Search

Your search keyword '"Onwudiwe, Damian Chinedu"' showing total 26 results
Start Over Author "Onwudiwe, Damian Chinedu" Publication Year Range Last 50 years
26 results on '"Onwudiwe, Damian Chinedu"'

4. Dual narrowband photodetectors based on halide perovskite single crystal heterojunctions with solution-processed epitaxial growth.

Author

Zhang, Dan, Pan, Yuzhu, Wang, Xin, Wei, Ziyu, Xu, Yubing, Onwudiwe, Damian Chinedu, Bae, Byung Seong, Ertuğrul, Mehmet, Zhou, Jianming, Xu, Xiaobao, and Lei, Wei

Abstract

Dual-band photodetectors (PDs), which can sense two specific bands simultaneously or alternately, have great applications in spectral analysis, imaging, optical communication, and so on. However, some studies on dual-band PDs are mostly limited by drawbacks such as high cost, fixed dual-band range, and lattice mismatches between interfaces. Herein, we propose organic–inorganic halide perovskite single crystal heterojunctions (PSCHs) for dual-band detection via solution-processed epitaxial growth, with a structure of bismuth doped MAPbCl3/intrinsic MAPbBrxCl3−x/bismuth doped MAPbIyBr3−y/intrinsic MAPbIzBr3−z (where x, y, and z are between 0 and 1). The peak position and the full-width at half maximum (FWHM) value of dual-band PDs can be adjusted by changing the proportion of halide in the perovskite single crystal layers in the device, achieving different dual-band spectral response ranges. Eventually, a device exhibits two farthest peaks at 465 nm and 820 nm of visible (Vis)/near-infrared (NIR) range with the corresponding FWHM values of 22.6 nm and 19.4 nm under 2 V. The PSCH-based device can be called dual narrowband PD exhibiting good stability and a response speed of hundreds of microseconds, attributed to the small lattice mismatch and heterostructure. It also shows a high spectral rejection ratio (∼360). In conclusion, this article proposes an approach for customizing dual narrowband PDs with tunable spectral response ranges based on solution-processed epitaxial growth. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

5. Working Voltage Switching the Photo-/Thermo-Electric Effect for Distinct Ultraviolet and Infrared Signal Detection

Author

Liu, Shilin, Ding, Yijing, Rong, Wenzhe, Xu, Yi, Li, Yuwei, Onwudiwe, Damian Chinedu, Bae, Byung Seong, Ertuğrul, Mehmet, Zhu, Ying, Wu, Zhong, Lei, Wei, Li, Qing, and Xu, Xiaobao

Abstract

The combination of sensing invisible ultraviolet photons and infrared radiation can significantly enhance target recognition by offsetting their own limit in a short sensing range and poor spatial resolution. However, the difference in their wavelength sets unique requirements for sensing materials and devices, which makes it hard to establish their implementation in a single detector. In this work, we present the design of a single detector with CH3NH3PbCl3(MAPbCl3) for distinguishing ultraviolet and IR signals by switching its operating mode in the photo-/thermo-electric effect. The large optical band gap of ∼3.2 eV in MAPbCl3ensures the response toward an ultraviolet photon, while its efficient thermoelectric effect allows the sensing of an IR signal. As a result, the detector exhibits a specific detectivity of 4.5 × 1012Jones for 395 nm ultraviolet photons under 0 V, while under the working voltage of 2.5 V, it demonstrates a superior temperature coefficient of resistance of −3.7% K–1, a specific detectivity of 4.8 × 108Jones, and a limit of detection of 0.58 mW/cm2for 4 μm photons. The functionality of the switching response to ultraviolet or IR photons by working voltage allows background subtraction and enhances the target discrimination in the imaging.

Published
2024
Full Text
View/download PDF

7. Sensitive Thermography via Sensing Visible Photons Detected from the Manipulation of the Trap State in MAPbX3

Author

Xu, Yubing, primary, Wang, Xin, additional, Liu, Shilin, additional, Pan, Yuzhu, additional, Perveen, Abida, additional, Onwudiwe, Damian Chinedu, additional, Fayemi, Omolola Esther, additional, Elemike, Elias Emeka, additional, Bae, Byung Seong, additional, Zhu, Ying, additional, Talaighil, Razika Zair, additional, Zhang, Xiaobing, additional, Chen, Jing, additional, Zhao, Zhiwei, additional, Li, Qing, additional, Lei, Wei, additional, and Xu, Xiaobao, additional

Published
2023
Full Text
View/download PDF

8. Spray‐Coated Inorganic Lead‐Free Double Perovskite Cs2AgBiBr6 Based Large‐Scale Triboelectric Nanogenerator for Enhanced Energy Harvesting

Author

Wang, Mengrou, primary, Zhao, Jingda, additional, Xu, Yubing, additional, Wang, Xin, additional, Onwudiwe, Damian Chinedu, additional, Fayemi, Omolola Esther, additional, Elemike, Elias Emeka, additional, Bae, Byung Seong, additional, Zhu, Ying, additional, Zhu, Zhuoya, additional, Zhao, Zhiwei, additional, Li, Qing, additional, and Lei, Wei, additional

