Your search keyword '"Rehman, Rabia"' showing total 165 results

151. Microwave assisted synthesis of esterquat for fabric softening applications

Author

Salman, Muhammad, Athar, Makshoof, Umer Shafique, Rehman, Rabia, Waheed Uz, Zaman, and Irshad, Mobina

152. Sorptive removal of lead (II) from water using chemically modified mulch of Madhuca longifolia and Polyalthia longifolia as novel biosorbents.

Author

Rehman, Rabia, Anwar, Jamil, and Mahmud, Tariq

Subjects

LEAD, MADHUCA longifolia, AQUEOUS solutions, THERMODYNAMICS research, SORBENTS

Abstract

In this study, dried leaves (mulch) of Madhuca longifolia and Polyalthia longifolia have been used for removing Pb(II) from aqueous media. Their biosorption capacities were enhanced by chemical treatment using dipping methodology. It is found that formalin modified M. longifolia leaves and acetone modified P. longifolia leaves have greater biosorption capacity as compared to non-modified leaves. After optimizing operational parameters, Langmuir, Freundlich, and Temkin isotherms were applied to equilibrium data for determining maximum biosorption capacities, heat of biosorption, and biosorption intensities. The maximum biosorption capacity "qm" values were 17.18, 25.77, 14.11, 4.50, 8.99, and 6.99 mg/g using simple M. longifolia leaves, base modified M. longifolia leaves, formalin modified M. longifolia leaves, simple P. longifolia leaves, base modified P. longifolia leaves, and acetone modified P. longifolia leaves correspondingly. Thermodynamic revealed that biosorption using these biosorbents occur spontaneously due to larger negative values of ΔG° and kinetic investigations suggested that pseudo-second order of reaction could be applied for explaining the mechanism of biosorption. Nitric acid was found as suitable desorbent for recycling of biosorbents. [ABSTRACT FROM AUTHOR]

Published

2013

153. Mechanistic studies of phytoremediative eradication of brilliant green dye from water by acid-treated Acacia concinna lignocellulosic waste.

Author

Kanwal A, Rehman R, Imran M, Alakhras F, T Al-Thagafi Z, E Al-Hazemi M, Akram M, Dar A, and Ali S

Subjects

Adsorption, Waste Disposal, Fluid methods, Wastewater, Kinetics, Acacia, Lignin, Biodegradation, Environmental, Water Pollutants, Chemical, Coloring Agents

Abstract

A rapidly growing problem for life on earth is contamination of fresh water which is addressed in this article. By taking a glimpse on the causes of contaminations, persistent organic pollutants, especially synthetic dyes got prominent role. Here, out of commonly used techniques, adsorption using plant wastes was chosen for phytofiltration of such dyes. A natural adsorbent from plant source was selected and processed with acid, characterized with FTIR and SEM and then checked the efficacy on cationic dye brilliant green. Phytofiltration of dye was done to check the effectivity of both untreated (OA) and acid treated (OA-AC) form of Acacia concinna biowaste. Results were obtained, evaluated and presented here, giving maximum adsorption capacities (Q m ) of AC and OA-AC 95.24 and 909.09 mg.g -1 , respectively following Langmuir, pseudo second order kinetics and spontaneous exothermic nature, indicating their suitability to adopt on larger scale wastewater treatment effectively using green technology.

Published

2024

154. Process optimization of adsorptive phytoremediation of mutagenic brilliant green dye for health risk management using chemically activated Symplocos racemosa agro-waste.

