The adsorption performance of Vat Scarlet R on natural superfine needle down particles

Chen, Fengxiang; Liu, Xin; Liu, Keshuai; Xiao, Xinfang; Zhang, Chunhua; Cheng, Fan; Xia, Liangjun; Zhou, Yinshan; Dong, Binghai; Wan, Li; Wang, Shimin; Xu, Weilin

doi:10.1111/cote.12194

Cited by 2 publications

(1 citation statement)

References 41 publications

(40 reference statements)

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“…Powder, a popular and low-cost technology, has been proven to be an effective and economical absorbent for removing dyes from wastewater [8,16,30]. In our previous studies, silk fibroin powder [16], down powder [31,32], and needle down powder [33] were examined in terms of their capacity to remove dyes from dyeing effluents. However, to the best of our knowledge, there have only been a few reported studies on the preparation of leather powder and its applications in dye removal, which is mainly due to its unique structure containing strong hydrogen and ionic bonding, thus making it difficult to grind into fine or superfine powder without high-pressure homogenization or chemical pretreatment.…”

Section: Introductionmentioning

confidence: 99%

Utilization of Waste Leather Powders for Highly Effective Removal of Dyes from Water

Xia

Zhou

et al. 2019

Polymers

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As a natural polymer, leather and its associated industries are known to be the leading economic sector in many countries. However, the huge amounts of leather waste generated from the leather industry causes severe environmental pollution. Herein, cow leather (CL) powders were prepared using a homemade machine and used as a low-cost adsorbent for the effective removal of reactive dyes from wastewater. The as-prepared CL powders exhibited dot-like, rod-like, and fiber-like morphologies. A Fourier transform infrared analysis and an x-ray diffraction analysis demonstrated that the CL powders retained the main structure of the protein contained in it. In addition, an improvement in thermal stability was also observed for the CL powders. Dye adsorption experiments indicate that the CL powders showed the highly effective removal of C.I. Reactive Red 120 (RR120), C.I. Reactive Yellow 127 (RY127), and C.I. Reactive Blue 222 (RB222) with the adsorption capacity of 167.0, 178.9, and 129.6 mg·g−1, respectively. The Langmuir, pseudo-second order, and intraparticle diffusion models could well depict the adsorption equilibrium and kinetics of CL powders toward the investigated reactive dyes. The as-prepared CL powders can be used as a potential adsorbent in the treatment of dye contaminated wastewater. Future studies will mainly focus on the application of the adsorbed CL powders for the pigment printing of textile materials.

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