The project’s goal is to investigate the use of a 2D reduced graphene oxide (rGO) based microfluidic channel driven electrochemical biosensor to detect AMI biomarkers. The device could be able to identify heart attacks before they happen. Therefore, it may be beneficial to reduce the enormous number of deaths brought on by this illness worldwide. […]

NanopHast is developing cutting-edge solid-state pH sensors designed to replace traditional glass pH electrodes. Our sensors offers miniaturized pH measurement, opening up novel possibilities in drug discovery and development. NanopHast has longer shelf life, lower manufacturing costs and a maintenance free design for users. Our goal is to redefine pH measurement standards and help drive […]

Our project aims to revolutionize the anti-aging skincare market by developing a breakthrough delivery system that enhances the absorption of active ingredients at the cellular level. Traditional skincare products often fail to penetrate deep enough to provide lasting results, leaving consumers with temporary fixes. By leveraging innovative biotechnology, our solution ensures more profound skin rejuvenation, […]

The main objective of this project is to develop and characterize innovative and sustainable materials for energy storage devices. In alignment with the UN Sustainable Development Goals, the project will investigate using renewable phenolic sources (such as tannin) and industrial waste (such as kraft black liquor) as precursors for synthesizing carbonaceous materials and composites. This […]

The objective of this project is to create and improve metal-infused filaments for low-cost 3D printers by including recyclable elements. We combine recyclable and bio-based polymers with eco-friendly metal particles, including carbonyl nickel, to provide a durable and sustainable 3D printing material. During the first phase, we produce and test these metal/polymer filaments to ensure […]

The proposal seeks to improve the technology readiness of a new family of printable (liquid-based) ink formulations designed for the advanced manufacturing sector. These chelated sol-gel materials have a low viscosity, allowing their use in a commercial digital inkjet-printing equipment. Most importantly, they are designed to offer the unique ability to convert from liquid to […]

Two-dimensional materials (2DMs), such as graphene, have revolutionized the field of nanotechnology due to their exceptional electronic, optical, and mechanical properties. However, the introduction of controlled defects into these materials offers an exciting avenue for tailoring their functionalities for next-generation technologies. This project focuses on studying the effects of defects, such as grain boundaries and […]

Rapid diagnostic tests play a crucial role in preventative medicine and epidemiology. Despite their widespread adoption in the industry, obtaining precise, quantitative results for low concentrations of analyte remains a significant challenge. For example, point-of-care (POC) tests for COVID-19 can exhibit a 70% rate of false negatives in some cases. The aim of this project […]

The transformation of light in current, i.e. photodetection, has been exploited in several technologies. From the detectors used in materials characterization to solar cells, the use of performant materials that can efficiently produce photocurrents is inspired by the normal functioning of the eyes. Within them, a photon of light is converted into a current, traveling […]

The project focuses on advancing the production of high-quality, cost-effective two-dimensional (2D) nanomaterials, such as graphene, hexagonal boron nitride (h-BN), and molybdenum disulfide (MoS2), by optimizing the Compressible Flow Exfoliation (CFE) process. This innovative technique has the potential to replace costly fabrication techniques, significantly reducing production costs without compromising material quality. Through this collaboration, the […]

Global transition to a digital society has billions using microelectronic technology in their day-to-day activities. The increasing demand for miniaturization, speed, and reliability must be satisfied with a compact combination of multiple microchips. The technical constraints are quickly surpassing the capabilities of conventional circuit boards. Thus, silicon interposers, a high-cost, high-performance packaging solution for integrating […]

Advanced packaging and high-density chip stacking technologies are pivotal in the evolution of microelectronics, enabling enhanced performance through heterogeneous integration. Hybrid bonding interconnection has increasingly been recognized as the unique bonding method that meets the demands for high-density chip stacking. Cu/SiO2?hybrid bonding is the standard packing interface recently introduced in the industry. However, it faces […]