A graphene-based material for green sustainable energy technology for hydrogen storage.

The usage of graphene-based materials (GMs) as energy storage is incredibly popular. Significant obstacles now exist in the way of the generation, storage and consumption of sustainable energy. A primary focus in the work being done to advance environmentally friendly energy technology is the development of effective energy storage materials. Due to their distinct two-dimensional structure and intrinsic physical qualities like good electrical conductivity and wide area, graphene-based materials have a significant potential to be used in energy storage devices. Graphene and GMs have been employed extensively for this due to their special mechanical, thermal, catalytic and other functional qualities. In this review, we covered the topic of employing GMs to store hydrogen for green energy.

Novel synthetic approach of 2D-metal-organic frameworks (MOF) for wastewater treatment.

In addition to their adjustable functionality, structural tunability, and compositional tunability, metal-organic frameworks (MOFs), often known as MOFs, are a distinct form of crystalline porous material. When reduced to two dimensions, ultrathin layers of MOF retain more of its fantastic external features, which is beneficial for a variety of technological applications. Due to their ultrathin atomic-level thickness, easily modifiable structure, and huge surface area, 2D MOF nanosheets and nanocomposites have been the subject of significant research. MOFs are considered intriguing materials for removing toxic contaminants among the novel technologies taken into account in water remediation processes because they exhibit numerous qualities that make them advantageous in water treatment: large surface area, easily functionalizable cavities, a few stable in water, large-scale synthesis, etc Nowadays, water pollution is a rising environmental concern that must be addressed. Due to their special qualities, which include chemical activities, a variety of functionalities, excellent stability, and the ability to be modified for the detection or adsorption of particular molecules, MOFs are widely used in detecting and removing contaminants from water. This review explores most recent wastewater treatment advancements (WWT) using the 2D MOFs mechanism.

Sustainable synthesis of multifunctional nanomaterials from rice wastes: a comprehensive review.

More than 60% of India's population relies on agriculture as their primary source of income, making it the nation's most important economic sector. Rice husk (often abbreviated as RH) is one of the most typical by-products of agricultural production. Every five tonnes of rice that is harvested results in the production of one tonne of husk. The concept of recycling and reusing waste from agricultural production has received interest from a variety of environmental and industrial perspectives. A wide variety of nanomaterials, including nano-zeolite, nanocarbon, and nano-silica, have been discovered in agro-waste. From rice cultivation to the finished product, there was a by-product consisting of husk that comprised 20% of the overall weight, or RH. The percentage of silica in RH ash ranges from 60 to 40%, with the remaining percentage consisting of various minerals. As a direct consequence of this, several distinct approaches to generating and extracting nanomaterial from rice husk have been developed. Because it contains a significant amount of cellulose and lignin, RH is an excellent and economical source of carbon precursor. The goal of this chapter is to produce carbon-based nanomaterials from RH.

Recent advances in sustainable nature-based functional materials for biomedical sensor technologies.

The lightweight, low-density, and low-cost natural polymers like cellulose, chitosan, and silk have good chemical and biodegradable properties due to their individually unique structural and functional elements. However, the mechanical properties of these polymers differ from each other. In this scenario, chitosan lacks good mechanical properties than cellulose and silk. The synthesis of nano natural polymer and reinforcement with suitable chemical compounds as the development of nanocomposite gives them promising multidisciplinary applications. Many kinds of research are already published with innovative bio-derived polymeric functional materials (Bd-PFM) applications. Most research interest is carried out on health concerns. Lots of attention has been paid to biomedical applications of Bd-PFM as biosensors. This review aims to provide a glimpse of the nanostructures Bd-PFM biosensors.

Carbon Nanostructure Embedded Novel Sensor Implementation for Detection of Aromatic Volatile Organic Compounds: An Organized Review.

For field-like environmental gas monitoring and noninvasive illness diagnostics, effective sensing materials with exceptional sensing capabilities of sensitive, quick detection of volatile organic compounds (VOCs) are required. Carbon-based nanomaterials (CNMs), like CNTs, graphene, carbon dots (Cdots), and others, have recently drawn a lot of interest for their future application as an elevated-performance sensor for the detection of VOCs. CNMs have a greater potential for developing selective sensors that target VOCs due to their tunable chemical and surface properties. Additionally, the mechanical versatility of CNMs enables the development of novel gas sensors and places them ahead of other sensing materials for wearable applications. An overview of the latest advancements in the study of CNM-based sensors is given in this comprehensive organized review.

Challenges to Remote Instruction During the Pandemic: A Qualitative Study with Primary Grade Teachers in India.

The COVID-19 pandemic has profound implications for education of young children worldwide and especially for children in developing economies like India. This article presents a qualitative study that explored the challenges that private school teachers in low budget, mid-ranged, and high fee charging private schools faced in two cities in India. All the private schools in this study also followed the government mandate to reserve 25% of seats for children from low-income families. During the school closure, remote instruction was employed in schools where participating teachers taught. Teachers faced challenges related to parental involvement and children's participation in remote instruction. Parental involvement challenges included parental lack of access to technological devices and no or minimal access to internet for their children to participate in remote instruction activities. Parental lack of support due to their low technological literacy and literacy in general, lack of fluency in the English Language, as well as lack of time also contributed to their children's low participation in remote instruction. Teachers faced challenges in implementing remote instruction with children from different socio-economic backgrounds; however, the challenges were greater with families from low-income backgrounds. The study's findings suggest that governments around the world need to ensure children's access to digital tools and internet services which are essential elements in children's participation in remote instruction. For children in families where parents are unable to support their children's education at home, other support services may be instituted to take the pressure off of parents. Future studies may explore the 'learning loss' that may have resulted from the long school closure during the pandemic.

Environmental assessment of wastewater management via hybrid nanocomposite matrix implications-an organized review.

Pollution of water is currently a significant worry for scientific communities all over the world, and it is imperative that this problem be solved as quickly as possible. It is today recognized to be one of the most important foci of research worldwide. The present dilemma of clean, fresh waste is being addressed by the subsequent ejection of impurities from polluted water following recycling. There are several effective solutions that have been promoted as a solution to this problem. Even if the present procedures for wastewater treatment degrade a wide variety of effluents efficiently, these protocols still have some kind of restrictions. The most cutting-edge research in this area is being done on the subject of nanotechnology, which has an astounding number of potential uses, one of which is the treatment of wastewater. One of the value-added alternatives utilized for water purification by eliminating the many types of pollutants found in wastewater is the green synthesis of nanocomposites in adsorbents, magnetic separation, photocatalysts, and other similar processes. Within the scope of this study, the most significant discoveries of nanocomposites to date that have been made towards the remediation of wastewater are highlighted.