A Chinese study team developed a new technique based on low-temperature plasma (LTP) technique to treat the antibiotics in wastewater.

This work was jointly conducted by HUANG Qing from the Institute of Technical Biology & Agriculture Engineering, Hefei Institutes of Physical Science and his collaborator of Anhui Huafeng Energy Saving & Environmental Science & Technology Co., Ltd.

Wastewater from the pharmaceutical industry, aquaculture or hospitals contains a variety of refractory organics, bacteria/viruses, as well as antibiotics. The antibiotics in wastewater may pose potential threats and risks to human health as it can increase resistance to antibiotics and damage immune system in human body. Therefore, it is imminent to develop new green and efficient techniques that can remove antibiotics in wastewater.

The group made a low-temperature oxygen-plasma (LTP) device to produce reactive gases to treat a quinolone antibiotic named norfloxacin.

Also, they applied surface-enhanced Raman spectroscopy to analyze the degradation products so that they could study the efficiency and mechanism of degradation of norfloxacin.

Through the study, they found that in the plasma discharge, the ozone generated by LTP could degrade norfloxacin efficiently, and the degradation of norfloxacin was mainly caused by defluorination reaction, also through the breaking carboxyl and quinolone groups in the molecule.

This research expands the application of low-temperature plasma technology in the field of environmental protection. Relevant technology and equipment are also in the stage of market promotion.

link to the paper: Assessment of norfloxacin degradation induced by plasma-produced ozone using surface-enhanced Raman spectroscopy

Contact:

ZHOU Shu

Hefei Institutes of Physical Science (http://english.hf.cas.cn/)

Email: zhous@hfcas.ac.cn