In an article published in Life Sciences, researchers from India, the UK, and the USA explore how nanomaterials can induce ferroptosis in cancer cells, highlighting advancements in cancer therapy and molecular dynamics.
By Dr. Noopur Jain
17 Jun 2024
Researchers from the University of California San Diego have created microscopic robots, or microrobots, that can travel through the lungs and deliver cancer-fighting drugs straight to metastatic tumors.
A team of researchers from the Chinese Academy of Sciences used piezoelectric polymer poly-L-lactic acid (PLLA) fibers with ordered micro-nano structures and a piezo catalytically-induced controlled mineralization strategy to create biomimetic tissue engineering scaffolds with a bone-like microenvironment (pcm-PLLA).
In a recent review published in Micromachines, researchers explored the integration of shape-memory polymers with carbon nanotubes, enhancing material properties for applications in soft robotics and tissue engineering.
By Dr. Noopur Jain
13 Jun 2024
A research team from the Fujian Institute of Research on the Structure of Matter (FJIRSM) of the Chinese Academy of Sciences (CAS), led by Prof. Chen Xueyuan, achieved noninvasive phototheranostics in a mouse model with Pseudomonas aeruginosa biofilm-induced pulmonary infection, according to a study published in ACS Nano.
In a recent study, scientists have developed a more flexible technique for producing nanoparticles with precise size control.
In a recent study published in the journal Nano Letters, researchers from the University of Sharjah found that titanium and sulfur nanoribbons can undergo drastic changes in characteristics when compressed. These materials obtain the ability to carry electricity without losing energy.
A compact nanopositioning stage provides fast response and high scanning speed – ideal for fiber alignment and super resolution microscopy applications – new from PI.
Auburn, MA – PI’s P-61...
A recent review paper from the “Shuang-Qing Forum” provides a thorough analysis of the accomplishments and strategic plan for two-dimensional (2D) materials, marking a significant step forward for the semiconductor industry.
In an article published in Applied Science, researchers explored the photothermal performance of a composite scaffold containing SiO2@Fe3O4. Designed to induce controlled temperature variations through mild thermal stimulation, this scaffold aims to promote osteogenic differentiation and enhance bone defect repair, offering innovative solutions for orthopedic treatments.
By Dr. Noopur Jain
10 Jun 2024
In a recent article in Cell Reports, researchers explored immunodominant antibody responses induced by mosaic RBD nanoparticles from various sarbecoviruses, highlighting the potential for pan-sarbecovirus vaccines to offer broad protection against emerging coronavirus threats.
By Dr. Noopur Jain
10 Jun 2024
Researchers at The University of Texas at El Paso are developing a new therapeutic approach that uses nanoparticles for the treatment of skin and lung fibrosis, conditions that can result in severe damage to the body's tissues.
COLUMBIA, Md. (May 29, 2024) — Shimadzu Scientific Instruments announces the new LCMS RX series of triple quadrupole mass spectrometry instruments. These advanced systems are supported by integrated hardware and so...
Guilin University of Technology researchers have created a more flexible, affordable, safer, and high-performing battery option for wearable technology. On June 3rd, 2024, a study outlining the “recipe” for their novel battery type was published in the journal Nano Research Energy.
Researchers from the Institute for Molecular Science and Seoul National University have found that the visible luminescence from chiral gold nanoparticles, when exposed to near-infrared femtosecond pulses, depends on the nanoparticles' chirality. This process achieves high selectivity for either left- or right-handed circularly polarized light.