Xiangyi Shen scite author profile

Used as a kind of feed additive, p-arsanilic acid can pose a potential risk to organisms when abandoned in the environment. The photodegradation of p-ASA was investigated under UV-C irradiation in the presence of persulfate (PS) in this work. The addition of PS facilitated the decomposition of p-ASA and notably, the presence of 50 mmol PS brought about a nearly complete mineralization after 3 h, while an insignificant total organic carbon (TOC) removal was observed under UV irradiation (λ = 254 nm) only. Experimental results proved that sulfate radical (SO 4 • −) was responsible for the promotion effect. The cleavage of As-C bond released inorganic arsenic and caused the occurrence of various organic products, for example, hydroxybenzaldehyde, nitrobenzene, benzenediol sulfate, and biphenylarsinic acid. The application of PS with UV-C light may throw a light on thorough treatment for p-ASA containing wastewater.

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Kinetics and mechanisms of pH-dependent direct photolysis of p-arsanilic acid under UV-C light

Shen

Wang

et al. 2018

Chemical Engineering Journal

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In vitro stability and cytotoxicity analysis of liposomes anchored with octylamine-graft-poly (aspartic)

Shen

2016

RSC Adv.

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Due to the polymer, octylamine-graft-poly (aspartic) (PASP-g-C 8 ), which acted as acidic triggered molecules, liposomes anchored with PASP-g-C 8 (OPLPs) could be safe and efficient pH sensitive drug carriers and target tumor cells. In the present study cytarabine (CYT) was chosen as the model drug and the in vitro biological stability and cytotoxicity of OPLPs were further investigated. Transmission electron microscopy (TEM) images indicated that the OPLPs remained active in both normal (pH 7.4 solution) andtumor tissues (pH 5.0 solution). The particle size was maintained at about 350 nm. In addition, the results of atomic force microscopy (AFM) revealed that OPLPs could obviously promote the dent in HepG2 cell membrane and enhance its roughness, while they had a lower effect on vero cells. Flow cytometry (FCM) results showed that cell apoptosis of HepG2 cells induced by OPLPs after 48 hours reached 42.9%, one and a half times more than that induced by conventional liposomes (LPs(+)). Meanwhile, when vero cells were exposed to OPLPs after 24 hours, the cell apoptosis was 29.6%, less than half of that of LPs(+). The results illustrate that OPLPs not only possess good biological stability, but also have stronger cytotoxicity towards tumor cells as well as lower effect on normal cells. Based on these findings, the OPLPs may be a promising candidate in nanotechnology-based drug delivery.

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Xiangyi Shen

A high stable pH-temperature dual-sensitive liposome for tuning anticancer drug release

Photooxidation of p-Arsanilic Acid in Aqueous Solution by UV/Persulfate Process

Kinetics and mechanisms of pH-dependent direct photolysis of p-arsanilic acid under UV-C light

In vitro stability and cytotoxicity analysis of liposomes anchored with octylamine-graft-poly (aspartic)

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