Catalytic Dechlorination of Three Organochlorides by Recyclable Nano-Palladium-Engineered Natural Sponge with Formic Acid-Reference-Cited by-同舟云学术

Catalytic Dechlorination of Three Organochlorides by Recyclable Nano-Palladium-Engineered Natural Sponge with Formic Acid

Published:2024-07-03 Issue:7 Volume:14 Page:424
ISSN:2073-4344
Container-title:Catalysts
language:en
Short-container-title:Catalysts

Author:

Liu Mingyue¹^ORCID,Chen Gang¹,Song Zhenjun¹^ORCID,He Zhicai¹,Zhong Aiguo¹,Cui Mei²

Affiliation:

1. School of Pharmaceutical and Chemical Engineering, Taizhou University, Taizhou 318000, China

2. State Key Laboratory of Chemical Engineering, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China

Abstract

Catalytic dechlorination of organic chlorides by palladium (Pd) with HCOOH represents one of the most effective and promising techniques for environmental remediation. In this study, we adopted alkaline-modified porous natural sponge as support of a Pd nanocatalyst (Pd@M-Sponge) and HCOOH as a hydrogen source for the hydrodechlorination of florfenicol (FF), o-chlorophenol (o-CP), and p-chlorophenol (p-CP). Favorable conversion efficiency of FF, o-CP, and p-CP was achieved at 25 °C and atmospheric pressure attributed to the small diameter and high catalytic reactivity of the prepared Pd NPs, in addition to the slight internal mass transfer limitation of the prepared Pd@M-Sponge. High reaction rate constants were obtained even in the conditions of a low molar ratio of HCOOH to p-CP (10:1) and a high concentration of p-CP (500 mg/L). The prepared catalyst also demonstrated superior recyclability without any obvious decrease in catalytic reactivity in 20 successive p-CP dechlorination cycles. This work provides an ideal recyclable and cost-effective catalyst based on renewable and biocompatible natural material for the catalytic hydrodechlorination of chlorinated organic pollutants with formic acid and a new view for the exploration and designing of highly reactive and stable catalysts for hydrodechlorination.

Publisher

MDPI AG

Link

https://www.mdpi.com/2073-4344/14/7/424/pdf

Reference85 articles.

1. Highly efficient degradation of chlorophenol over bismuth oxides upon near-infrared irradiation: Unraveling the effect of Bi-O-Bi-O defects cluster and 1O2 involved process;Huang;Appl. Catal. B,2021

2. Efficient electrocatalytic valorization of chlorinated organic water pollutant to ethylene;Choi;Nat. Nanotechnol.,2023

3. How much of the total organic halogen and developmental toxicity of chlorinated drinking water might be attributed to aromatic halogenated DBPs?;Han;Environ. Sci. Technol.,2021

4. Complete dechlorination of lindane over N-doped porous carbon supported Pd catalyst at room temperature and atmospheric pressure;Yang;Sci. Total Environ.,2020

5. Sea spray as a secondary source of chlorinated persistent organic pollutants? Conclusions from a comparison of seven fresh snowfall events in 2019 and 2021;Pawlak;Sci. Total Environ.,2023

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