on Rigid and Flexible Substrates: Progress, Applications, and Challenges
Advanced Materials 2016 (IF: 26.8)
Recent Advances in Doping of Molybdenum Disulfide: Industrial Applications and Future Prospects
ACS Nano 2024 (IF: 16)
Transfer of 2D Films: From Imperfection to Perfection
Materials Today 2025 (IF: 22)
Single-Crystalline Materials: Growth Strategies, Challenges, and Technological Impact Toward Futuristic Ultrasemiconductors
Coordination Chemistry Reviews 2025 (IF: 23.5)
The World of Quantum Dots-Shaped Nanoparticles - Nobel Prize in Chemistry 2023 - Advancements and Prospects
Coordination Chemistry Reviews 2025 (IF: 23.5)
Flatland of Graphene’s Derivatives: Species, Synthesis, Mechanisms, Role of Defects, Applications, and Prospects
Coordination Chemistry Reviews 2025 (IF: 23.5)
Unlocking the Potential of Borophene: Recent Progress in Synthesis, Properties, and Applications
Nano Energy 2025 (IF: 17.1)
Doping in 2D Heterostructures
Chemical Engineering Journal 2025 (IF: 13.2)
Engineering High-Performance IR Photodetectors:
From Material Design to Multifunctional Applications
Chemical Engineering Journal 2024 (IF: 13.2)
Three-Dimensional Macro-Structures of Graphene-based Materials for Emerging Heterogeneous Electrocatalysis: Concepts, Syntheses, Principles, Applications, and Perspectives
ACS Materials Letters 2023 (IF: 8.7)
Technological Evolution of Image Sensing Designed by Nanostructured Materials
Nanoscale Horizons 2024 (IF: 6.6)
Art Etching of Graphene
Carbon 2015 (IF: 11.6)
Low Damage Pre-Doping on CVD Graphene/Cu Using a Chlorine Inductively Coupled Plasma
Nanoscale 2014 (IF: 5.1)
Cyclic Chlorine Trap-Doping for Transparent, Conductive, Thermally Stable and Damage-Free Graphene
2D Materials 2017 (IF: 4.3)
Chlorine-Trapped CVD Bilayer Graphene for Resistive Pressure Sensor with High Detection Limit and High Sensitivity
Nanotechnology 2024 (IF: 2.8)
Efficient Photoanode with a MoS2/TiO2/Au Nanoparticle Heterostructure for Ultraviolet-Visible Photoelectrocatalysis
Ceramics International 2024 (IF: 5.6)
Recycling of Reduced Graphene Oxide from Graphite Rods in Disposable Zinc Battery Applicable to Optical Sensing
ACS Omega 2018 (IF: 4.4)
Hexagon Flower Quantum Dot-like Cu Pattern Formation during Low-Pressure Chemical Vapor deposited graphene growth on a liquid Cu/W substrate
Nanomaterials 2021 (IF: 4.3)
The Ripple Effect of Graphite Nanofilm on Stretchable Polydimethylsiloxane for Optical Sensing
Nanomaterials 2021 (IF: 4.3)
Advanced Optical Detection through the Use of a Deformably Transferred Nanofilm
Department of Physics, College of Science, National Sun Yat-sen University (NSYSU),
Address: No. 70, Lianhai Rd, Gushan District, Kaohsiung 80424, Taiwan. Phone: (+886)-07-5252000-3726