Your search keyword '"Mohamed Aly Saad Aly"' showing total 3 results

1. Synthesis and Characterization of a Mixed Nanofertilizer Influencing the Nutrient Use Efficiency, Productivity, and Nutritive Value of Tomato Fruits

Author

Mohamed Aly Saad Aly, Nazmul Hasan, Fanyi Ma, Zaved Hossain Khan, Hafizur Rahman, and Shireen Nigar

Subjects

Antioxidant, Chemistry, Vegetative reproduction, General Chemical Engineering, medicine.medical_treatment, food and beverages, General Chemistry, engineering.material, Photosynthesis, Article, Animal science, Nutrient, Root length, Productivity (ecology), Crop production, medicine, engineering, Fertilizer, QD1-999

Abstract

Due to the higher potential for enhancing nutrient use efficiency, nanofertilizer (NF) is crucial in sustainable crop production. Thus, foliar-applied mixed nanofertilizer (MNFf) and commercial fertilizer (CF) into the soil (CFs) were claimed together ([MNFf + CFs]) and comparative nutrient use efficiency (NUE), productivity, and nutritional properties of tomato fruits were investigated. The mixed nanofertilizer (MNF) was prepared in our laboratory and characterized using scanning electron microscopy, X-ray diffraction, and Fourier transform infrared. To avoid the interference of other factors, all the treatments were divided into three groups: (i) blank treatment (no fertilizer), (ii) CF treatment, and (iii) combined [MNFf + CFs] treatment. The vegetative growth and qualitative and quantitative attributes of tomatoes were recorded, and the NUE, total production, and benefit–cost ratio (BCR) were also calculated. In addition, comparative nutritional properties for all treatments were analyzed. The plant’s height, stem diameter, root length, photosynthetic pigments, leaf minerals, and qualitative traits of tomato fruits were significantly (p < 0.05) increased by [MNFf + CFs] treatment compared to CFs. The protein, fiber, Fe, Zn, and K contents were significantly (p < 0.05) increased by 23.80, 38.10, 44.23, 60.01, and 2.39%, respectively, with the [MNFf + CFs] treatment as compared to CFs, while the ash and protein contents were both lower than the untreated tomato. Moreover, [MNFf + CFs] treatment has significantly (p < 0.05) increased the antioxidant properties. The NUE, total production, and BCR were also increased by 26.08, 26.04, and 25.38%, respectively, with the same treatment. Thus, [MNFf + CFs] treatment could be a potential alternative for reducing the excess use of CF.

Published

2021

2. Formulation of a Hybrid Nanofertilizer for Slow and Sustainable Release of Micronutrients

Author

Rakibul Islam, Chaitaly Tarafder, Md. Zaved Hossain Khan, M. S. Ahommed, Md. Morshed Alam, M. Daizy, Mohamed Aly Saad Aly, Md. Jahidul Islam, and Md. Ripon Ali

Subjects

inorganic chemicals, Chemistry, Nutrient, Work (electrical), General Chemical Engineering, embryonic structures, Environmental engineering, Environmental science, General Chemistry, Micronutrient, QD1-999, digestive system, Article

Abstract

In this work, we have proposed a new formulation of a hybrid nanofertilizer (HNF) for slow and sustainable release of nutrients into soil and water. Urea-modified hydroxyapatite was synthesized, which is a rich source of nitrogen, calcium, and phosphate. Nanoparticles such as copper, iron, and zinc were incorporated into urea-modified hydroxyapatite to increase the efficiency of the proposed fertilizer. Different techniques including powder X-ray powder diffraction, Fourier-transform infrared spectroscopy, and scanning electron microscopy were used to get insight into the properties, morphology, and structure of the as-prepared fertilizer. The developed HNF was used in a field experiment on the ladies’ finger (Abelmoschus esculentus) plant. The slow release of HNF was observed during leaching studies and confirmed the availability of Ca2+, PO43–, NO2–, NO3–, Cu2+, Fe2+, and Zn2+. Furthermore, the presence of Cu2+, Fe2+, and Zn2+ nutrients in ladies’ finger was confirmed by the inductively coupled plasma-optical emission spectrometry (ICP-OES) experiment. A considerable increase in the physicochemical properties such as swelling ratio and water absorption and retention capacities of the proposed fertilizer was observed, which makes the fertilizer more attractive and beneficial compared with the commercial fertilizer. The composition of the proposed HNF was functionally valuable for slow and sustainable release of plant nutrients. The dose of prepared HNF applied was 50 mg/week, whereas the commercial fertilizer was applied at a dose of 5 g/week to A. esculentus. The obtained results showed a significant increase of Cu2+, Fe2+, and Zn2+ nutrient uptake in A. esculentus as a result of slow release from HNF.

Published

2020

3. Electrochemical Detection of Melamine by Using Reduced Graphene Oxide–Copper Nanoflowers Modified Glassy Carbon Electrode

Author

Zaved Hossain Khan, M. R. Al-Mamun, Chaitaly Tarafder, Xiuhua Liu, M. Daizy, and Mohamed Aly Saad Aly

Subjects

Detection limit, Working electrode, Materials science, Graphene, General Chemical Engineering, Analytical chemistry, General Chemistry, Nanoflower, Ascorbic acid, Article, law.invention, Electrochemical gas sensor, Chemistry, chemistry.chemical_compound, chemistry, law, Melamine, QD1-999, Voltammetry

Abstract

In this work, a robust and reliable electrochemical sensor was developed for sensitive detection of non-electroactive melamine (MEL) using a modified glassy carbon electrode with ascorbic acid (AA) as the active recognition element. To increase the current signal of AA, the working electrode was successively modified with l-arginine (l-Arg) and reduced graphene oxide-copper nanoflower composite. The voltammetry measurements denoted that the hydrogen bonding was formed between AA and MEL. Using the optimum conditions, the proposed enhanced sensor can detect MEL concentrations ranging from 10 × 10-9 to 9.0 × 10-8 M with a detection limit of 5.0 × 10-9 M that is proportional to the decrease of AA in the anodic peak current. Finally, the proposed sensor was successfully applied for the determination of MEL in commercial infant milk samples and good recovery values were obtained.

Published

2019