Author

Rashid M, Rehman R, E Al-Hazemi M, Jahangir MM, T Al-Thagafi Z, I Alsantali R, and Akram M

Subjects

Biodegradation, Environmental, Mutagens, Adsorption, Sodium Hydroxide, Water, Kinetics, Hydrogen-Ion Concentration, Thermodynamics, Coloring Agents chemistry, Water Pollutants, Chemical chemistry, Quaternary Ammonium Compounds

Abstract

Textile industries use large amounts of water as well as dyes. These dyes containing water are then discharged into the water bodies causing a significant role in water pollution. Brilliant Green dye contributes to many harmful diseases related to the respiratory and gastrointestinal tract. In this study, Symplocos racemosa (SR) agro-waste was chemically treated with acid (SR-HCl) and base (SR-NaOH) and then used for removing Brilliant Green Dye (BGD) on the batch scale. They were characterized by SEM, EDX, FTIR, XRD, TGA and DSC. Optimized conditions were 30 °C temperature, pH 6, adsorbent dose of 0.10 g/25 ml dye solution, shaking speed of 100 revolutions per minute, initial dye concentration of 50 ppm and 35 min time for shaking adsorbent and dye solution. Adsorption data obtained were analyzed using isotherms. The experimental data was found to fit well with the Langmuir model and the maximum adsorption capacity (q max ) of BGD on the SR, SR-HCl, and SR-NaOH was revealed to be 62.90, 65.40, and 71 mg/g respectively. Kinetic data (pseudo-first-order and pseudo-second-order) were evaluated and adsorption tends to follow the pseudo-2nd-order, which indicated the chemisorption mechanism. The results revealed that Symplocos racemosa agro-waste can be considered as the potential biosorbent.

Published

2024

155. Effective application of citric acid treated Trapa natans and Citrullus lanatus lignocellulosic macromolecules for adsorptive remediation of acid Violet-7 dye.

Author

Rehman R, Hussain MS, Samin G, Jahangir MM, Dar A, Al-Thagafi ZT, Alsantali RI, Al-Abbad EA, and Akram M

Subjects

Adsorption, Citric Acid, Kinetics, Hydrogen-Ion Concentration, Citrullus, Water Pollutants, Chemical chemistry, Azo Compounds, Naphthalenesulfonates, Lythraceae

Abstract

The peels of Trapa natans (TRA) and Citrullus lanatus (CIT), were modified with a variety of chemicals to boost their surface for the optimization of adsorption performance by providing a greater number of additional active binding sites. Citric acid-processed peels (TRAC and CITC) had shown more favorable adsorption performance to eradicate acid violet 7 dye (AVS). Extra and additional active sites generated after chemical processing, including hydroxyl (OH), carboxyl (COOH), amines NH 2 , carbonyl, and ester (-O-CO-) groups, as evidenced from FTIR and SEM characterizations, may boost the potential of physicochemical integration of adsorbent surface activity in order to promote and encourage the retention of hazardous and risky AVS molecules from the water. The Langmuir isotherm assessed the q max for the adsorption of AVS on TRAC, CITC, TRA, and CIT to be 212.8, 294, 24.3, and 60.6 mg/g, respectively, whereas the correlation coefficients assessed for both TRAC and CITC were 0.98 and for TRA and CIT were 0.97, closer to unity reflecting monolayer physio-sorption. According to Temkin, the adsorption of AVS on TRAC, TRA, CITC, and CIT gives "B T " values of 1.275, 0.947, 1.085, and 1.211 mg/g, also suggesting physio-sorption. Therefore, chemically modified peels can be employed for detoxification of AVS., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

156. Sequestration of cyanide ions from aqueous medium by physio-chemically fabricated biochar of peels of banana and grape fruit in ecofriendly way.

Author

Dar A, Rehman R, Hafeez M, Ul-Ain N, Yaseen G, Anwar J, Uz-Zaman W, T Al-Thagafi Z, E Al-Hazemi M, Akram M, and Sillanpaa M

Subjects

Adsorption, Water Pollutants, Chemical metabolism, Vitis, Biodegradation, Environmental, Sodium Dodecyl Sulfate, Citrus paradisi, Pakistan, Kinetics, Musa chemistry, Charcoal chemistry, Cyanides, Fruit

