Your search keyword '"Syed, Najeeb A"' showing total 9 results

1. Synthesis and analysis of a novel thermal interface material for DC-DC boost converter.

Author

Hamza, Ali, Mahmood, Mariam, Ulasyar, Abasin, Kazmi, Syed Najeeb Ali, Iqbal, Sheeraz, Ghadi, Yazeed Yasin, Almuflih, Ali Saeed, and Elbarbary, Z. M. S.

Subjects

THERMAL interface materials, POWER electronics, THERMAL conductivity, DC-to-DC converters, ATOMIC force microscopy

Abstract

The rapid evolution of power electronics has triggered an intensified focus on thermal management within electronics circuits, stemming from the critical necessity to mitigate thermal-related failure rates. Thermal management in power electronics circuits relies heavily on efficient heat transfer to prevent overheating of components and ensure their reliable operation, optimal performance, and safety. To facilitate the effective heat transfer, a thermal interface material (TIM) is utilized between switching components such as MOSFETs and heat sinks to improve surface contact, which increases heat transfer. In this research work, a novel thermal interface material (TIM) based on Tungsten-Gallium is introduced and evaluated to enhance thermal properties such as thermal conductivity and viscosity of Gallium-based TIM material with the addition of Tungsten microparticles. The study involves the examination of three distinct TIM samples with varying Tungsten content. Their surface morphology, composition, and topography were analyzed through techniques such as Scanning Electron Microscopy (SEM) and Atomic Force Microscopy (AFM) within the context of a DC-DC boost converter. The results indicate that the addition of Tungsten significantly enhances TIM's viscosity and fluidity, even at high temperatures reaching up to 308 °C, which is crucial for power electronics circuits. In addition, thermal constant analyzer, and DC-DC converter circuit such as boost converter circuit were utilized for thermal and electrical characterization, respectively. These characterization results demonstrate that 10%/wt. addition of Tungsten can increase the thermal conductivity of Gallium from 13.1 to 22.82 W/m.K at room temperature, which represents an overall 74.2% increase in thermal conductivity. Furthermore, when the proposed TIM sample 2 was used in a boost converter circuit, the switching frequency of MOSFET IRF3808 was increased up to 20 kHz while the conduction losses were also lowest compared to other TIM samples. [ABSTRACT FROM AUTHOR]

Published

2024

2. Rare variants at KCNJ2 are associated with LDL-cholesterol levels in a cross-population study.

Author

Rossi, Niccolò, Syed, Najeeb, Visconti, Alessia, Aliyev, Elbay, Berry, Sarah, Bourbon, Mafalda, Spector, Tim D., Hysi, Pirro G., Fakhro, Khalid A., and Falchi, Mario

Published

2024

3. Chiral amide-bonded hydroxyquinoline-substituted porphyrin fluorescent probes "off–on–off" pH sensing properties.

Author

Haider, Syed Najeeb-Uz-Zaman, Gu, Tingting, Tang, Rongping, Zhu, Weihua, and Liang, Xu

Abstract

Herein, a series of four amide-bonded hydroxyquinoline-substituted porphyrins have been prepared and characterized. Trends in the electronic structures are investigated by spectroscopic and electrochemical analysis to explore the effect of the functional amide-bonded hydroxyquinoline units. Also, the selective pH sensing properties were also performed and their plausible mechanism were also proposed. And the proposed mechanisms is the photoinduced electron transfer mechanism. [ABSTRACT FROM AUTHOR]

Published

2022

4. A population study of clinically actionable genetic variation affecting drug response from the Middle East.

Author

Jithesh, Puthen Veettil, Abuhaliqa, Mohammed, Syed, Najeeb, Ahmed, Ikhlak, El Anbari, Mohammed, Bastaki, Kholoud, Sherif, Shimaa, Umlai, Umm-Kulthum, Jan, Zainab, Gandhi, Geethanjali, Manickam, Chidambaram, Selvaraj, Senthil, George, Chinnu, Bangarusamy, Dhinoth, Abdel-latif, Rania, Al-Shafai, Mashael, Tatari-Calderone, Zohreh, Estivill, Xavier, Pirmohamed, Munir, and The Qatar Genome Program Research Consortium

Published

2022

5. The QChip1 knowledgebase and microarray for precision medicine in Qatar.

Author

Rodriguez-Flores, Juan L., Messai-Badji, Radja, Robay, Amal, Temanni, Ramzi, Syed, Najeeb, Markovic, Monika, Al-khayat, Eiman, Qafoud, Fatima, Nawaz, Zafar, Badii, Ramin, Al-Sarraj, Yasser, Mbarek, Hamdi, Al-Muftah, Wadha, Alvi, Muhammad, Rostami, Mahboubeh R., Cruzado, Juan Carlos Martinez, Mezey, Jason G., Shakaki, Alya Al, Malek, Joel A., and Greenblatt, Matthew B.