Published
2023
Full Text
View/download PDF

9. Bismuth-doping induced red-shifted spectral response of homo-epitaxial MAPbBr3 photodiodes.

Author

Xu, Yubing, Wang, Xin, Pan, Yuzhu, Chai, ShunJie, Wu, Jie, Wang, Mengrou, Perveen, Abida, Onwudiwe, Damian Chinedu, Talaighil, Razika Zair, Bae, Byung Seong, Zhu, Ying, Chen, Jing, and Lei, Wei

Subjects
SPECTRAL sensitivity, PHOTODIODES, ELECTRON pairs, SINGLE crystals, DOPING agents (Chemistry)
Abstract

Perovskite single crystals (PSCs) photodiodes with p–n junctions have been widely studied due to their effective blocking of injected current with barriers and quickly separating the electrons and hole pairs with a built-in electric field. Here, we report a solution-processed epitaxial (SPE) growth method to fabricate p–n photodiodes based on MAPbBr3 PSCs. In the structure of the MAPbBr3 PSCs, bismuth donor doping will change the conduction type from p-type to n-type and redshift the absorption edge along with the increase in Bi concentration. Therefore, this work successfully fabricates the p–n photodiodes with homo-epitaxial Bi-doped (n-type) MAPbBr3 layers grown on the surface of undoped (p-type) MAPbBr3 PSCs substrates through the SPE growth method. The p–n photodiodes achieve a tunable spectral response by simply adjusting the Bi doping concentrations of homo-epitaxial MAPbBr3 layers. The spectral response peaks redshift from 559 to 601 nm, with an increasing Bi doping level of 0% to 15%. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

10. Ceramic-polymer composite membranes: Synthesis methods and environmental applications

Author

Onwudiwe, Damian Chinedu- 23567856, Sawunyama, Lawrence, Ajiboye, Timothy O., Oyewo, Ajiboye O., Onwudiwe, Damian C., Onwudiwe, Damian Chinedu- 23567856, Sawunyama, Lawrence, Ajiboye, Timothy O., Oyewo, Ajiboye O., and Onwudiwe, Damian C.

Abstract

The increase in demand for membranes with effective performance and unlimited durability for environmental applications has inspired renewed interest in studies focusing on novel or modified methods of improving pristine membranes. Studies have recently focused on the fabrication of ceramic-polymer composite membranes as one of the strategies for modifying ceramic membranes. The resulting composite combines the merits of the two components of the membranes, thereby resulting in improved membrane properties such as structural integrity, selectivity, penetration rate, chemical and thermal stability, and fouling resistance. The different methods of fabricating ceramic-polymer membranes including the dip coating method, interfacial polymeriza tion, graft polymerization, electrostatic self-assembly, and blending are extensively discussed. Factors that affect each fabrication technique were also presented. Furthermore, the environmental applications of ceramic polymer composite membranes are highlighted, and their use in areas such as wastewater treatment, pervapo ration, and desalination are discussed. Finally, challenges and future proposals for improving ceramic-polymer composite membrane performance and potential applications are addressed.

Published
2023

11. Facile synthesis of carbon dots by the hydrothermal carbonization of avocado peels and evaluation of the photocatalytic property

Author

Onwudiwe, Damian Chinedu- 23567856, Ferjani, Hela, Abdalla, Sahar, Oyewo, Opeyemi A., Onwudiwe, Damian C., Onwudiwe, Damian Chinedu- 23567856, Ferjani, Hela, Abdalla, Sahar, Oyewo, Opeyemi A., and Onwudiwe, Damian C.

Abstract

The preparation of carbon quantum dots (CQDs) from agricultural waste sources stands out as a significant type of biomass-based nanomaterials. This is primarily because of their minute size, exceptional water solubility, lack of toxicity, and impressive stability. Here, carbon quantum dots (CQDs) were successfully prepared by a one-step hydrothermal method using the waste from Avocado peels and only water as solvent. Physicochemical properties of the CQDs were characterized by UV–vis, PL, FTIR, XRD, SEM, TEM, and HRTEM. The diameter of the CQDs was found to satisfy the quantum size effect and this was also supported by the reduced graphitization. The CQDs were used for the removal of methyl orange (MO), a common anionic dye, from an aqueous solution. The effectiveness of MO removal was directly related to the pH and the amount of the nanomaterial used. Under optimal experimental conditions, with a 7.5 mg catalyst dose, a 120-minute reaction time, and a pH of 10, the maximum degradation of MO (78 %) was achieved

Published
2023

12. Dual S-scheme heterojunction g-C3N4/Bi2S3/CuS composite with enhanced photocatalytic activity for methyl orange degradation

Author

Onwudiwe, Damian Chinedu- 23567856, Onwudiwe, Damian C., Olatunde, Olalekan C., Nkwe, Violet M., Smida, Youssef Ben, Ferjani, Hela, Onwudiwe, Damian Chinedu- 23567856, Onwudiwe, Damian C., Olatunde, Olalekan C., Nkwe, Violet M., Smida, Youssef Ben, and Ferjani, Hela