Abstract

Pakistan is an agricultural country producing plenty of fruits, like: mango, banana, apple, peaches, grapes, plums, variety of citrus fruits including lemon, grapefruit, and oranges. So far the peels of most of the fruits are usually wasted and not properly utilized anywhere. In this work, the peels of banana and grapefruit are converted into biochar by slow pyrolysis under controlled supply of air and used for sequestering cyanide ions from aqueous medium after chemical modification with ZnCl 2 and sodium dodecyl sulfate (SDS). The modified biochar was characterized by various instrumental techniques, like: SEM, FTIR, TGA, and CHNS. Different parameters, like: time, temperature, pH, and dose of adsorbent affecting the adsorption of cyanide ions, onto prepared biochar were optimized and to understand the adsorption phenomenon, kinetic and thermodynamic studies were performed. Concentration of cyanide ions was estimated by employing standard ion selective electrode system and it is found that Sodium Dodecyl Sulfate treated biochar of banana peels shown more adsorption capacity, i.e., : 17.080 mg/g as compared to all samples. Present work revealed that the biochar produced from the fruit waste has sufficient potential to eliminate trace quantities of cyanide from water, especially after treatment with sodium dodecyl sulfate.

Published

2024

157. Phytoremediative adsorption methodologies to decontaminate water from dyes and organic pollutants.

Author

Kanwal A, Rehman R, Imran M, Samin G, Jahangir MM, and Ali S

Abstract

Persistent organic pollutants and dyes cause major problems during ecofriendly wastewater treatment. To overcome this huge problem, several techniques have been considered and in practice for the safe disposal of organic pollutants in recent years; some of them are discussed and compared herein. This review focuses on new trends for wastewater treatment and compares them with certain other techniques alongside their pros and cons; adsorption is considered the safest among them. Adsorbents derived from agri-wastes have good capacity for the removal of these contaminants owing to their great sorption capacity, high reusability, easy operation, etc. Sometimes they need some modifications for the removal of dyes, which are also discussed in this review. This capacity of adsorbents to chelate dye molecules can be affected by factors, such as pH, the concentration of dyes and adsorbents, and temperature of the system. pH has direct influence on the ionization potential and charge on the outer surface of adsorbents. The findings on isotherms, kinetics, and desorption of plant waste-based biomaterials that are safe for the ecosystem and user friendly and are used for hazardous contaminant removal from water are summarized in this review. Finally, conclusions and future perspectives are presented, and some other materials, such as CNTs and MOFs, are also discussed as efficient adsorbents for eliminating dyes from wastewater. Finally, it is predicted that the adsorption of dyes is a more feasible solution for this dye pollution problem., Competing Interests: We have no conflict of interest regarding publication of this paper., (This journal is © The Royal Society of Chemistry.)

Published

2023

158. Separation of Amino Acids, Dyes, and Pigments Using Novel Pressurized Circular TLC Assembly for Secure Medical Imaging Applications.

Author

Dar A, Ahmad MN, Samin G, Jahangir MM, Rehman R, Anwar J, Al-Thagafi ZT, Meraf Z, and Jaber MM

Abstract

A novel pressurized flow system for circular thin-layer chromatography (PC-TLC) has been successfully established and employed for the separation of amino acids, dyes, and pigments for safe medical imaging applications. In this system, the mobile phase is applied to a regular TLC plate through the tube and needle of an intravenous infusion set. The needle was fused in a hole underneath the center of the plate, while the second side end of the tube was connected to a microburette containing the solvent. This new assembly proved itself better in terms of separation time (within 5 minutes) and controlled flow of the solvent and horizontal movement of analyte components over chromatograms with better separation and R f values (glutamine: 0.26, valine: 0.44, phenylalanine: 0.60, chlorophyll a: 0.52, chlorophyll b: 0.43, xanthophyll: 0.18, carotenoid: 0.97, and pheophytin: 0.60) when a number of samples of amino acids, dyes, and pigments were separated by the developed apparatus and the conventional TLC procedure. The developed method was found distinctly rapid, precise, and eco-friendly (less solvent consuming) as compared to traditional ascending TLC., Competing Interests: The authors declare that they have no conflicts of interest regarding the publication of this paper., (Copyright © 2023 Amara Dar et al.)

