Abdoul-Carime Hassan, Kopyra Janina
Institut de Physique des 2 Infinis, Universite Claude Bernard Lyon 1, Universite de Lyon, CNRS/IN2P3, UMR5822, F-69622 Villeurbanne, France.
Faculty of Sciences, Siedlce University, 3 Maja 54, 08-110 Siedlce, Poland.
Int J Mol Sci. 2025 Jan 15;26(2):688. doi: 10.3390/ijms26020688.
Dichlorobenzene is beneficial to industries, however, the release of this compound into the environment causes significant damage to ecosystems and human health, as it exhibits resistance to biodegradation. Here, we show that chlorophenol and resorcinol are synthesized from 1,3-dichlorobenzene in a water ice environment (1) directly on a poly-crystalline gold surface and (2) after low-energy (<12 eV) electron irradiation of admixture films. For the latter, at energies below 5.5 eV, the electrons solely decompose the chlorinated compound into radicals that further undergo reaction with surrounding water molecules. At higher energies (i.e., >5.5 eV) additional fragments, e.g., hydroxyl radicals, produced from the dissociation of water molecules, may also be involved in the chemistry. The present results may suggest strategies for potential eco-friendly, sustainable, and scalable processes for the mitigation of these halogenated compounds such as cold plasma and radiation, in which low-energy (<10 eV) electrons are predominantly produced.
二氯苯对工业有益,然而,这种化合物释放到环境中会对生态系统和人类健康造成重大损害,因为它具有抗生物降解性。在此,我们表明,在水冰环境中,(1)在多晶金表面上以及(2)在对混合膜进行低能(<12 eV)电子辐照之后,氯酚和间苯二酚可由1,3 - 二氯苯合成。对于后者,在能量低于5.5 eV时,电子仅将氯化化合物分解为自由基,这些自由基进一步与周围的水分子发生反应。在较高能量(即>5.5 eV)下,由水分子解离产生的其他碎片,例如羟基自由基,也可能参与化学反应。目前的结果可能为减轻这些卤代化合物的潜在生态友好、可持续和可扩展过程(如冷等离子体和辐射,其中主要产生低能(<10 eV)电子)提供策略。