Abstract

Weak redox potential and high recombination of charge carriers are two main factors that limit the efficiency of photocatalysts in wastewater treatment. In this study, the synthesis of heterostructure photocatalyst (composed of graphitic carbon nitride, bismuth sulphide, and copper sulphide (g-C3N4/Bi2S3/CuS)) with improved charge carrier separation and tuned redox potential for improved photocatalysis of methyl orange (MO) dye is reported. The band alignment of the synthesized heterostructure exhibited a synergistic effect, significantly enhancing charge carrier separation and mitigating their recombination. The g-C3N4/Bi2S3/CuS composite exhibited enhanced photocatalytic efficiency compared to the pristine g-C3N4, Bi2S3, and CuS. Furthermore, the activity of the heterostructure was observed to increase as the ratio of CuS in the photocatalyst was increased. The highest photocatalytic efficiency was recorded for the g-C3N4/Bi2S3/CuS(20%), which achieved 98% degradation effi ciency and reaction rate constant (k) of 8.08 ×10-2 min 1. Radical scavenging experiments showed that ⋅OH, e-, and h+played significant roles in the degradation process. A charge transfer scheme and mechanism of reaction were proposed on this basis.

Published
2023

13. High Dietary Marula (Sclerocarya birrea subsp. caffra) Seed (nut) Cake Induces Detrimental Effects on Performance, Carcass Characteristics and Immuno-Physiology of Broiler Chickens

Author

Mthana, Makiwa Simeon, Mthiyane, Doctor Mziwenkosi Nhlanhla, Onwudiwe, Damian Chinedu, and Mwanza, Mulunda

Subjects
life_sciences_other
Abstract

In a completely randomized design (CRD), 400 day-old Ross 308 broilers were randomly allotted to 5 diets with 0, 5, 10, 15 and 20% MSC, each with 8 replicates of 10. Weekly feed intake (FI), body weight gain (BWG) and feed conversion efficiency (FCE) were calculated whilst haemato-biochemistry was measured at d42. Overall, FI was linearly (P < 0.05) and quadratically (P < 0.01) decreased by MSC, of which the optimum inclusion was 15%, as BWG was linearly (P < 0.001) and quadratically (P < 0.05) decreased and FCE linearly decreased (P < 0.01) by MSC, of which the optimum dietary inclusion was 10%. Also, MSC linearly and quadratically decreased slaughter weight (P < 0.001 and P < 0.05, respectively), hot carcass weight (P < 0.001 and P < 0.05, respectively) and cold carcass weight (P < 0.001 and P < 0.05, respectively). Similarly, it linearly decreased white blood cells (P < 0.01) and lymphocytes (P < 0.05) as it linearly (P < 0.001) and quadratically (P < 0.01) decreased symmetric dimethylarginine (SDMA) and linearly (P < 0.001) increased serum cholesterol. In conclusion, up to 10% MSC can be incorporated into broiler diets in replacement of SBM without adverse effects.

Published
2023

14. Spray‐Coated Inorganic Lead‐Free Double Perovskite Cs2AgBiBr6 Based Large‐Scale Triboelectric Nanogenerator for Enhanced Energy Harvesting.

Author

Wang, Mengrou, Zhao, Jingda, Xu, Yubing, Wang, Xin, Onwudiwe, Damian Chinedu, Fayemi, Omolola Esther, Elemike, Elias Emeka, Bae, Byung Seong, Zhu, Ying, Zhu, Zhuoya, Zhao, Zhiwei, Li, Qing, and Lei, Wei

Subjects
ENERGY harvesting, ENERGY conversion, ENERGY consumption, TERMINAL velocity, OPEN-circuit voltage, PEROVSKITE, TRIBOELECTRICITY
Abstract

Low‐cost and efficient large‐scale triboelectric nanogenerator (TENG) is considered as the new scheme for distributed mechanical conversion or renewable energy utilization. An extremely popular all‐inorganic lead‐free double perovskite Cs2AgBiBr6 (CABB) has emerged as extraordinary potential material in triboelectric semiconductors' substitution, overcoming high‐impedance limitations associated with organic‐polymer‐insulator based materials. In this study, assembled by the certified available positive frictional material CABB, TENG with sandwiched structure of ITO/compact‐TiO2/mesoporous‐TiO2/CABB – the poly‐tetra‐fluoroethylene/Al exhibits appropriate performance on environmental stability and output capacity for which structure can impede charges decay. Fabrication process comparison shows that as an inexpensive large‐scale functional films preparation method, sprayed CABB TENG with brilliant relative dielectric constant and work function difference possess more distinguished output characteristics. This is confirmed by higher open‐circuit voltage of 105 V, larger short‐current density of 2.45 mA m−2 at 0.25 Hz motion parameter, and more abundant output power density of 0.76 W m−2 under 10 Hz. Further study confirms that both higher frequency and larger contact‐area are conducive to total output power, while terminal charging speed is inversely or positively proportional with capacitance or mechanical frequency. Final physical display effect of sprayed CABB TENG lights up at least 53 commercial yellow‐LEDs, holding decent energy conversion ability. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

18. Facile and Green Route to Silver Nanoparticles Using Aqueous Plant Extract, and their Photocatalytic and Antibacterial Studies.

