Journal Article10.1021/bk-2024-1476.ch008
Nanobiomaterials-Based Environmental Bioremediation: A Special Focus on Microplastics
Rajkumar Sekar,Sohel Das,Saba Shirin,Ramachandran Srinivasan,Pandi Marimuthu,Purushothaman Atchuthan,S. Lokesh Amith,Prathap Somu,Akhilesh Kumar Yadav +8 more
- 16 Sep 2024
- pp 163-187
About: The article was published on 16 Sep 2024. The article focuses on the topics: Microplastics & Bioremediation.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
References
Emerging and advanced membrane technology for wastewater treatment: A review.
TL;DR: In this article, a review article on membrane technology for wastewater treatment is presented, which covers all the aspects of membrane technology that are widely used in wastewater treatment process and its application in different industries, advantages, disadvantages and the future prospective.
144
Experimental study of arsenic removal by direct contact membrane distillation.
TL;DR: The experimental results indicated that DCMD process had higher removal efficiency of arsenic than pressure-driven membrane processes, especially for high-concentration arsenic and arsenite removal.
141
Post-synthesis of a covalent organic framework nanofiltration membrane for highly efficient water treatment
TL;DR: In this paper, a stable covalent organic framework (COF) IISERP-COOH-COF1 membrane with high ion rejection and relatively high water flux is presented.
131
The influence of antiscalants on biofouling of RO membranes in seawater desalination.
TL;DR: A wise selection of antiscalants for scaling control should take into account their contribution to membrane biofouling propensity, as a significant increase in biofilm formation rate on RO membranes surface was observed in the presence of both types of ant fiscalants.
124
TiO2-Coated Interlayer-Expanded MoSe2/Phosphorus-Doped Carbon Nanospheres for Ultrafast and Ultralong Cycling Sodium Storage.
Yuyu Wang,Yunxiao Wang,Wenpei Kang,Dongwei Cao,Chenxu Li,Dongxu Cao,Zixi Kang,Daofeng Sun,Rongming Wang,Yuliang Cao +9 more
TL;DR: Benefiting from synergistic effects of MoSe2, phosphorus‐doped carbon, and TiO2, the hybrid nanospheres manifest unprecedented cycling stability and ultrafast pseudocapacitive sodium storage capability.
114