Published

2023

159. Giant Meckel's Diverticulum as a Cause of Post-traumatic Hemoperitoneum in a 25-Year-Old Male: An Extremely Rare Phenomenon.

Author

Nasir M, Gohar A, Mehmood Qadri H, Qayyum F, Rehman R, Chaudhry H, and Iqbal K

Abstract

Following the "rule of 2", Meckel's Diverticulum (MD) is 2 inches or 5cm long. However, we report the case of an extremely large MD. To the best of our elucidated literature search, it is the first case of Giant Meckel's Diverticulum (GMD) from Pakistan presenting with post-traumatic hemoperitoneum. A 25-year-old Pakistani male presented to a surgical emergency with a two-hour history of generalized abdominal pain after blunt abdominal trauma. An exploratory laparotomy was carried out due to the deranged hemodynamic parameters and free fluid in the abdominopelvic cavity, revealing a 35 centimeters long MD with a bleeding vessel on its tip. Diverticulectomy with the repair of a small intestinal defect was performed after the evacuation of 2.5 liters of clotted blood. Histologic evaluation revealed ectopic gastric tissue. He had an uneventful post-operative stay and was discharged home. The current English scientific literature has adequate case reports documenting the complications of perforation, intestinal obstruction, and diverticulitis of Meckel's Diverticulum (MD) of normal length. However, this case report highlights the significance of an MD with an abnormal length which put the patient's life at risk of death in the setting of normal intra-operative anatomy of all other abdominal organs., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2023, Nasir et al.)

Published

2023

160. Combined molecular dynamics simulations and experimental studies of the removal of cationic dyes on the eco-friendly adsorbent of activated carbon decorated montmorillonite Mt@AC.

Author

Ouachtak H, El Guerdaoui A, El Haouti R, Haounati R, Ighnih H, Toubi Y, Alakhras F, Rehman R, Hafid N, Addi AA, and Taha ML

Abstract

In recent years, the combination of experimental and theoretical study to explain adsorbate/adsorbent interactions has attracted the attention of researchers. In this context, this work aims to study the adsorption of two cationic dyes, namely methylene blue (MB) and crystal violet (CV), on a green adsorbent Montmorillonite@activated carbon (Mt@AC) composite and to explain the adsorption behavior of each dye by the molecular dynamics (MD) simulation method. The eco-friendly nanocomposite Mt@AC is synthesized and characterized by the analysis methods: XRD, FTIR, BET, TGA/DTA, SEM-EDS, EDS-mapping and zeta potential. The experimental results of adsorption equilibrium show that the adsorption of the two dyes is well suited to the Langmuir adsorption model. The maximum adsorption capacity of the two dyes reaches 801.7 mg g -1 for methylene blue and 1110.8 mg g -1 for crystal violet. The experimental kinetics data fit well with a pseudo-first order kinetic model for the two dyes with coefficient of determination R 2 close to unity, non-linear chi-square χ 2 close to zero and lower Root Mean Square Error RMSE ( R 2 → 1 and χ 2 → 0, RMSE lower). Molecular dynamic simulations are run to gain insights on the adsorption process. According to the RDF analysis and interaction energy calculations, the obtained results reveal a better affinity of the CV molecule with both the AC sheet and montmorillonite framework as compared with MB. This finding suggests that CV is adsorbed to a larger extent onto the nanocomposite material which is in good agreement with the adsorption isothermal experiment observations., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

161. Efficacy of Various Types of Berries Extract for the Synthesis of ZnO Nanocomposites and Exploring Their Antimicrobial Potential for Use in Herbal Medicines.

