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Academy of Scientific and Innovative Research
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Sukdeb Mandal, Debanjan Dey, and Priyabrata Banerjee
Elsevier BV
Sukdeb Mandal, Manilal Murmu, Naresh Chandra Murmu, and Priyabrata Banerjee
De Gruyter
Sukdeb Mandal, Sanjukta Zamindar, Manilal Murmu, and Priyabrata Banerjee
De Gruyter
Sukdeb Mandal, Sourav Bej, and Priyabrata Banerjee
Elsevier BV
Amita Mondal, Abhijit Hazra, Mohit Kumar Chattopadhyay, Debojyoti Kundu, Swarup Kumar Tarai, Pritam Biswas, Ashish Bhattacharjee, Sukdeb Mandal, and Priyabrata Banerjee
Elsevier BV
Manilal Murmu, Sukdeb Mandal, Naresh Chandra Murmu, and Priyabrata Banerjee
Elsevier
Sukdeb Mandal, Sanjukta Zamindar, Manilal Murmu, Harish Hirani, and Priyabrata Banerjee
Elsevier
Sukdeb Mandal, Sanjukta Zamindar, Surya Sarkar, Manilal Murmu, Lei Guo, Savaş Kaya, Harish Hirani, and Priyabrata Banerjee
Informa UK Limited
Sukdeb Mandal, Manilal Murmu, Sirsendu Sengupta, Rishav Baranwal, Abhijit Hazra, Harish Hirani, and Priyabrata Banerjee
Informa UK Limited
Abstract In the boundary lubrication regime, the addition of long as well as straight alkyl chain containing additive exhibit a serendipitous impact on protecting various metallic surfaces or machinery components from friction and subsequent wear. In quest of environment-friendly, proficient friction-reducing, surface protective and cost-effective lubricant additives; herein, two diazomethine functionalised long-chain consisting organic molecules, namely (3E)-N-((E)-2-(octadecylimino)ethylidene)octadecan-1-amine (ODE) and (3E)-N-((E)-2-(dodecylimino)ethylidene)dodecan-1-amine (DDE) were synthesized through a one-pot condensation reaction. The surface protective film-forming, as well as wear and friction reducing properties of these organic additives on steel balls within paraffin oil (PO), were thoroughly explored using a four-ball tester with variation in time, load and speed. The addition of these additives showed a remarkable reduction of coefficient of friction (COF) and wear amount in compared to the pure base oil. ODE exhibited better performance with a ∼62% reduction in COF and ∼23% reduction in wear amount for steels in contact. Electronic level analysis for elucidating the tribofilm formation capability of the additives was rationalized using computational approaches such as density functional theory (DFT) and Fukui indices. Additionally, the molecular dynamics (MD) simulation which is an efficient computational approach was used to explore the spontaneous adsorption insight of additives; and also radial distribution function (RDF) were analysed to impressively explore the molecular-level interactions and adsorption mechanism of the additives with the metal atoms. Thereby, the mechanism of surface adhesive tribofilm formation and its metal protection capability has been explained in a comprehensive manner. Highlights Diazomethine functionalised organic molecules were synthesized with a variation of aliphatic chain length. Long aliphatic chain containing ODE additive showed enhanced surface protective performances in paraffin oil exhibiting lower COF value in comparison to DDE. Possible formation of ODE-based efficient tribofilm in metal-solution interface which exhibits enhanced surface adsorption property on the metal surface. Substantial decrease in wear upon addition of ODE in the base oil, which was confirmed by FE-SEM and 3D surface profilometer study. MD simulation has been used to investigate the adsorption competence of ODE and DDE on the iron surface.
Udayan Mondal, Sourav Bej, Abhijit Hazra, Sukdeb Mandal, Tapan K. Pal, and Priyabrata Banerjee
Royal Society of Chemistry (RSC)
Amine-functionalized post-synthetically modified d10 MOFs for selective and rapid 'turn-on' recognition of carcinogenic 1,4-dioxane from aqueous medium and vapour phase
Abhijit Hazra, Udayan Mondal, Sukdeb Mandal, and Priyabrata Banerjee
Royal Society of Chemistry (RSC)
A state-of-the-art progression on inkjet-printed luminescent supramolecular conjugated architectures with phenomenal photophysical properties for anti-counterfeiting application and sensory platform formulation for recognition of perilous analytes.
Sirsendu Sengupta, Manilal Murmu, Sukdeb Mandal, Harish Hirani, and Priyabrata Banerjee
Elsevier BV
Sourav Bej, Sukdeb Mandal, Amita Mondal, Tapan K. Pal, and Priyabrata Banerjee
American Chemical Society (ACS)
Herein, two luminescent porous networks (CMERI-1 & CMERI-2) have been reported for the efficient detection of formaldehyde (FA) from aqueous medium. Judicious solvent screening using a high-throughput solvothermal procedure leads to two completely different metal-organic framework (MOFs) with different architectures. It is perceived that the framework CMERI-1 shows better sensitivity with a very short response time (1 min) in the realm of FA detection due to the facile imine (-N═CH-) formation, which is restricted in the case of CMERI-2. The fluorescence "turn-on" behavior is ascribed due to the inhibition of photoinduced electron transfer (PET) (from amine subunit to secondary building unit) process. The detection limits of CMERI-1 & CMERI-2 toward FA in aqueous medium were found to be 0.62 μM (0.019 ppm) and 1.39 μM (0.041 ppm), respectively, that lie far below the intracellular concentration of formaldehyde (100-400 μM). In addition, MOF-based hydrogel membrane was fabricated, which shows vapor-phase detection of FA, which is hitherto unexplored in this realm. Moreover, the response mechanisms of MOFs are supported by density functional theory (DFT) and Fukui indices analysis. The high stability of the porous frameworks along with its interesting sensing features such as fast recognition phenomenon, appreciable detection limit, etc. instigated us to explore its real-world applicability in various food sample and water analyses. In view of the modular design principle of our polymeric probe, the proposed approach could open a new horizon to construct powerful sensing materials for the ultrafast detection of other industrial pollutants in the domain of supramolecular and analytical chemistry.
Manilal Murmu, Sirsendu Sengupta, Ritam Pal, Sukdeb Mandal, Naresh Chandra Murmu, and Priyabrata Banerjee
Royal Society of Chemistry (RSC)
Schiff base derivative of chitosan as biolubricant additive explored in paraffin lube oil.