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Innovative Micro-Structured Targets for Enhanced Laser-Driven Proton Acceleration
Introduction Laser-driven ion acceleration is an emerging promising technology for generating high-energy proton beams in a compact and cost-effective manner. By utilizing intense laser pulses to interact with solid targets, it is possible to produce ion beams with energies suitable for various applications, including medical therapy, materials science, and imaging. Traditional flat-foil targets, while well-understood, face […] Read More >
Quantum Key Distribution by Quantum Energy Teleportation
Quantum energy teleportation (QET) is an innovative technique that leverages quantum entanglement and local operations with classical feed-forward to induce extractable energy at a remote location without physically transporting energy carriers. Closely related ideas apply to quantum charge teleportation (QCT), where the same entanglement and feedforward paradigm is used to generate controlled, verifiable changes in […] Read More >
Bioactive Scaffold for Real Time, Label Free Monitoring of Wound Healing
Chronic wounds and severe burns are common, slow to heal, and costly to treat, yet clinicians mainly rely on infrequent visual inspection during dressing changes to assess healing. Existing skin substitutes and scaffolds (e.g., CEAs, synthetic matrices) support regeneration but are “blind” to cellular activity and cannot provide continuous, quantitative feedback on how well the […] Read More >
Self Supervised ECG Embeddings for Emotion and Glucose Monitoring
Emotional state and glucose monitoring typically require subjective questionnaires, invasive blood tests, or specialized sensors that are impractical for frequent or continuous use. ECG is widely available and non‑invasive, but existing models struggle to infer higher‑order states (emotion, metabolic status) from noisy, non‑stationary ECG signals, especially when labeled datasets are small. Current self‑supervised ECG methods […] Read More >
Artifact-Free Panoramic Dental X ray via Deep De Shadowing
Unmet need Panoramic X‑rays suffer from inherent ghost jaw, spinal overlay, and pharyngeal air‑gap artifacts that obscure teeth, mandibular canal, TMJ, and lesions, risking missed or uncertain diagnoses. Current enhancement tools, such as contrast equalization, super‑resolution, GAN-based deblurring improve image quality but do not explicitly correct these projection artifacts. Clinicians often require CBCT to clarify […] Read More >
Asymmetric Chemical Vapor Deposition (A-CVD) for Manufacturing Thick, High-Quality Graphite Films
Efficient thermal management is critical for modern electronics, including integrated circuits and data centers, as well as specialized industrial components. These applications demand materials with ultra-high thermal conductivity. While graphite is an ideal candidate, the thermal conductivity of currently available mass-produced graphitic products is often insufficient due to the low crystal quality inherent in standard […] Read More >
4D Printing of Human Vascularized Cardiac Tissues
Conventional 3D bioprinting cannot reliably generate true capillary-scale networks with precise spatial control under cell‑compatible conditions. This technology introduces a one‑step, multi‑kinetic 4D bioprinting platform that prints multiple cell‑laden bioinks in a single process and then triggers coordinated, selective shrinkage of pre‑designed vessels down to capillary dimensions under physiological conditions. Technology Description A thermo‑responsive, cell‑friendly […] Read More >
High-Performance, Melt-Processed Soy Protein Bioplastics
Introduction: The Imperative to Replace Petroleum Plastics The world faces an environmental crisis driven by the pervasive use of petroleum-based plastics. These materials accumulate as waste, pollute ecosystems, and contribute significantly to greenhouse gas emissions throughout their lifecycle. A fundamental shift is required—moving away from fossil fuel dependence towards high-volume, functional materials derived from renewable, […] Read More >
Magnetic Nanoparticle Theranostic Platform
Many severe diseases are located in deep tissues or behind biological barriers that standard systemic drugs cannot penetrate effectively. This anatomical challenge severely limits therapeutic efficacy for conditions affecting the central nervous system, solid tumors, and other immunologically privileged sites. Systemic therapies (such as chemotherapy) produce severe adverse effects while remaining limited in efficacy due […] Read More >
Targeted Antisense Oligonucleotide Therapy Using Lipid Nanoparticles
Antisense Oligonucleotides (ASOs) are among the fastest-growing classes of therapeutics used to modulate gene expression. Among ASOs, Locked Nucleic Acids (LNAs) are an advanced form of ASO with chemical modifications that enhance their binding affinity and stability (1). As of today, several ASOs have been approved for clinical use, primarily for the treatment of rare […] Read More >
