Recent Advances in Bimetallic Catalysts for Methane Steam Reforming in Hydrogen Production: Current Trends, Challenges, and Future Prospects.

As energy demand continues to rise and the global population steadily grows, there is a growing interest in exploring alternative, clean, and renewable energy sources. The search for alternatives, such as green hydrogen, as both a fuel and an industrial feedstock, is intensifying. Methane steam reforming (MSR) has long been considered a primary method for hydrogen production, despite its numerous advantages, the activity and stability of the conventional Ni catalysts are major concerns due to carbon formation and metal sintering at high temperatures, posing significant drawbacks to the process. In recent years, significant attention has been given to bimetallic catalysts as a potential solution to overcome the challenges associated with methane steam reforming. Thus, this review focuses on the recent advancements in bimetallic catalysts for hydrogen production through methane steam reforming. The review explores various aspects including reactor type, catalyst selection, and the impact of different operating parameters such as reaction temperature, pressure, feed composition, reactor configuration, and feed and sweep gas flow rates. The analysis and discussion revolve around key performance indicators such as methane conversion, hydrogen recovery, and hydrogen yield.

A First-Principles Study on the Multilayer Graphene Nanosheets Anode Performance for Boron-Ion Battery.

Advanced battery materials are urgently desirable to meet the rapidly growing demand for portable electronics and power. The development of a high-energy-density anode is essential for the practical application of B3+ batteries as an alternative to Li-ion batteries. Herein, we have investigated the performance of B3+ on monolayer (MG), bilayer (BG), trilayer (TG), and tetralayer (TTG) graphene sheets using first-principles calculations. The findings reveal significant stabilization of the HOMO and the LUMO frontier orbitals of the graphene sheets upon adsorption of B3+ by shifting the energies from -5.085 and -2.242 eV in MG to -20.08 and -19.84 eV in 2B3+@TTG. Similarly, increasing the layers to tetralayer graphitic carbon B3+@TTG_asym and B3+@TTG_sym produced the most favorable and deeper van der Waals interactions. The cell voltages obtained were considerably enhanced, and B3+/B@TTG showed the highest cell voltage of 16.5 V. Our results suggest a novel avenue to engineer graphene anode performance by increasing the number of graphene layers.

Enhanced Carbofuran Degradation Using Immobilized and Free Cells of Enterobacter sp. Isolated from Soil.

Extensive use of carbofuran insecticide harms the environment and human health. Carbofuran is an endocrine disruptor and has the highest acute toxicity to humans than all groups of carbamate pesticides used. Carbofuran is highly mobile in soil and soluble in water with a lengthy half-life (50 days). Therefore, it has the potential to contaminate groundwater and nearby water bodies after rainfall events. A bacterial strain BRC05 was isolated from agricultural soil characterized and presumptively identified as Enterobacter sp. The strain was immobilized using gellan gum as an entrapment material. The effect of different heavy metals and the ability of the immobilized cells to degrade carbofuran were compared with their free cell counterparts. The results showed a significant increase in the degradation of carbofuran by immobilized cells compared with freely suspended cells. Carbofuran was completely degraded within 9 h by immobilized cells at 50 mg/L, while it took 12 h for free cells to degrade carbofuran at the same concentration. Besides, the immobilized cells completely degraded carbofuran within 38 h at 100 mg/L. On the other hand, free cells degraded the compound in 68 h. The viability of the freely suspended cell and degradation efficiency was inhibited at a concentration greater than 100 mg/L. Whereas, the immobilized cells almost completely degraded carbofuran at 100 mg/L. At 250 mg/L concentration, the rate of degradation decreased significantly in free cells. The immobilized cells could also be reused for about nine cycles without losing their degradation activity. Hence, the gellan gum-immobilized cells of Enterobacter sp. could be potentially used in the bioremediation of carbofuran in contaminated soil.

Clinical Characteristics and Outcomes of Hemodialysis in a New Center in Northern Nigeria.

BACKGROUND: Hemodialysis is the most common renal replacement therapy (RRT) modality in Africa and few countries enjoy reimbursement from the government to fund it. Africa contributes <10% of the total RRT patients worldwide this is mainly due to high cost. AIMS AND OBJECTIVES: We aimed to review the clinical characteristics and outcomes of patients requiring hemodialysis in our center over a 7 years period, to highlight the enormous challenges encountered. MATERIALS AND METHODS: This is a retrospective study of patients aged 15 years and above that was seen between April 2010 and March 2017 at the Hemodialysis unit of Abubakar Tafawa Balewa University Teaching Hospital. Information was extracted from the patient's case folders and dialysis charts. RESULTS: In total, 226 patients had hemodialysis over the period, 124 (54.9%) were male and 102 (49.1%) were female. Sixty-one (27%) patients had acute kidney injury (AKI), 143 (63.3%) had chronic kidney disease (CKD), whereas 22 (9.7%) had acute-on-CKD. A total of 2215 sessions of hemodialysis were done in the period, of which 782 (35.3%) were for AKI and 469 (21.2%) for acute on CKD. A total of 138 (60.6%) patients were discharged and 58 deaths were recorded. CONCLUSION: Although there is rapid proliferation of hemodialysis facilities in the country, many patients could not afford adequate hemodialysis. Inadequate dialysis due to finances was the main cause of death in these category of patients.

