Your search keyword '"Akhtar, Javeed"' showing total 5 results

1. Two‐Dimensional MXene‐Based Electrocatalysts: Challenges and Opportunities.

Author

Kaleem Shabbir, Muhammad, Arif, Fozia, Asghar, Haleema, Irum Memon, Sanam, Khanum, Urooj, Akhtar, Javeed, Ali, Akbar, Ramzan, Zeeshan, Aziz, Aliya, Memon, Ayaz Ali, and Hussain Thebo, Khalid

Subjects

OXYGEN evolution reactions, HYDROGEN evolution reactions, ELECTRIC conductivity, ELECTROCATALYSTS, STRUCTURAL engineers, OXYGEN reduction, ETHANOL

Abstract

MXene, regarded as cutting‐edge two‐dimensional (2D) materials, have been widely explored in various applications due to their remarkable flexibility, high specific surface area, good mechanical strength, and interesting electrical conductivity. Recently, 2D MXene has served as a ideal platform for the design and development of electrocatalysts with high activity, selectivity, and stability. This review article provides a detailed description of the structural engineering of MXene‐based electrocatalysts and summarizes the uses of 2D MXene in hydrogen evolution reactions, nitrogen reduction reactions, oxygen evolution reactions, oxygen reduction reactions, and methanol/ethanol oxidation. Then, key issues and prospects for 2D MXene as a next‐generation platform in fundamental research and real‐world electrocatalysis applications are discussed. Emphasis will be given to material design and enhancement techniques. Finally, future research directions are suggested to improve the efficiency of MXene‐based electrocatalysts. [ABSTRACT FROM AUTHOR]

Published

2024

2. Nanodiamonds: A Cutting‐Edge Approach to Enhancing Biomedical Therapies and Diagnostics in Biosensing.

Author

Hyder, Ali, Ali, Akbar, Buledi, Jamil A., Memon, Ayaz Ali, Iqbal, Muzaffar, Bangalni, Talib Hussain, Solangi, Amber R., Thebo, Khalid Hussain, and Akhtar, Javeed

Subjects

NANOCARRIERS, NANODIAMONDS, BIOLOGICAL systems, CHEMICAL vapor deposition, RAPID diagnostic tests, DRUG carriers, NANOBIOTECHNOLOGY

Abstract

Nanodiamonds (NDs) have garnered attention in the field of nanomedicine due to their unique properties. This review offers a comprehensive overview of NDs synthesis methods, properties, and their uses in biomedical applications. Various synthesis techniques, such as detonation, high‐pressure, high‐temperature, and chemical vapor deposition, offer distinct advantages in tailoring NDs′ size, shape, and surface properties. Surface modification methods further enhance NDs′ biocompatibility and enable the attachment of bioactive molecules, expanding their applicability in biological systems. NDs serve as promising nanocarriers for drug delivery, showcasing biocompatibility and the ability to encapsulate therapeutic agents for targeted delivery. Additionally, NDs demonstrate potential in cancer treatment through hyperthermic therapy and vaccine enhancement for improved immune responses. Functionalization of NDs facilitates their utilization in biosensors for sensitive biomolecule detection, aiding in precise diagnostics and rapid detection of infectious diseases. This review underscores the multifaceted role of NDs in advancing biomedical applications. By synthesizing NDs through various methods and modifying their surfaces, researchers can tailor their properties for specific biomedical needs. The ability of NDs to serve as efficient drug delivery vehicles holds promise for targeted therapy, while their applications in hyperthermic therapy and vaccine enhancement offer innovative approaches to cancer treatment and immunization. Furthermore, the integration of NDs into biosensors enhances diagnostic capabilities, enabling rapid and sensitive detection of biomolecules and infectious diseases. Overall, the diverse functionalities of NDs underscore their potential as valuable tools in nanomedicine, paving the way for advancements in healthcare and biotechnology. [ABSTRACT FROM AUTHOR]

Published

2024

3. Fundamentals of Hysteresis in Perovskite Solar Cells: From Structure‐Property Relationship to Neoteric Breakthroughs.

Author

Wali, Qamar, Aamir, Muhammad, Ullah, Abid, Iftikhar, Faiza Jan, Khan, Muhammad Ejaz, Akhtar, Javeed, and Yang, Shengyuan

Subjects

SOLAR cells, PEROVSKITE, HYSTERESIS, ION migration & velocity, CONJUGATED polymers

Abstract

Perovskite solar cells (PSC) have shown a rapid increase in efficiency than other photovoltaic technology. Despite its success in terms of efficiency, this technology is inundated with numerous challenges hindering the progress towards commercial viability. The crucial one is the anomalous hysteresis observed in the photocurrent density‐voltage (J−V) response in PSC. The hysteresis phenomenon in the solar cell presents a challenge for determining the accurate power conversion efficiency of the device. A detailed investigation of the fundamental origin of hysteresis behavior in the device and its associated mechanisms is highly crucial. Though numerous theories have been proposed to explain the causes of hysteresis, its origin includes slow transient capacitive current, trapping, and de‐trapping process, ion migrations, and ferroelectric polarization. The remaining issues and future research required toward the understanding of hysteresis in PSC device is also discussed. [ABSTRACT FROM AUTHOR]

Published

2022

4. Laminar Graphene Oxide Membranes Towards Selective Ionic and Molecular Separations: Challenges and Progress.

Author

Ali, Akbar, Aamir, Muhammad, Thebo, Khalid Hussain, and Akhtar, Javeed

Subjects

GRAPHENE oxide, SEPARATION of gases, MEMBRANE separation, SEPARATION (Technology), SCIENTISTS

Abstract

Resolution of resources and environmental crises requires an efficient separation technologies, consequently, scientists and engineers are working vigorously for ideal separation materials. Laminar graphene oxide (GO) is a two‐dimensional (2D) material offers considerable interest in this field due to its single atomic layer thickness, good stability, chemical inertness, and variety of functional groups. Recently, GO have emerged as a novel membrane material for molecular and ionic separation of gases, solvent, water, and desalination applications. This tutorial review aims to discuss the various approaches used to control the stacking of GO‐based membrane with emphasis of advantages and drawbacks associated with each approach. Further, attention will also be given to describe the recent progress in GO based membranes for ionic and molecular separations. Meanwhile, challenges and opportunities will also be discussed in detail. We hope this review expected to provide a compact source of information that will be of great interest to chemists, material scientists, physicists, and engineers working or planning to work in GO based membranes for separation applications. [ABSTRACT FROM AUTHOR]

Published

2020

5. Cesium Lead Halide Perovskite Nanostructures: Tunable Morphology and Halide Composition.

Author

Aamir, Muhammad, Adhikari, Tham, Sher, Muhammad, Khan, Malik Dilshad, Akhtar, Javeed, and Nunzi, Jean‐Michel

Subjects

NANOSTRUCTURES, HALIDES, CESIUM, PEROVSKITE, ION exchange (Chemistry)

Abstract

Abstract: Inorganic halide perovskite (CsPbX3) nanostructures have gained considerable interest in recent years owing to their enhanced stability and optoelectronic applications. Recent developments in the synthesis of nanostructures are reviewed. The impact of the precursor and ligand nature, temperature and growth time on the morphology and shape tuning of CsPbX3 nanostructures is described in relation to their optical properties. The presynthetic and postsynthetic anion exchange strategies to retain pre‐existing crystal phase and shape are discussed in this minireview. [ABSTRACT FROM AUTHOR]

Published

2018