Antioxidant Properties of Lapachol and Its Derivatives and Their Ability to Chelate Iron (II) Cation: DFT and QTAIM Studies

Pajoudoro, Djafarou Ngouh; Lissouck, Daniel; Amana, Baruch Ateba; Mfomo, Joseph Zobo; Abdallah, Ahmad; Toze, A. A. F.; Mama, Désiré Bikele

doi:10.1155/2020/2103239

Cited by 2 publications

(2 citation statements)

References 38 publications

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“…Determination of heavy metal concentration was performed analytically with the digital UV-spectrophotometer [7]. e collected samples of waste water can be maintained without harming samples biodegradation characteristic and are investigated in [8][9][10][11]. All the reagents used for the analysis were of analytical grade and obtained from Merck and Qualigens brand.…”

Section: Analytical Methodmentioning

confidence: 99%

Determination of Physicochemical Parameters and Levels of Heavy Metals in Food Waste Water with Environmental Effects

Shekhar

et al. 2020

Bioinorganic Chemistry and Applications

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Bioinorganic chemistry is found as a sizzling field in today’s era. It deals with chemistry amongst the heavy metals with natural resources, i.e., air, soil, water, plant byproducts (foods), and environmental essences. The aim of this research is to determine the concentration of heavy metals present in the food waste water sample and to study the environmental effects of metal ion concentration. To conduct the research work, the physicochemical parameters and levels of five heavy metals of food waste water samples were collected from five sampling points of renowned hotels, restaurants, canteens, and confectionaries of a state of India and assessed using the standard analytical procedure. Sampling was carried out from January 2017 up to December 2017. The physicochemical parameters were determined such as pH, temperature, turbidity, conductivity, total dissolved solids, total suspended solids, total alkalinity, biological oxygen demand, chemical oxygen demand, dissolved oxygen, total organic carbon, sulphate, nitrate, and phosphate. The heavy metal concentration was determined by using the UV-spectrophotometer, and the results were compared with the standards prescribed by the WHO, BIS, ICMR, and municipal authorities. The results obtained in the physicochemical analysis revealed that a few parameters were found beyond limits, and the metal ion concentration (iron and zinc) results were found above the permissible limits set by the CPCB (Central Pollution Control Board), ICMR, BIS, and World Health Organization (WHO), most especially, effluent from point P1. It was concluded that all the effluents required further treatment before releasing them into the water body or land to prevent pollution. The obtained results reveal that waste water used for irrigation and farming of nearby areas and water drained from restaurant kitchens were considerably polluted and not suitable for aquatic organisms, irrigation, and agricultural purposes.

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Section: Analytical Methodmentioning

confidence: 99%

Determination of Physicochemical Parameters and Levels of Heavy Metals in Food Waste Water with Environmental Effects

Shekhar

et al. 2020

Bioinorganic Chemistry and Applications

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“…Various tests are conducted to assess the quantity of organic matters such as biochemical oxygen demand (BOD), chemical oxygen demand (COD), and total organic carbon (TOC) involved in land waste water BSs. The physicochemical parameters, namely, pH, temperature, turbidity, BOD, COD, DO, TOC, conductivity, TDS, TSS, total alkalinity, sulphate, nitrate, phosphate, and heavy metal concentrations (iron, copper, lead, nickel, and zinc) are described by APHA (1992) and Guide Manual (Manivasakam N, 2011), ( [16][17][18], Wanga et al, [19], [20], Djafarou, et al, [21], Florencia et al, [22], Djafarou, et al, [21] Kumar et al, [23]. The authors made effort for the treatment of biosolids or sewage sludge for making it more suitable and feasible BS to be used for a real life application.…”

Section: Literature Reviewmentioning

confidence: 99%

Food’s Waste Water Biosolid Assessment against Toxic Element Absorbability of Food’s Cropping Soil Plant by Dominance Theory

Sahu

2021

Adsorption Science & Technology

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The blending of the Food’s Waste Water Biosolid (FWWB) fertilizer with Food’s Cropping Soil (FsCS) results the absorption of the toxic macromicroorganisms from FsCS (is known as absorbability index). It is observed that such as blending not only increase the fertility and productivity of FsCS by neutralizing or absorbing the macromicroorganisms but also catering the necessary nutrition to plants. The authors sensed that a few research works are conducted recently in the dimension of evaluating the best FWWB among available FWWBs under O -(objective) FWWB’s parameter models. On potential analysis of published research works, the authors claimed that there is yet no research document, which can evaluate the best FWWB among available FWWBs or assess the best absorbability index of O -(objective) as well as S -(subjective) FWWB’s model corresponding to evaluated FWWBs or alternative points. It is accepted as a first research challenge. On extensive review, the authors determined that published FWWB’s parameter models are simulated by only single or nondynamic multivariable optimization techniques, which is accepted as a second research challenge. To address both research challenges, preliminary, the authors developed and proposed FWWB’s parameter model, consisted of physical, chemical, and biological parameters corresponding to O and S in nature via auditing a real case of FWWB alternative points such as Narendr Rice Mill- P 1 , Liese Mahamaya Rice Mill- P 2 , Vijay Rice Mill- P 3 , Mahim Rice Mill- P 4 , and Dhansingh Rice Mill- P 5 and their characteristics vs. parameters. Next, the authors framed the FWWB parameter model by acquiring O and S information against O -physical, chemical, and S -biological parameters corresponding to FWWB alternative points. To evaluate the results, the authors applied the robust multiparameter optimization “RMPO” (crisp VIKOR “VIseKriterijumska Optimizacija I Kompromisno Resenje” and FMF “Full Multiplicative Form technique with dominance theory”) approach on defuzzified S -data and O -data to evaluate the best FWWB point among available based on absorbability index assessment. The results are described in summary part.

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Antioxidant Properties of Lapachol and Its Derivatives and Their Ability to Chelate Iron (II) Cation: DFT and QTAIM Studies

Cited by 2 publications

References 38 publications

Determination of Physicochemical Parameters and Levels of Heavy Metals in Food Waste Water with Environmental Effects

Determination of Physicochemical Parameters and Levels of Heavy Metals in Food Waste Water with Environmental Effects

Food’s Waste Water Biosolid Assessment against Toxic Element Absorbability of Food’s Cropping Soil Plant by Dominance Theory

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