Our Works
These are our current projects
PIC : Joy Anjora Ginting
Green synthesis of FNCPs-doped TiO2 for Air Purification FNCPs 摻雜二氧化鈦的綠色合成用於空氣淨化
Titanium dioxide (TiO2) is recognized for its brightness, high refractive index, and exceptional light scattering properties. It stands out as one of the most extensively utilized white pigments. It has been extensively researched for its photocatalytic air-purification properties, particularly under UV light irradiation. However, natural sunlight contains minimal UV radiation, rendering TiO2- based photocatalysts potentially ineffective in indoor settings with low UV light levels. Additionally, it suffers from charge recombination which further decreases its efficiency as photocatalyst
PIC : Christy Charoline
To be announced
To be announced
PIC : Anne Cheng
Upcycling Industrial waste: clay, plastic and construction waste based slurry for 3D printing 升級改造工業廢棄物:用於 3D 列印的黏土、塑膠和建築廢棄物漿料
Upcycling is the approach of transforming waste or used materials into something new and useful, thus giving it a fresh lease of life. As opposed to recycling, upcycling does not need to chemically break down the material first. Upcycling reduces waste, conserves resources, and improves life cycle embodied carbon of products. The construction industry is a major generator of waste and pollution, with construction and demolition waste (C&DW) being the largest waste stream by volume and weight in many regions.
PIC : Carlen Averyo Tanzil
To be announced
To be announced
PIC : David Hsu
From Light to Fuel: Li/Na and N/CQD co-doped BiVO₄ as a Game-Changer for Artificial Photosynthesis 從光到燃料:Li/Na與N/CQD摻雜鉍酸釩讓人工光合作達到顛覆性突破
Bismuth Vanadate (BiVO4) is a highly promising semiconductor photocatalyst due to its excellent light absorption properties, making it suitable for photoelectrochemical (PEC) water splitting and hydrogen production. With a band gap of approximately 2.4 eV, BiVO4 can effectively harness the visible light spectrum. While numerous studies have explored the use of transition metal dopants to enhance their light absorption and catalytic efficiency, the potential of alkali metal dopants remains relatively unexplored.