Published

2022

6. Clinical features, epidemiology, autoantibody status, HLA haplotypes and genetic mechanisms of type 1 diabetes mellitus among children in Qatar.

Author

Haris, Basma, Ahmed, Ikhlak, Syed, Najeeb, Almabrazi, Hakeem, Saraswathi, Saras, Al-Khawaga, Sara, Saeed, Amira, Mundekkadan, Shihab, Mohammed, Idris, Sharari, Sanaa, Hawari, Iman, Hamed, Noor, Afyouni, Houda, Abdel-Karim, Tasneem, Mohammed, Shayma, Khalifa, Amel, Al-Maadheed, Maryam, Zyoud, Mahmoud, Shamekh, Ahmed, and Elawwa, Ahmed

Subjects

TYPE 1 diabetes, AUTOANTIBODIES, WHOLE genome sequencing, HAPLOTYPES, GENOMICS, EPIDEMIOLOGY

Abstract

To describe the clinical features, epidemiology, autoantibody status, HLA haplotypes and genetic mechanisms of type 1 diabetes mellitus (T1DM). Patients (0–18 years) with diabetes were recruited. Clinical data was collected, autoantibodies and c-peptide were measured. Whole Genome Sequencing was performed. Genomic data analysis was compared with the known genes linked with T1DM and HLA alleles were studied. 1096 patients had one or more antibody positivity. The incidence of T1DM in 2020 was 38.05 per 100,000 children and prevalence was 249.73. GADA was the most common autoantibody followed by IAA. Variants in GSTCD, SKAP2, SLC9B1, BANK1 were most prevalent. An association of HLA haplotypes DQA1*03:01:01G (OR = 2.46, p value = 0.011) and DQB1*03:02:01G (OR = 2.43, p value = 0.022) was identified. The incidence of T1DM in Qatar is the fourth highest in the world, IA2 autoantibody was the most specific with some patients only having ZnT8 or IA2 autoantibodies thus underlining the necessity of profiling all 4 autoantibodies. The genes associated with T1DM in the Arab population were different from those that are common in the Caucasian population. HLA-DQ was enriched in the Qatari patients suggesting that it can be considered a major risk factor at an early age. [ABSTRACT FROM AUTHOR]

Published

2021

7. Genetic variations influence brain changes in patients with attention-deficit hyperactivity disorder.

Author

Yadav, Santosh K., Bhat, Ajaz A., Hashem, Sheema, Nisar, Sabah, Kamal, Madeeha, Syed, Najeeb, Temanni, Mohamed-Ramzi, Gupta, Rakesh K., Kamran, Saddat, Azeem, Muhammad Waqar, Srivastava, Amit K., Bagga, Puneet, Chawla, Sanjeev, Reddy, Ravinder, Frenneaux, Michael P., Fakhro, Khalid, and Haris, Mohammad

Published

2021

8. Ethnic-specific association of amylase gene copy number with adiposity traits in a large Middle Eastern biobank.

Author

Rossi, Niccolo', Aliyev, Elbay, Visconti, Alessia, Akil, Ammira S. A., Syed, Najeeb, Aamer, Waleed, Padmajeya, Sujitha S., Falchi, Mario, and Fakhro, Khalid A.

Published

2021

9. Genome-wide Regulatory Roles of the C2H2-type Zinc Finger Protein ZNF764 on the Glucocorticoid Receptor.

Author

Fadda, Abeer, Syed, Najeeb, Mackeh, Rafah, Papadopoulou, Anna, Suzuki, Shigeru, Jithesh, Puthen V., and Kino, Tomoshige

Abstract

The C2H2-type zinc finger protein ZNF764 acts as an enhancer for several steroid hormone receptors, and haploinsufficiency of this gene may be responsible for tissue resistance to multiple steroid hormones including glucocorticoids observed in a patient with 16p11.2 microdeletion. We examined genome-wide regulatory actions of ZNF764 on the glucocorticoid receptor (GR) in HeLa cells as a model system. ZNF764- and GR-binding sites demonstrated similar distribution in various genomic features. They positioned predominantly around 50-500 kbs from the transcription start sites of their nearby genes, and were closely localized with each other, overlapping in ~37% of them. ZNF764 demonstrated differential on/off effects on GR-binding and subsequent mRNA expression: some genes were highly dependent on the presence/absence of ZNF764, but others were not. Pathway analysis revealed that these 3 gene groups were involved in distinct cellular activities. ZNF764 physically interacted with GR at ligand-binding domain through its KRAB domain, and both its physical interaction to GR and zinc finger domain appear to be required for ZNF764 to regulate GR transcriptional activity. Thus, ZNF764 is a cofactor directing GR transcriptional activity toward specific biologic pathways by changing GR binding and transcriptional activity on the glucocorticoid-responsive genes. [ABSTRACT FROM AUTHOR]

Published

2017