BORRBangladesh Open Research Repository
SearchSubmitAboutContact
BORRResearch for a Better Bangladesh.
AboutSubmit PaperContactTermsPolicyGitHub

© 2026 Bangladesh Open Research Repository.

Filters

Sort By

Sort by relevanceSort by dateSort by citations
Year Range
to

Results for “"Mohammad Jobaer Hassan"”

4 results

Amine modified tannin gel for adsorptive removal of Brilliant Green dye

Verified

Nahida Akter, Md. Asjad Hossain, Mohammad Jobaer Hassan, Md. Khairul Amin et al.

Journal: Journal of environmental chemical engineeringYear: 2016Citations: 99
Physical Sciences
Environmental Science
Water Science and Technology
Read Source

Photocatalytic degradation of chlorazol yellow dye under sunlight irradiation using Ce, Bi, and N co-doped TiO2 photocatalyst in neutral medium

Verified

Zannatul Mumtarin Moushumy, Mohammad Jobaer Hassan, Mohebul Ahsan, Md. Mahmudul Hasan et al.

Journal: Environmental Science and Pollution ResearchYear: 2022Citations: 8

Chlorazol yellow (CY) is a commonly used anionic, toxic, mutagenic, and potentially carcinogenic azo dye, which is menacing to the environment, aquatic system, food chain, and human health as well. To remove CY dye molecules from an aqueous medium, a series of Ce, Bi, and N co-doped TiO 2 photocatal...

Physical SciencesEnergyRenewable Energy, Sustainability and the Environment
Read Source

Applicability of gypsum in selective removal of anionic dye molecules from aqueous medium

Verified

Mohammad Jobaer Hassan, Md. Fahamidul Islam, Nahida Akter, Md. Nizam Uddin et al.

Journal: Applied Water ScienceYear: 2021Citations: 6

Abstract This article describes how selectively anionic organic molecules could be removed from aqueous medium using naturally available gypsum (GS) adsorbent. Gypsum (CaSO 4 .2H 2 O) shows strong interactions with anionic dye molecules while it dos not show any affinity towards cationic dye molecul...

Physical SciencesEnvironmental ScienceWater Science and TechnologyOpen Access
Read Source

Optimization of Electrocatalytic Chlorazol Yellow Degradation Using PbO2 Nanostructure Immobilized on Stainless Steel Substrate

Verified

Md. Fahamidul Islam, Tahamida A. Oyshi, Nazmul Hosen, Mohammad Jobaer Hassan et al.

Journal: CatalystsYear: 2025Citations: 2

In this study, an electrochemical approach was utilized to degrade the anionic Chlorazol Yellow (CY) dye in an aqueous solution using a lead oxide-modified stainless steel electrode (denoted as PbO2-SS). The fabrication of this electrode involved scanning a clean stainless steel (denoted as SS) plat...

Physical SciencesEnvironmental ScienceIndustrial and Manufacturing EngineeringOpen Access
Read Source
PreviousPage 1 of 1Next