Clinical and laboratory characteristics of COVID-19 among adult patients admitted to the isolation centre at Abubakar Tafawa Balewa Teaching Hospital Bauchi, Northeast Nigeria.

INTRODUCTION: as the epidemiological trend of COVID-19 infection continue to evolve with increasing prevalence and incidence globally, management of cases in low-resource health care settings require basic detailed clinical and laboratory characteristics. This study retrospectively described the clinical and laboratory characteristics of confirmed COVID-19 cases admitted into the isolation centre of ATBUTH, Bauchi. METHODS: clinical and laboratory data of 84 confirmed COVID-19 cases admitted into the isolation centre of ATBUTH, Bauchi according to NCDC guidelines were used. Diagnosis was based on nasal and nasopharyngeal swab positive result of reverse transcriptase-polymerase chain reaction (RT-PCR) result. Data extracted includes demographic, clinical presentations and laboratory characteristics. RESULTS: the 84 COVID-19 patients comprised of 72% (59) males and 28% (25) females with mean age of 41.0±10.5 years, majority of the patients were within age-group 21-40 years. Forty-one percent presented with mild to moderate symptoms, 3.6% (3) presented with severe symptoms while 58.3% (49) were asymptomatic with mean body temperature of 36.60C ± Sá. The common clinical manifestations were fever 23.4% (19) and cough 20.7% (17). About 29.3% of the patients had comorbidities, 17.1% (14) were hypertensive while 12.2% of the diabetic. Thirty percent (10) of the patients with DM required intensive care unit (ICU) admission with 10% mortality. Biochemical parameters were within normal range for all the patients. However, haematological parameters showed increased neutrophil (10, 43.5%) and lymphocyte count (19 (59.4%). CONCLUSION: the study findings revealed high number of asymptomatic cases, similarity in clinical manifestation and relatively normal laboratory characteristics. More experience with increase in number of patients may provide additional information. Interrupting community transmission will require early detection and contact trace of asymptomatic cases.

Characterization and Antimicrobial Susceptibility Profile of Bacteraemia Causing Pathogens Isolated from Febrile Children with and without Sickle Cell Disease in Kano, Nigeria.

BACKGROUND AND OBJECTIVES: Bacterial infection in sickle cell anaemic patients is a major cause of mortality and requires proper treatment with appropriate antibiotics. However, continue defiant of these infections causing pathogens to many antibiotics and inadequate screening methods in overburden health care facilities such as our in Kano, Nigeria necessitates the conduct of this study. A research was therefore conducted to isolate, characterize and test for antimicrobial susceptibility of bacteraemia-causing pathogens from febrile children with and without sickle cell disease in Kano, Nigeria. METHOD: A total of 225 venous blood samples from suspected sickle cell anaemic children attending three selected hospitals within Kano metropolis were collected and screened for sickle cell disease, followed by blood culture using automated blood culture system. The bacteria isolated from confirmed febrile SCD and non-SCD children were characterized using microscopic, biochemical and serological techniques. Their susceptibility to commonly used antibiotics was tested using disc diffusion method. RESULTS: Of the 225 blood specimens screened, 68 (30.22%) were SCD positive, with the highest percentage (16%) among subjects within 1-2 years of age. A total of 11 genera of bacteria were isolated from both SCD and non SCD positive bloods, with Salmonella typhi having highest occurring rate in SCD positive children 27 (39.71%), followed by Streptococcus pneumoniae 10(14.71%), Salmonella Group B 9(13.24%), Staphylococcus aureus 4 (5.88%), and Escherichia coli 3 (4.41%). Majority of the isolates from SCD children 59 (86.76%) were highly susceptible to ciprofloxacin followed by cefuroxime 45 (66.18%), gentamicin 38 (55.88%), ceftriaxone 30 (44.12%), augmentin 39 (57.35%), ampicillin 25 (36.77%) and co-trimoxazole (22.06%). CONCLUSION: Bacteraemia in SCD confirmed children in the three hospitals are caused by a combination of 11 genera of bacteria. The lesser rate of bacteraemia was found in non-SCD children. Resistance to commonly used antibiotics is on increase, but treatment with ciprofloxacin and some 3rd generation cephalosporin are still promising.