The biggest challenge in isolating and identifying molecules in a microdevice has been overcome by the latest research headed by University of Massachusetts Amherst assistant professor Jinglei Ping.
Optical nano-imaging techniques find immense applications in nanotechnology for visualizing nanoscale defects in samples.
In an article published in the journal Carbohydrate Polymers, a simple method was reported to synthesize homogeneous resistant starch nanoparticles (RSNP) using fractional crystallization of short-chain glucan derived from debranched starch.
In a paper published in Materials Today: Proceedings, water-based graphene conductive inks were developed using sodium dodecyl surfactant (SDS).
Developing lightweight and robust smart textiles is an emerging need to meet the demand for skin-conformable wearable devices. Designing wearable devices inspired by muscle fibers could serve as valuable contributions to next-generation electronics.
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.
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).
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.
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.
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.
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