Hongbo Zeng
University of Alberta
527 Papers
1.1K Citations
Hongbo Zeng is an academic researcher from University of Alberta. The author has contributed to research in topics: Chemistry & Adsorption. The author has an hindex of 61, co-authored 406 publications. Previous affiliations of Hongbo Zeng include Taiyuan University of Science and Technology & Southern University of Science and Technology.
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Papers
Recyclable Ag-decorated highly carbonaceous magnetic nanocomposites for the removal of organic pollutants.
Md. Rafiqul Islam,Md. Saimoom Ferdous,Majharul Islam Sujan,Xiaohui Mao,Hongbo Zeng,Md. Shafiul Azam +5 more
TL;DR: The novel fabrication of a magnetic carbon nanotube-reduced graphene oxide-silver nanocomposite for the adsorption and simultaneous catalytic reduction of two environmental pollutants is reported, which is found to be magnetically separable, easily regenerable through desorption using water and ethanol, and thus highly recyclable.
Bio-based adenosine triphosphate pillared layered double hydroxide for enhancing flame retardancy of polypropylene
Jie Hu,Sheng-Liang Xu,Jiahui Ma,Kun Wu,Yijia Guo,Ling Ding,Jingxia Peng,Qing Hu,Han Wang,Hongbo Zeng +9 more
TL;DR: In this article , a bio-based adenosine triphosphate (ATP) pillared MgAl layered double hydroxide (LDHs-ATP)-based polypropylene (PP) composite reached a LOI value of 29.1% and created a UL-94 V-0 rating with only 20 wt% loading.
Enhanced supercapacitor performance of ultrathin NiCoMn(OH) nanosheets over NiCo2O4 nanoarray on Ni foam
TL;DR: In this article , a hierarchical 3D core-shell material for supercapacitors was designed and prepared, which exhibited a much higher specific capacitance of 2300 F ·g−1 than the NiCoMn(OH)1/5 (1417 F·g −1) at 1 A∙g−2 for 2 000 cycles.
Simultaneous Measurements of Molecular Forces and Electro-Optical Properties of a Confined 5CB Liquid Crystal Film Using a Surface Forces Apparatus
TL;DR: The interplay of the force measurements and optical observations reveal a complex dynamic behavior of liquid crystals subjected to varying electric fields in confined spaces.
Novel Fe3O4 based superhydrophilic core-shell microspheres for breaking asphaltenes-stabilized water-in-oil emulsion
TL;DR: In this article, a core-shell microsphere with magnetic core functionalized with a superhydrophilic zwitterionic polyelectrolyte shell has been developed and characterized, which shows excellent capability in breaking asphaltene-stabilized W/O emulsions and releasing considerable amount of water with the assistance of an external magnetic field.