
610. Quantum Geometry: A New Map for Superconducting Fluctuations
Exploring how quantum information geometry provides a new way to understand the complex electrical transport in multicomponent superconductors.
Raimundas Juodvalkis
Knowledge Base
Daily technical briefs on graphene production, batteries, sensors, coatings, aerospace, biomedical research, and industrial manufacturing.
Graphene production research, scalable manufacturing methods, reactor design, carbon conversion, and industrial process development.
Graphene battery materials, supercapacitor electrodes, hydrogen production, photocatalysts, and energy-storage research.
Graphene electronics, photonics, semiconductor interfaces, spintronics, sensors, and device-level research.
Graphene chemical sensors, biosensors, environmental sensors, tactile sensing, and high-sensitivity detection technologies.
Graphene coatings, composite additives, corrosion protection, plastics, concrete, films, and engineered materials.
Graphene biomedical materials, drug delivery, biosensing, cancer research, tissue interfaces, and medical device applications.
Graphene aerospace materials, radiation shielding, lightweight composites, thermal management, and defense applications.
Graphene membranes, water filtration, pollutant detection, environmental remediation, and clean technology research.

Exploring how quantum information geometry provides a new way to understand the complex electrical transport in multicomponent superconductors.
Raimundas Juodvalkis

A technical guide for prototyping a non-Faradaic graphene biosensor designed for real-time, label-free quantification of Human Serum Albumin (HSA) using electric double-layer modulation.
Raimundas Juodvalkis

Imagine a world where your smartwatch never needs a charger because it stays powered by the warmth of your skin, or where tiny sensors embedded in industrial engines harvest energy from the heat they
Raimundas Juodvalkis

Discover how the marriage of 2D magnets and graphene is enabling a new era of spintronics by controlling electron spin at the atomic interface.
Raimundas Juodvalkis

A technical guide for labs and startups to develop topological electronic components by leveraging the twist angle between graphene and WSe2 to switch between Chern insulator and trivial states.
Raimundas Juodvalkis

Scientists explore how engineering three-valley moiré patterns in graphene-based materials enables intervalley coherence and flavor polarization, paving the way for advanced quantum information processing.
Raimundas Juodvalkis

Researchers discover how optical vortices can detect tiny, swirling loop currents in moiré superlattices, a breakthrough for quantum computing and next-generation electronics.
Raimundas Juodvalkis

Learn how to overcome Klein tunneling in 2D materials by using WSe2 and localized magnetic fields to create stable quantum dots for next-generation spin-valleytronics.
Raimundas Juodvalkis

A deep dive into how subtle structural variations in twisted bilayer graphene prevent scientists from observing the BKT transition and determining the true symmetry of the superconducting state.
Raimundas Juodvalkis

Exploring how operator ordering in twisted bilayer graphene creates emergent gauge fields and unique spectral signatures at the magic angle.
Raimundas Juodvalkis

A technical guide for prototyping hydrogen storage materials using calcium-decorated carbon nanotubes to achieve the optimal -0.2 to -0.4 eV binding energy window.
Raimundas Juodvalkis

Researchers have discovered that the inherent randomness in graphene can be harnessed to create Josephson diodes, offering a new path toward scalable, low-power superconducting electronics and quantum computing components.
Raimundas Juodvalkis

Explore how Maria V. Perel's research into semiclassical tunneling in graphene provides the mathematical framework needed to control electron flow in nonuniform electrostatic and magnetic environments.
Raimundas Juodvalkis

Learn how to implement encapsulated 2D material architectures to mitigate Coulomb noise and stabilize electronic transport in graphene-based nano-electronics using electrostatic screening.
Raimundas Juodvalkis

Explore the cutting-edge physics of bilayer graphene junctions, where magnetic fields and valley-contrasting properties create persistent currents and orbital magnetization, signaling a revolution in low-power quantum electronics.
Raimundas Juodvalkis

New research proposes a method to reconstruct the complete electronic states of materials by analyzing the interference patterns created when electrons scatter off defects, a breakthrough for quantum engineering.
Raimundas Juodvalkis

New research explores how mechanical strain can transform graphene into a Resonating Valence-Bond state, potentially opening doors to advanced superconductivity and quantum computing.
Raimundas Juodvalkis

A technical guide to prototyping valley-dependent electron deflectors, splitters, and filters using dual-gated Bernal-stacked bilayer graphene.
Raimundas Juodvalkis

Exploring how advanced micro-scale manufacturing using Direct Laser Writing enables continuum robots to sense their own shape through integrated conductive networks.
Raimundas Juodvalkis

Researchers are exploring how a single layer of graphene can serve as a transparent conductive contact for AlInN-based solar cells, significantly boosting efficiency and light absorption.
Raimundas Juodvalkis

Learn how to construct a prototype diamagnetic Tesla engine using a stacked graphene disk and lateral displacement to convert light into mechanical rotation.
Raimundas Juodvalkis

New research utilizes dark field transmission electron microscopy to reveal the 3D atomic reconstruction in twisted bilayer materials, bridging the gap between visual moiré patterns and the underlying quantum physics.
Raimundas Juodvalkis

This technical analysis explores how adding graphene nanoplatelets to LiMnO2 via a hydrothermal process improves battery capacity, conductivity, and stability by preventing manganese dissolution and particle growth.
Raimundas Juodvalkis

A practical guide for engineers to implement strain-modulated graphene nanoribbons for high-sensitivity infrared sensing and optoelectronic switching.
Raimundas Juodvalkis
Showing articles 25-48.