New "Solar" Catalyst to Treat Industrial Waste Water Cheap and Fast from NUST MISIS Scientists
Molybdenum trioxide, Water pollution, Temperature, Far Eastern Federal University, Carbon, Method, Sunlight, H2S, Life, FEFU, Dimethylformamide, Sulfur, Methylene blue, Water, Research, Water purification, Molybdenum(V) chloride, Environment, Molybdenum, NUST, Fudan University, Nanomaterials, Technology, Aluminium
MOSCOW, Dec. 13, 2021 /PRNewswire/ -- A new "solar" catalyst based on molybdenum sulfide for water purification was developed by NUST MISIS scientists together with colleagues from FEFU, Fudan University (China) and Tokai University (Japan).
Key Points:
- MOSCOW, Dec. 13, 2021 /PRNewswire/ -- A new "solar" catalyst based on molybdenum sulfide for water purification was developed by NUST MISIS scientists together with colleagues from FEFU, Fudan University (China) and Tokai University (Japan).
- Therefore, scientists are faced with the task of minimizing the amount of harmful emissions, as well as developing effective methods for purifying water from these emissions.
- Photocatalytic degradation by sunlight is a technology with minimal anthropogenic impact on the environment, as it uses only natural sunlight and a catalyst.
- Therefore, with the use of non-toxic photocatalysts scientists can create a "green technology" for processing harmful emissions, similar to natural photosynthesis.