Author

ELEMIKE, Elias Emeka, ONWUDIWE, Damian Chinedu, SAIYED, Tanzim, EKENNIA, Anthony Chinonso, and AZEEZ, Mayowa Akeem

Subjects
*SILVER nanoparticles, *PLANT extracts, *ALLIUM fistulosum, *SURFACE plasmon resonance, *NANOPARTICLES, *TRANSMISSION electron microscopes
Abstract

Silver nanoparticles were prepared through an environmental friendly and cost-effective plant-mediated technique, using crude extracts of Welsh onion plant. The synthesized nanoparticles were characterized using UV-vis spectrophotometer, powdered X-ray diffractometer (p-XRD), Fourier transform infra-red (FTIR) spectrophotometer, and transmission electron microscope (TEM). Silver nanoparticles of different sizes and morphologies were obtained by varying some synthesis parameters such as concentrations of AgNO3 (1, 2 and 5 mM) and ratio of the volume of the plant extract to AgNO3 (1:5 and 1:10) at constant reaction temperature of 80 °C. The difference in the reaction conditions showed significant effects on silver nanoparticles obtained. The surface plasmon resonance (SPR) varied with change in concentration of AgNO3 and the ratio of the AgNO3 to the plant extracts. The lowest SPR appeared around 412 nm (2 mM; 1:10), while the largest was achieved around 427 nm (5 mM; 1:10). FTIR results revealed the presence of different characteristic functional groups responsible for the bioreduction of silver ions in Welsh onion extract. Transmission electron microscopy (TEM) showed that the lowest average particle size of the silver nanoparticles was 3.74 nm (2 mM; 1:10), while the highest was 15.72 nm (1 mM; 1:5). Monodispersed spherical shaped nanoparticles were obtained from the 2 mM concentration of the AgNO3, while particles with some degree of agglomeration were obtained from 1 and 5 mM concentration. The p-XRD studies revealed face centred cubic structures. The nanoparticles obtained from 1 and 5 mM (1:5) gave moderate photo-catalytic potentials in the degradation of methyl red dye. However, the photocatalytic property increased with increase in the concentration of the precursor salt (AgNO3) from 1 to 5 mM. Gram positive Staphylococcus aureus and Bacillus cereus and Gram negative Klebsiela pneumonia and Escherichia coli bacteria strains were susceptible to the silver nanoparticles (2 mM). The nanoparticles were most active against E. coli with a minimum inhibitory concentration (MIC) below 0.05 mg/mL. The silver nanoparticles could become potential compounds in the future antibiotic research. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

20. Spectral, thermal stability and antibacterial studies of copper, nickel and cobalt complexes of N-methyl-N-phenyl dithiocarbamate

Author

23567856 - Onwudiwe, Damian Chinedu, Ekennia, Anthony C., Onwudiwe, Damian C., Osowole, Aderoju A., 23567856 - Onwudiwe, Damian Chinedu, Ekennia, Anthony C., Onwudiwe, Damian C., and Osowole, Aderoju A.

Abstract

Copper(II), cobalt(II) and nickel(II) bis(N-methyl-N-phenyl dithiocarbamate) complexes having the general formula [M{S2CN(MePh)}2] (where M = Cu, Co and Ni) have been prepared and characterized by spectral and thermal analysis. The IR spectra suggest that coordination of dithiocarbamate (DTC) occurred through the two sulfur atoms in a symmetrical bidentate fashion. The electronic spectra, conductance measurement and magnetic moment analysis support the proposed geometry for the electronically dilute complexes. The results of the thermal analysis showed that after dehydration, a one-step decomposition pattern leading to the formation of respective metal sulfide as the end-product occurred. The results are consistent with the proposed composition of the complexes. The in vitro antibacterial activity of the complexes was investigated against strains of gram-negative Escherichia coli, Klebsiella oxytoea and Pseudomonas aureginosa, and gram-positive Bacillus cereus, Staphylococcus aureus and Protues mirabilis. The antibacterial activity of the complexes compared favorably with that of streptomycin and augmentine against S. aureus and B. cereus. The cobalt complex had the best antibacterial activity against the test compounds with inhibitory zone range of 11–14.5 mm

Published
2015

21. Bis diallyl dithiocarbamate Pt(II) complex: synthesis, characterization, thermal decomposition studies, and experimental and theoretical studies on its crystal structure

Author

23567856 - Onwudiwe, Damian Chinedu, 25678574 - Mugo, Jane Ngima, Onwudiwe, Damian C., Mugo, Jane N., Hrubaru, Madalina, Hosten, Eric, 23567856 - Onwudiwe, Damian Chinedu, 25678574 - Mugo, Jane Ngima, Onwudiwe, Damian C., Mugo, Jane N., Hrubaru, Madalina, and Hosten, Eric

Abstract

Platinum dithiocarbamate (DTC) complex has been synthesized from the ligand diallyl DTC, and its structure was established from elemental analysis, IR, NMR, and single-crystal X-ray analyses to be Pt[S2CN(C3H5)2]2. The thermal properties were studied using a simultaneous thermal analyzer, and showed two main steps of decomposition. The structural geometry analysis was determined using X-ray diffraction and Density Functional Theory (DFT) calculations. The single-crystal X-ray analysis showed that the complex has a square planar geometry. The diallyl groups of the DTC ligands are not symmetrical making the complex non-centrosymmetric, and the complexes are stacked with intermolecular ring–ring interactions. The DFT calculations were performed to obtain the theoretical information and compared with the experimental data obtained from the experimental crystal structure

