A wheat straw cellulose-based hydrogel for Cu (II) removal and preparation copper nanocomposite for reductive degradation of chloramphenicol
Jianzi Ding(Shandong University), Baoyu Gao(Shandong University), Qinyan Yue(Shandong University), Qian Li(Shandong University), Xing Xu(Shandong University), Yuan Su(Kunming University), Xiaojin Zhang(Shandong Province Meteorological Bureau)
Cited by 61
Related Papers
Fenton-like activity and pathway modulation via single-atom sites and pollutants comediates the electron transfer process
|Proceedings of the National Academy of Sciences|2024|327
Equilibrium, thermodynamics and process design to minimize adsorbent amount for the adsorption of acid dyes onto cationic polymer-loaded bentonite
|Chemical Engineering Journal|2010|199
Size‐Dependent Catalysis in Fenton‐like Chemistry: From Nanoparticles to Single Atoms
|Advanced Materials|2024|169
Characterization, swelling and slow-release properties of a new controlled release fertilizer based on wheat straw cellulose hydrogel
|Journal of the Taiwan Institute of Chemical Engineers|2015|163
A comparative study on the properties, mechanisms and process designs for the adsorption of non-ionic or anionic dyes onto cationic-polymer/bentonite
|Journal of Environmental Management|2010|146