Quantum Hall (QH) effect allows the exploitation of quantum coherence of electrons for various applications from metrology to quantum computation. QH interferometry is a convenient tool that provides an archetypal platform to achieve fractional QH state braiding statistics. However, a phase coherence along the length of the interferometer and suppression of Coulomb charging energy is required to observe fractional statistics.
By Bhavna Kaveti
18 Jul 2022
In an article recently published in the journal ACS Sensors, mass production of field-effect transistor (FET) biosensors based on carbon nanotube thin films was reported to realize high selectivity and sensitivity toward the detection of Alzheimer’s disease blood biomarkers of beta (ß)-amyloid (Aß).
By Bhavna Kaveti
18 Jul 2022
In an article recently published in the journal Materials Today: Proceedings, researchers fabricated Cu-based carbon nanotube composites via flame synthesis to improve the electrical and thermal properties of the Cu material.
By Bhavna Kaveti
18 Jul 2022
A recent study published in the journal Scientific Reports focuses on the development of nanoscale lead sulfide (PbS) thin films using avocado leaf extracts via the chemical bath deposition technique.
By Hussain Ahmed
14 Jul 2022
promising advanced carbon materials for next-generation lithium-ion batteries.
By Shaheer Rehan
14 Jul 2022
A new method of producing biocompatible nanohybrids made of boron nitride and tannic acid was published in a recently published study.
By Shaheer Rehan
14 Jul 2022
Researchers from Skoltech and their colleagues in Russia and Spain have reported a proof-of-concept demonstration of a new radiation-safe method for mapping the internal structure and stress distribution in samples of materials at the nanoscale, with a resolution about 100 times higher than that of the currently available techniques: X-ray and neutron tomography.
Integrated Graphene, a Scotland-based technology development and integration company, has announced plans to invest up to £8 million in scaling up its revolutionary 3D Graphene foam, Gii®, manufacturing process to meet surging global demand from the human diagnostics and energy markets.
A new study presents an overview of the advantages of applying nanotechnology to plant viral disease management as well as the detrimental impacts of nanotechnology on the ecosystem.
By Hussain Ahmed
13 Jul 2022
Researchers fabricated a lead sulfide (PbS) quantum dots microwheel array-based terahertz (THz) detector as an improved version of the conventional 6G communication THz detector with enhanced performance at room temperature.
By Bhavna Kaveti
13 Jul 2022
Determining the exact location of an object within a tissue sample via surface-enhanced spatially offset Raman spectroscopy (SESORS) imaging is an emerging research interest, and is critical to its clinical expansion.
By Bhavna Kaveti
13 Jul 2022
A novel, moisture-resistant, and wearable NOx gas sensor based on laser-induced graphene (LIG) has proven successful in monitoring the environment and classifying individuals with breathing problems.
By Hussain Ahmed
13 Jul 2022
An anode material for high-performance, eco-friendly aqueous rechargeable alkaline batteries (ARABs) has been developed using a simple one-step hydrothermal process.
By Hussain Ahmed
13 Jul 2022
A new self-powered, wristwatch-style health monitor invented by researchers at the University of California, Irvine can keep track of a wearer's pulse and wirelessly communicate with a nearby smartphone or tablet – without needing an external power source or a battery.
A novel enhanced heavy oil recovery approach was presented by integrating a conventional weak alkaline (sodium carbonate) alkaline–surfactant–polymer (ASP) flooding technique with silica nanoparticles.
By Shaheer Rehan
12 Jul 2022