Published
2015

22. Copper chalcogenide nanoparticles as photocatalysts for the removal of pharmaceuticals from water

Author

Ravele, Murendeni Patriciah, Onwudiwe, D.C., Oyewo, O.A., and 23567856 - Onwudiwe, Damian Chinedu (Supervisor)

Abstract

MSc (Chemistry), North-West University, Mahikeng Campus In recent years, the development of efficient catalytic materials to degrade emerging contaminants in water has become a major research topic. This is due to an increased release of these types of contaminants into the environment and the inability of conventional technologies to remove them. Advanced oxidation processes (AOPs), which utilize generated reactive radicals to effect the degradation of molecules, have gained significant attention, not only because they can completely degrade emerging contaminants, but because they are environmentally friendly, cost-effective, and they have the potential mineralization of pollutants without generation of secondary waste. More attention is specifically focused on the use of semiconductor nanoparticles as catalysts for the generation of radical species in AOPs. Copper chalcogenides CuE (E = O, S) are promising semiconductor materials with various stoichiometric phases that influence their optical and structural properties. These stoichiometric phases are dependent on the methods of preparation, which, when meticulously manipulated, could be used to obtain a wide array of materials with varying properties. This dissertation demonstrated control over stoichiometric phases of Cu2-xS using copper(II)dithiocarbamate complex as a single- source precursor by varying reaction parameters such as type of capping agent used and reaction temperature. While for CuO nanoparticles, copper(II)acetate monohydrate was used as the single- source precursor at different calcination temperatures. Solvothermal decomposition of copper(II) dithiocarbamate complex in dodecanthiol(DDT) was used to prepare pure phase djuleite(Cu31S16) at 120 and 150 °C and roxbyite (Cu7S4) at 220 and 250 °C, while oleylamine was employed in the synthesis of pure phase CuS (covellite) at 120 °C and Cu9S5(degenite) at 220 °C. In between these two temperature extremes, mixed phases were obtained that were not subjected to further characterization. Copper oxide nanoparticles were prepared via the thermal decomposition of copper(II)acetate monohydrate at three different temperatures, which were informed by the decomposition profile of the complex when analyzed by thermogravimetric analysis. The as- prepared pure phase copper chalcogenide nanoparticles were further characterized using scanning electron microscope (SEM), transmission electron microscope (TEM), and UV-visible absorption spectroscopy. The morphologies of the copper sulfides varied from pseudo spherical to spherical, and it was interesting to observe the digenite displayed rod shape morphology despite being prepared from the same precursor compound. The copper sulfide samples were used as photocatalysts to degrade tetracycline (TC) as model antibiotics under visible light irradiation. The results of the study showed varying degradation efficiencies with Cu7S4 (250 °C) exhibiting the best activity in the reaction system of up to 99% within 120 min of light exposure, compared to CuS, Cu9S5, Cu31S16 (120 °C), Cu31S16 (150 °C) and (Cu7S4 (220 °C) which degraded 88, 98.5, 46.5, 85 and 90 % respectively under the same conditions. The copper oxides of pure phases, obtained at 350 and 400 °C, labeled as CuO (350°C) and CuO (400 °C), respectively, were used to degrade acyclovir (ACV) as model antiviral. Both samples (CuO at 350°C and CuO at 400 °C) demonstrated high and comparable removal efficiency of 96.61 and 99.55 %, respectively, after 120 min. The results of this study confirm the potential of copper chalcogenides as semiconductor catalysts for the degradation of pharmaceuticals from an aqueous solution. In addition, the results showed that the phase of the chalcogenide affects the degradation efficiency. Masters

Published
2022

23. Oral Tulbaghia violacea extract-based nano-ZnO administration in piglets fed diets supplemented with naturally mycotoxin-contaminated marula seed cake

Author

Mbenga, Yamkela, Mthiyane, D.M.N., Mazibuko-Mbeje, S.E., Mwanza, M., Onwudiwe, D.C., 23567856 - Onwudiwe, Damian Chinedu (Supervisor), 36588296 - Mazibuko-Mbeje, Sithandiwe (Supervisor), 24059676 - Mwanza, Mulunda (Supervisor), and 35334355 - Mthiyane, Doctor Mziwe Nkosi (Supervisor)

Subjects
Piglets, Tulbaghia violacea, Zinc oxide nanoparticles, Marula seed cake
Abstract

