![[VNUHCM S&T PROJECT EVALUATION] SYNTHESIS OF ZNO THIN FILMS MODIFIED WITH F, N, AND AG ON A ZN SUBSTRATE FOR PHOTOCATALYTIC APPLICATIONS](https://en.hcmus.edu.vn/wp-content/uploads/2025/03/P4T0224-300x300.jpg "_P4T0224")
The project, led by Assoc. Prof. Huỳnh Thị Kiều Xuân, focused on developing advanced ZnO thin films modified with F, N, and Ag for photocatalytic applications in wastewater treatment, demonstrating significant progress in enhancing the efficiency of organic pollutant degradation. The research successfully met its objectives, resulting in two publications in SCIE-indexed journals, as well...
![[VNUHCM S&T PROJECT EVALUATION] GEOCHEMICAL CHARACTERISTICS AND GROUNDWATER QUALITY IN THE SOUTH PHAN THIET COASTAL AREA, BINH THUAN](https://en.hcmus.edu.vn/wp-content/uploads/2025/03/IMG_9259-300x300.jpg "IMG_9259")
The research project titled “Geochemical Characteristics and Groundwater Quality in the South Phan Thiet Coastal Area, Binh Thuan” was led by MSc. Nguyễn Thùy Dung. The project aimed to investigate the geochemical characteristics and groundwater quality in the South Phan Thiet coastal area, providing valuable insights for water resource management and protection, particularly in the...
![[VNUHCM S&T PROJECT EVALUATION] RESEARCH AND DEVELOPMENT OF A SYSTEM FOR RECOGNISING DRUG NAMES AND PRESCRIPTION INFORMATION FROM PRINTED DOCUMENTS USING CONVOLUTIONAL NEURAL NETWORKS](https://en.hcmus.edu.vn/wp-content/uploads/2025/03/IMG_9293-2048x1365-1-300x300.jpg "IMG_9293-2048x1365")
A project led by Dr. Nguyễn Ngọc Thảo focused on developing a system to recognise drug names and prescription information using Convolutional Neural Networks (CNNs). The project aimed to improve accuracy and processing speed in extracting data from prescriptions, addressing limitations of existing methods, and successfully achieved notable results, including higher accuracy and faster processing...
![[VNUHCM S&T PROJECT EVALUATION] ASSESSING THE SELF-CLEANING CAPACITY OF WATER SOURCES IN HO CHI MINH CITY’S URBAN CANALS, CONSIDERING THE IMPACT OF TIDE CONTROL SYSTEM OPERATIONS AND CLIMATE CHANGE](https://en.hcmus.edu.vn/wp-content/uploads/2025/03/Image-13-2048x1365-1-300x300.jpg "Image-13-2048x1365")
The project, led by Assoc. Prof. Bùi Việt Hưng, focused on assessing the self-cleaning capacity of water sources in the urban canals of Ho Chi Minh City, taking into account the impact of tide control system operations and climate change. The study aimed to improve water quality management and proposed solutions, such as enhancing wastewater...
![[VNUHCM S&T PROJECT EVALUATION] HYDRATE TECHNOLOGY IN TREATING SALINE WATER IN THE MEKONG DELTA PROVINCES](https://en.hcmus.edu.vn/wp-content/uploads/2025/03/Image-62-2048x1365-1-300x300.jpg "Image-62-2048x1365")
The project “Hydrate Technology for Treating Saline Water,” led by Dr. Trương Lâm Sơn Hải, developed a desalination system using hydrate technology. The system achieved 70-78% efficiency with CPH and removed nearly 90% of ions with HFC-134a, offering significant potential to address freshwater shortages in the Mekong Delta. On 17th February, at VNUHCM-University of Science,...
![[VNUHCM S&T PROJECT EVALUATION] SIMULATION OF SUPERFIELD PHENOMENON FOR MID-INFRARED LIGHT CONVERSION IN NONLINEAR TELLURITE FIBRES](https://en.hcmus.edu.vn/wp-content/uploads/2025/03/P4T01355-300x300.jpg "P4T01355")
The research project on simulating the superfield phenomenon in nonlinear tellurite optical fibres, conducted by a team from the Faculty of Materials Science and Technology at the University of Science, Viet Nam National University Ho Chi Minh City (VNUHCM), achieved significant success. This opened up potential applications in various scientific and technological fields and confirmed...
![[VNUHCM S&T PROJECT EVALUATION] DEVELOPMENT OF ELECTRODE SURFACE MODIFICATION AND ELECTROLYTE SOLUTIONS FOR NEXT-GENERATION SOLAR CELLS (PHASE 2)](https://en.hcmus.edu.vn/wp-content/uploads/2025/03/Ima-28-2048x1365-1-e1741863819140-300x300.jpg "Ima-28-2048x1365")
The project led by Assoc. Prof. Nguyễn Tuyết Phương focused on enhancing dye-sensitised solar cells by developing new electrode surface modification methods and optimizing electrolyte solutions. The research resulted in improved efficiency and long-term stability, contributing to the advancement of next-generation solar technology. On 4th March, at the University of Science, Viet Nam National University...
The research on simulating the superfield phenomenon for mid-infrared light conversion in nonlinear tellurite fibres, led by Dr. Nguyễn Phước Trung Hòa and his team, resulted in the development of optical fibres with excellent transmission properties, enabling applications in fields such as chemical detection and environmental monitoring. The team’s work, published in Results in Optics,...