Author

Dar A, Rehman R, Mohyuddin A, Aziz M, Anwar J, Tadele G, Kadhim NM, Alamri AH, and Alzhrani RM

Subjects

Anti-Bacterial Agents chemistry, Escherichia coli, Fruit, Microbial Sensitivity Tests, Plant Extracts chemistry, Plant Extracts pharmacology, Spectroscopy, Fourier Transform Infrared, X-Ray Diffraction, Anti-Infective Agents chemistry, Anti-Infective Agents pharmacology, Plants, Medicinal, Zinc Oxide chemistry, Zinc Oxide pharmacology

Abstract

Nanoscience has developed various greener approaches as an alternate method for the synthesis of nanoparticles and nanocomposites. The present study discusses the efficacy of berries extract for the synthesis of ZnO nanocomposites. Characterization of synthesized nanocomposite were done by SEM, UV/VIS spectrophotometry, Fourier transform infrared (FTIR) spectroscopy, and XRD techniques. The crystalline nature of the synthesized nanoparticles was verified by XRD pattern in the range of 10-80 nm. The UV absorption peak of Elaeagnus umbellata (ZnO-EU) nanocomposite at 340 nm, Rubus idaeus (ZnO-Ri) nanocomposite at 360 nm, and Rubus fruticosus (ZnO-Rf) nanocomposite at 360 nm was observed. The nanocomposites were analyzed for their antimicrobial activity and found to be effective against three phytopathogens. The antimicrobial activity of ZnO nanocomposites showed good results against Escherichia coli ( 341 ), Staphylococcus aureus ( 345B ), and Pseudomonas aeruginosa ( 5994 NLF ). This study presents a simple and inexpensive approach for synthesizing zinc oxide nanocomposites with effective antibacterial activity., Competing Interests: The authors declare that they have no conflicts of interest regarding the publications of this paper., (Copyright © 2022 Amara Dar et al.)

Published

2022

162. Co-composts of sewage sludge, farm manure and rock phosphate can substitute phosphorus fertilizers in rice-wheat cropping system.

Author

Rehman RA and Qayyum MF

Subjects

Farms, Fertilizers, Manure, Phosphates, Phosphorus, Sewage, Soil, Triticum, Composting, Oryza

Abstract

In the present study, various co-composts of sewage sludge (SS), farm manure (FM) and rock phosphate (RP) were prepared and their influence on phosphorus (P) uptake, soil P restoration and growth of rice crop and residual effect on wheat crop were investigated. The treatments comprised of T 1 (control, no amendment), T 2 (452 kg Nitrophos ha -1 , T 3 (724 kg SS 50 :FM 50  ha -1 ), T 4 (594 kg SS 100 :FM 0 ha -1 ), T 5 (728 kg SS 25 :FM 25 :RP 50 ha -1 ), T 6 (726 kg SS 5O :FM 25 :RP 25  ha -1 ), T 7 (508 kg SS 75 :FM 0 :RP 25 ha -1 ), and T 8 (546 kg SS 50 :FM 0 :RP 50 ha -1 ). The post-experimental soil samples were analyzed for pH, EC, OM, Olsen's P. The plant samples (grains and straw of both crops) were analyzed for concentrations of P, and heavy metals. The P adsorption by post-wheat composts-amended soil was tested through Langmuir, and Freundlich adsorption isotherms. The investigated parameters (biomass, grain and straw yield, plant height and P concentrations in plant parts) were significantly increased in all composts as compared to the control treatment. The P uptake by the plants was higher in compost treatments as compared to the control and NP that shows long-term residual effect of applied composts. The maximum grain yield (1.63 Mg ha -1 ) was obtained in T 5 followed by T 6 (1.52 Mg ha -1 ). The P concentration in rice grains were recorded in the trend as T 8 (2.55%) > T 6 (2.24%) > T 4 (1.92%) = T 3 (1.88%) > T 7 (1.62%). It is evident that the combined application of FM (25%) and RP (50%) enhanced the effect of SS (25%) in terms of P bioavailability and yield parameters and can be effectively used as P fertilizer., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

163. Efficiency of various sewage sludges and their biochars in improving selected soil properties and growth of wheat (Triticum aestivum).