MSc (Animal Science), North-West University, Mahikeng Campus The high costs of conventional protein sources such as soya bean meal (SBM) have prompted the search for a cheaper alternative and readily available protein sources like marula seed cake (MSC) for pig production, particularly by smallholder farmers in Southern Africa. Marula seed cake (MSC) has a high crude protein and amino acid content similarly to SBM. Due to its high content of protein and residual oil, both of which provide ideal conditions for the growth and proliferation of toxigenic fungi, MSC is however naturally contaminated with mycotoxins. Mycotoxins are known to induce deleterious effects and cause economic losses in pigs by causing reduced growth, immunosuppression and other effects. Hence the need to find strategies to counter their deleterious effects in pigs fed MSC-supplemented diets. This study was aimed at investigating ameliorative effects of T. violacea bulb extract bio-fabricated zinc oxide (ZnO) nanoparticles (Nano-ZnO) in piglets fed diets supplemented with naturally mycotoxin-contaminated MSC. Nano-ZnO was phyto-synthesized using the aqueous leaf extract of T. violacea as reducing and stabilizing agent. The synthesized ZnO NPs were characterized by techniques including X-ray diffraction (XRD), UV–visible spectroscopy, transmission electron microscopy (TEM), and scanning electron microscopy (SEM) coupled with energy dispersive X-ray (EDX) spectrometer. The morphological studies confirmed that the as-prepared ZnO NPs were spherical, with an average particle diameter of 45.26 nm. The PXRD pattern indicated single-phase hexagonal ZnO NPs with high crystallinity, while the absorption spectra showed evidence of quantum size effect. The Nano-ZnO were applied in a piglet feeding trial by orally administering (gavaging) them to piglets fed diets supplemented with naturally-mycotoxin contaminated MSC. A total of 60, 4-week old weaned Large White piglets were randomly allocated to two (2) iso-energetic and iso-nitrogenous diets formulated by replacing SBM (Control; 0% MSC) (Group A) with MSC (Treatment; 20% MSC) (Group B). Once-daily, Group A piglets (0% MSC) were orally drenched with 10 mL of the vehicle (25% ethanol in water; 25 parts ethanol: 75 parts water, v/v) whilst Group B piglets (20% MSC) were similarly orally drenched with an equivalent volume of the: vehicle (25% ethanol) (Group B1), 50 mg/L of bulk ZnO in 25% ethanol (Group B2), 50 mg/L of chemically-synthesised Nano-ZnO in 25% ethanol (Group B3), and 50 mg/L of green (T. violacea bulb extract-fabricated) Nano-ZnO in 25% ethanol (Group B4). Average feed intake (FI) and body weight gain (BWG) were measured weekly, and then feed conversion efficiency (FCE) was calculated by dividing the BWG by the FI. On day 33, blood was collected for serum analysis, and all animals were slaughtered after which carcass and meat quality measurements were taken. The ... Masters

Published
2022

24. Graphene oxide supported ternary metal sulphides as photocatalyst for the degradation of emerging contaminants

Author

Olatunde, Olalekan Christian, Onwudiwe, D.C., Kuvarega, A.T., and 23567856 - Onwudiwe, Damian Chinedu (Supervisor)

Subjects
Dithiocarbamate, Photocatalyst, Advanced oxidation processes, Single source precursors, Persulfate activation, Semiconductor, Thermolysis
Abstract

