Search by tag «Research Project» 154 results

  • ITMO Scientists Develop Ultracompact Optical Switch

    The new device includes a structure of single-atom semiconductors and an ultracompact nanoresonator. The switching is conducted with light, via changes in the exciton states in each of the two semiconductor layers. Thanks to its ultracompact size (10 nanometers long and 1.5 nanometers thick), the device can be placed on a chip for use as a logic element in computers for optical information processing. The results of this study, conducted in collaboration with Pohang University of Science and Technology (POSTECH, South Korea), are described in an article published in ACS Nano. 

    22.03.2023

  • Bringing New Technologies Closer: ITMO PI Mikhail Petrov Talks Quantum Nanophotonics, Optical Levitation, and Research Management

    Coming from a family of physicists, Mikhail Petrov didn’t have to think long to choose his career path. His career started at one of the best schools in the city, then led him to Peter the Great St. Petersburg Polytechnic University, to Finland, and finally – to ITMO, where he works on his own research, leading a team of young scientists. Among the several projects developed by his team is quantum memory, as well as optical levitation and optical tweezers. In this article, he shares how fundamental research fosters next-gen technologies and offers tips on managing a team of theoretical physicists.

    21.03.2023

  • ITMO's Monday Science Roundup #26

    It’s been a while since our latest digest of all things science at ITMO – so strap in for an extra-packed edition! From staggering medical breakthroughs to a whole slew of new Master’s programs, there’s plenty to get you excited about the future of research.

    20.03.2023

  • Optical Innovations: ITMO Researchers Create Controllable On-Chip Topological States

    A research team featuring scientists from ITMO University and the City University of New York has successfully created controllable topological states that can be selectively excited on a silicon chip. This is the first time that such an effect was induced in the infrared range and inside a structure just a few microns in size. As proved in the article published in Nano Letters, the flexible control mechanism, as well as its on-chip implementation, can serve as a foundation for disorder-robust optical microchips.

    15.03.2023

  • Gut Microbiota Can Predict Immunotherapy Response, ITMO Scientists Say

    In their study of correlations between intestinal microbiota and melanoma treatment results, researchers from ITMO University and the Lopukhin Federal Research and Clinical Center of Physical-Chemical Medicine have come across functional biomarkers that can predict immunotherapy efficacy and beneficial bacteria that enhance immune responses in patients through stimulating the development of T-cells. The findings can be potentially used to develop a pre-treatment diagnostic test and issue recommendations for gut microbiome correction. The results of the study were published in mSystems.

    15.03.2023

  • ITMO Researchers Design a Dataset to Study the Functions of Immune Cells

    As a central component of the human immune system, mononuclear phagocytes defend the body by absorbing bacteria, viruses, and dead or damaged cells, thus fighting off infections and helping build immunity. Researchers from ITMO University, together with their colleagues from the Immunological Genome Project (ImmGen), have devised a specialized resource to study mononuclear phagocytes and a novel method for gene expression analysis. Featured in Cell Reports, the results of their work may potentially break the ground for new ways to treat metabolic diseases, such as atherosclerosis and cancer.

    10.03.2023

  • ITMO Scientists Suggest Novel Nanoparticle-Based Cancer Treatment

    Cancer is the second most common death cause in the world, which in 2020 took the lives of nearly 10 million people – every sixth death, according to WHO. Globally, researchers are developing new, more efficient treatments for oncological diseases. Scientists from ITMO also contribute to these efforts: recently, they have come up with a universally applicable magnetic particle from zinc ferrite and manganese ferrite that can facilitate both cancer diagnostics and treatment. The new method increases the efficiency of radiotherapy by 40%, and during magnetic hyperthermia it can heat cancer cells in several seconds, while also securing less exposure for the healthy cells. This study was published in Journal of Materials Chemistry B.

    07.03.2023

  • New Method to Detect Influenza and Coronavirus Suggested at ITMO

    Researchers from ITMO University and Smorodintsev Research Institute of Influenza have suggested a multipurpose method that can detect coronavirus and influenza type A and B viruses in biological liquids. At the core of the novel method is surface-enhanced Raman spectroscopy (SERS) combined with machine learning, which help make it up to 85% accurate – meaning that it performs better than express tests (which produce false positive results in 11-48% of cases). Moreover, the new method compares favorably with PCR, too, as it takes minutes to complete. The solution is described in an article published in Biosensors.

    02.03.2023

  • ITMO’s Monday Science Roundup #25

    Today’s digest of the hottest science news, courtesy of ITMO.NEWS, starts off with the latest in hard-hitting research, continues with a review of the university’s newest and most exciting science departments, and concludes with some entertaining-yet-insightful glances into the hot topic that is quantum physics.

    27.02.2023

  • New Diagnostic System for Helicobacter pylori Detection Suggested at ITMO

    Scientists from the Research Laboratory for Spectroscopy of Biological Objects have come up with a new diagnostics system that detects Helicobacter pylori bacteria with a 98% accuracy level. The new device is easier to use and relies on Russian-produced components. How does it work? Learn from this article.

    20.02.2023