Author

Rehman RA, Rizwan M, Qayyum MF, Ali S, Zia-Ur-Rehman M, Zafar-Ul-Hye M, Hafeez F, and Iqbal MF

Subjects

Fertilizers, Soil, Triticum, Charcoal, Sewage, Soil Pollutants

Abstract

Due to increasing demand of P fertilizers and gradual decrease in P resources, recyclable P is the focus of researchers in recent years. Sewage sludge (SS) is a municipal waste that contains appreciable amounts of P and probably other nutrients. In present study, the effects of various SS and their biochars (450 °C for 2 h) were investigated on soil properties and P uptake in wheat (Triticum aestivum) with and without P fertilizer. The biomass of plants and grain yield were significantly increased with application of SS and their biochars as compared to the control treatment either without or with P application. Moreover, there was significant interaction between treatments and P application for the concentration of K, and P in shoots and roots of wheat. Shoot P concentration was not significantly affected with SS than biochars whereas root P concentration was higher in SS treatments than respective biochars. Higher increase in Olsen's P concentration was observed in populated area sludge applied-soil as compared to disposal sludge and their biochars. Overall, it is observed that SS application increased the wheat yield and P concentrations in plants than control depending upon SS types whereas biochar application decreased the P concentration in roots. Grain yield and P concentration in shoots were not significantly affected for the treatment with P fertilizers than without P. Sewage sludge and their biochars might be a potential source of P but further research is needed to recommend the use of modified SS-biochars as source of available P for crops., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

164. Effects of co-composting of farm manure and biochar on plant growth and carbon mineralization in an alkaline soil.

Author

Qayyum MF, Liaquat F, Rehman RA, Gul M, Ul Hye MZ, Rizwan M, and Rehaman MZU

Subjects

Carbon Cycle, Farms, Fertilizers analysis, Triticum growth & development, Carbon metabolism, Charcoal, Composting, Manure, Soil chemistry

Abstract

In the present study, the effects of co-composts of biochar (BC) and farm manure (FM) on the growth of wheat (Triticum aestivum L.) and carbon mineralization in an alkaline soil were investigated. The co-composts of FM and BC were prepared at various ratios (FM 100 :BC 0 , FM 75 :BC 25 , FM 50 :BC 50 , FM 25 :BC 75 , FM 0 :BC 100 ) using aboveground piles and were used in two separate experiments conducted simultaneously. In the plant growth trial, prepared co-composts were applied at a rate of 2% w/w and wheat was grown at two fertilizer levels (half and full) until maturity. In the incubation experiment, same treatments were used and carbon mineralization was studied over a period of 79 days. The priming effect and net CO 2 efflux were calculated using CO 2 release data. Analysis of postincubation soil showed no significant effect of treatments on the pH of soil. However, electrical conductivity and organic matter were significantly influenced by all treatments. The increasing BC ratio in the compost reduced the carbon mineralization in soil in a dose-additive manner. Increase in BC proportion in composts (FM 50 :BC 50 , FM 25 :BC 75 , FM 0 :BC 100 ) stabilized the native carbon of the soil and caused negative priming effect (-1.9, -5.6, and -8.48%, respectively). Regarding plant growth, the results showed an enhancement in the grain yield with the application of compost than control. Total nitrogen (N), phosphorus, and potassium (K) contents of the soil were also increased by the application of compost than control (un-amended soil). Significantly higher N and K concentrations in wheat plants were also examined when soil was treated with compost than control. The use of compost with half fertilizer was better in increasing grain yield, especially with higher BC proportion in the compost than FM.

Published

2017

165. N-[4-(Phenyl-imino-meth-yl)phen-yl]acetamide 0.67-hydrate.

Author

Mahmud T, Thebo KH, Rehman R, Malik MA, and Helliwell M

Abstract

The title compound, C(15)H(14)N(2)O·0.67H(2)O, was prepared by the reaction of 4-acetoamine-benzaldehyde and aniline. The asymmetric unit contains six organic mol-ecules and four water mol-ecules. The dihedral angles between the aromatic ring planes in each organic mol-ecule vary from 42.4 (2) to 53.8 (2)°. In the crystal, an extensive network of inter-molecular N-H⋯O, O-H⋯N and O-H⋯O hydrogen bonds link the mol-ecules into [010] chains.

Published

2010