PhD (Chemistry), North-West University, Mahikeng Campus The development of effective ternary metal sulfides supported graphene oxide composites as catalytic materials have been explored in this thesis. The Single source precursor method employing dithiocarbamate metal complexes were employed as precursor in a heat-up method in the synthesis of the copper-based ternary metal sulphides, which were composited with graphene derivatives through facile techniques. The suitability of the metal complexes as single source precursors was firstly evaluated by exploring the obtained metal complexes as precursors for the synthesis of their respective binary metal sulphides. Particularly, the ability to obtain different CuxS phases, which is important for the selective synthesis of different stoichiometric phases of Cu-M-S was explored. Thermolysis of copper bis dithiocarbamate metal complex in a mixture of oleylamine (OLA) and dodecanethiol (DDT) showed a mixture of phases were obtained at relatively low temperature with pure phase of Cu5S9 only obtainable at high temperature. This study showed the significance of solvent property in influencing phase selectivity in the synthesis of Cu2-xS. The thermolysis of bismuth(III) tris (N-methyl-N-phenyl dithiocarbamate) complex was also explore in a solvent mixture oleylamine, dodecanethiol and octadecene. At temperature range of 150 -250 °C Bi2S3 nanoparticles with varying microstructural properties was obtained. The microstructural properties of the nanoparticles were explored using the Scherrer equation, Williamson-Hall plot and Rietveld analysis. A close agreement between the models was observed with the particle size ranging between 20.1 – 45.9, 20.9 -26.6 and 23.0-29.7 nm for the Scherrer equation, Williamson-Hall’s plot and Rietveld analysis respectively. Similarly, antimony(III) tris (N-methyl-N-phenyl dithiocarbamate) complex was thermolyzed in hexadecylamine solvent and the microstructural property was studied. In addition to the microstructural studies, other crystal properties and empirical parameters such as lattice parameters, cell volume, bulk density, X-ray density, surface area and porosity were evaluated. The particle size for the Sb2S3 nanoparticles obtained ranged between 85.1-111.3 nm for the explored models, while all the models affirmed the strain in the strain to be in the lattice to be due to lattice contraction. The empirical analysis showed the presence of Sb vacancies, while the lattice parameters and other cell parameters agreed significantly with values in literature. After establishing the thermal decomposition products of these complexes, they were co-thermolyzed with other precursor compounds which have comparable decomposition profiles for the synthesis of ternary Cu-M-S. Firstly, the selective synthesis of two phases of copper tin sulphides: petrukite (Cu3SnS4) and kuramite (Cu2SnS3), was achieved by the solvothermal decomposition of diphenyl tin(II) dithiocarbamate and Cu (II) bis N-methyl-N-phenyl dithiocarbamate complex by the heat-up process in high boiling solvents. Cu2SnS3 was obtained in oleylamine at 220 °C, while Cu3SnS4 was obtained in a mixture of oleylamine and dodecanethiol at 180 °C. The particle size distribution was 13.7 ± 2.4 for Cu2SnS3 and 11.3 ± 1.5 nm for Cu3SnS4, with the band gap energy being 1.16 and 1.57 for Cu2SnS3 and Cu3SnS4 respectively. The photoluminescence spectroscopy measurement showed a lower charge carrier recombination in Cu2SnS3 compared to Cu3SnS4, which account for the 94.0% degradation efficiency towards Tetracycline degradation compare to 73.0% recorded for Cu3SnS4. Electrochemical measurements also showed that Cu2SnS3 exhibited lower resistance, getter charge transport and conducting properties compare to Cu3SnS4. Subsequently, supported Cu2SnS3 and Cu3SnS4 nanoparticles were synthesized through facile solvothermal processes. Cu2SnS3 supported by reduced graphene oxide (rGO) were prepared at different rGO ratio 0-20%. The photocatalytic activity of the nanoparticles for tetracycline degradation was influenced by the weight fraction of rGO, with composite with 20% rGO composition showing the maximum degradation efficiency of 93% compared to compared to 64, 65.5 and 68.8% degradation recorded for 0, 5, and 10% rGO composition respectively. rGO was observed to improve the degradation efficiency by enhancing the adsorption capacity of the nanoparticle and also reducing charge carrier recombination. For the Cu3SnS4 phase, the influence of graphene oxide (GO), protonated graphitic carbon nitride (PCN) and composite of GO and PCN (GO/PCN) on the degradation of tetracycline was explored. The study showed that the composite GO/PCN showed the highest degradation efficiency of 96.5% compare to 85.2 and 90.9% recorded for composites with PCN and GO respectively. The enhanced activity of the GO/PCN based composite was found to be due to exciton generation and enhanced adsorption property. Afterwards, selective synthesis of copper antimony sulphides (CAS) was explored. Three different phases of CAS were obtained: chalcostibite (CuSbS2), famantinite (Cu3SbS4) and tetrahedrite (Cu12Sb4S13) using copper(II) dithiocarbamate and antimony(III) dithiocarbamate complexes in a solvothermal heat-up process. The catalytic activity of the three phases for persulfate activation of tetracycline degradation was explored with degradation efficiencies of 26.1, 54.6 and 55.6% achieved by CuSbS2, Cu12Sb4S13 and Cu3SbS4 respectively. The study of the influence of pH on the persulfate activation process showed a higher efficiency of 85.5% was achieved under neutral condition. Radical scavenging experiment showed the process was radical based process, with the initiation being a one electron transfer process. the Cu3SbS4 phase with tetrahedrite phase exhibiting the highest activity. Further study on improving the activity of CuSbS2 was explored by supporting the nanoparticle on graphene oxide. The supported CuSbS2 was then explored in the degradation of tetracycline in persulfate activation and photocatalytic processes. The percentage degradation was 94 and 74% for the photocatalytic and persulfate activation process respectively. Mechanism study showed that the photocatalytic process proceeded significantly through the activity of photogenerated holes while the persulfate activation process, was a non-radical process. Finally, the selective synthesis of copper bismuth sulphide (CBS) phase was attempted using Bi(III) bis N-methyl-N-phenyl dithiocarbamate and Cu(III) bis N-methyl-N-phenyl dithiocarbamate as single source precursors. However, only the wittichenite phase (Cu3BiS3) was obtained in pure phase. The Cu3BiS3 nanoparticles was agglomerated and oval-shaped with a particle size of 60.1 nm. The obtained semiconductor nanoparticle was further supported on reduced graphene oxide and explored as a catalyst in UV-light assisted persulfate activation process and in a photocatalytic process for the degradation of diclofenac. A degradation efficiency of 74% was achieved in the photocatalytic process, while the UV-light assisted persulfate activation process attained 84% degradation efficiency. The composites showed great capacity for degradation for the degradation of a wide variety of pollutant with 100% degradation efficiency achieved for methyl orange, tetracycline and methylene blue, while bisphenol reached 81% efficiency. The study showed that the nanocomposite exhibited a higher activity in the UV-light assisted process, with the process showing lower energy consumption when compared to other reported process. The results of this study confirm the potential of dithiocarbamate complexes as precursor compounds for achieving phase selectivity synthesis of Cu-M-S semiconductors and also, the potential of these materials as versatile catalysts for advanced oxidation processes. In addition, the study has shown that graphene oxide/reduced graphene oxide is a suitable support material for enhancing the catalytic activity of these semiconductors. Doctoral

Published
2022

25. Synthesis, characterization and biological studies of some organotin-dithiocarbamate complexes

Author

Adeyemi, Oluwasegun Jerry, Onwudiwe, D.C., and 23567856 - Onwudiwe, Damian Chinedu (Supervisor)

Subjects
Dithiocarbamate, Cytotoxicity, Antimicrobial, Organotin(IV), Antioxidant
Abstract

PhD (Chemistry), North-West University, Mafikeng Campus, 2019 Organotin(IV)dithiocarbamate owe their functionality and usefulness to the individual attributes of the organotin and the dithiocarbamate moieties. The synergy exhibited by these moieties has resulted in the enhanced biological activity of the hybrid molecule. This thesis reports the synthesis, characterization and evaluation of the biological properties (including antimicrobial, antioxidant an~ anticancer activities) of series of organotin(IV) dithiocarbamate complexes. Organotin(IV) chlorides of various alky and aryl groups [RnSnCl4_n] (n = 1, 2; R = CH3, C4H9, C6Hs) were utilized, while the dithiocarbamate ligands [-S2CNRR'] (R= H, CH3, C2H5, C4H9, C3Hs and R'= C6Hs, C6Hs-CH2, CH3-C6Hs, C2Hs-C6Hs, C3Hs) were constituted of different alkyl, allyl and aryl substituents, resulting in array of compounds with different stereochemistry. All the complexes were characterized using spectroscopic techniques (FTIR, 1H and 13C and 119Sn NMR) and elemental analysis, and a few of them were further characterized by single crystal X-ray diffraction. The thermal decomposition properties of the complexes were studied using thermogravimetric analyser, and they displayed varying decomposition patterns to give tin sulfide residue of different phases. The antimicrobial properties of the complexes were studied using some gram positive bacteria (Bacillus cereus and Staphylococcus aureus), gram negative bacteria (Escherichia coli, Klebsiella pneumonia and Pseudomonas aeruginosa) and some fungi (Candida albicans and Aspergillus jlavus). They showed great potential as antimicrobial agents better than their respective ligands, and compared favorably with other standard drugs used as control. The complexes also exhibited potentials as antioxidant agents from the study carried out using 2,2-diphenyl-l-picrylhydrazyl (DPPH) and reducing power assays methods. Furthermore, the preliminary in vitro cytotoxicity activity study of the complexes was tested against tumor cell line human cervix carcinoma (HeLa). Activity ranged from very good to moderate, for all tested complexes. These complexes could be useful lead compounds m antibiotic, antioxidant and anticancer studies. Doctoral

Published
2019

26. Biosynthesis of silver nanoparticles using plant extracts and their application in water treatment

Author

Saiyed, Tanzimjahan I., Onwudiwe, D.C., Elemike, E.E., 23567856 - Onwudiwe, Damian Chinedu (Supervisor), and 28437063 - Elemike, Elias Emeka (Supervisor)

Subjects
Plant extract, Phytonanotechnology, Nanoparticles, Antimicrobial, Inhibition
Abstract

MSc (Applied Chemistry), North-West University, Mahikeng Campus The field of nanoscience cuts across many areas of research and researchers continue to explore this interesting area, with the objective of developing materials or improving the properties of the existing ones. Nanomaterials have promising applications in electronics, agriculture, medicine, photo devices and environment. Phytonanotechnology which involves the use of plants has carved out an interesting niche in the field of nanoscience making most Indian greeneries and spices important substrates for the synthesis of nanoparticles (NPs). Umbrella plant, Welsh onion and Guar plants were used for the synthesis of silver NPs in this work. The aqueous plant extract and different concentrations ( 1 mM, 2 mM and 5 mM) of the precursor compound (AgNO3) were prepared. In the synthesis of the NPs, two volume ratios of I :5 and 1: IO of the substrate to the precursor were made from each of the precursor (AgNO3) concentration (I mM, 2 mM and 5 mM), and the rate of formation of silver NPs was monitored using UV-vis spectroscopy. The biosynthesized NPs which were represented as UmAgNPs, WoAgNPs and GuAgNPs (reflecting the type of plants involved in their synthesis: Umbrella plant, Welsh onion and Guar plants respectively) were further characterized using Fourier transform infrared (FTIR) spectroscopy, transmission electron microscopy (TEM) and powder X-ray diffraction (pXRD) techniques. The results of the FTIR analysis revealed the presence of biomolecules such as sugars, amino acids, flavonoids on the surface of the NPs, therefore confirming the role of the plants extracts as passivating/capping agents in addition to their reducing effect. The particle sizes of all the NPs: UmAgNPs. WoAgNPs and GuAgNPs, were below 20 nm. with the NPs synthesized from I mM AgNO3 using Welsh onion plant (WoAgNPs) showing the highest average particle size of 15.72 nm. Averagely, GuAgNPs obtained from 2 mM AgNO3 using I : 10 volume ratio has the lowest particle size among all. However, particles mediated by umbrella plant (UmAgNPs) and prepared from 2 mM AgNO3 using both of I :5 and I: 10 volume ratio gave the most stable NPs with high degree of monodispersity. The potential application of the green synthesized silver NPs in the treatment of water polluted with organic dyes was evaluated by studying their ability to photo-catalytically degrade methyl red, and their antimicrobial potency against some bacteria (majorly the water borne). The U mAgNPs showed the greatest percentage of degradation of about 29. 72%. The antimicrobial properties of the NPs against common microbes: Staphylocucus auerus, Bacillus cerues, Kleb. pneumonia and Echerichia coli displayed interesting results with WoAgNPs having the greatest growth inhibition against the studied microbes. Masters

Published
2018

Catalog

Books, media, physical & digital resources
See catalog results