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Welcome to IgMin Research – an Open Access journal uniting Biology, Medicine, and Engineering. We’re dedicated to advancing global knowledge and fostering collaboration across scientific fields.
At IgMin Research, we bridge the frontiers of Biology, Medicine, and Engineering to foster interdisciplinary innovation. Our expanded scope now embraces a wide spectrum of scientific disciplines, empowering global researchers to explore, contribute, and collaborate through open access.
Welcome to IgMin, a leading platform dedicated to enhancing knowledge dissemination and professional growth across multiple fields of science, technology, and the humanities. We believe in the power of open access, collaboration, and innovation. Our goal is to provide individuals and organizations with the tools they need to succeed in the global knowledge economy.
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Nikolai Dmitrievich Zhukov Author at IgMin Research
We believe in bridging the gaps between fields to strengthen interdisciplinary understanding.
Biography
Nikolai Dmitrievich Zhukov is a researcher affiliated with Limited Liability Company “NPP Volga Medical”, based in Saratov, Russia. His professional focus lies in the field of electronics, particularly within the context of medical technologies. NPP Volga Medical is recognized as a domestic manufacturer specializing in disposable medical clothing and linen, catering to various medical sectors such as surgery, obstetrics, gynecology, and intensive care.
In addition to his role at NPP Volga Medical, Zhukov contributes to the academic community as an author for IgMin Research, a multidisciplinary open-access journal dedicated to advancing knowledge in biology, medicine, and engineering . His research interests encompass the application of electronic materials in medical devices, with a notable publication on the
properties of indium antimonide nanocrystals as nanoelectronic materials. This work delves into the potential of these nanocrystals for use in advanced medical technologies.
Zhukov's contributions bridge the gap between electronics and medical applications, reflecting a commitment to enhancing healthcare through technological innovation. His work underscores the importance of interdisciplinary research in developing solutions that address contemporary medical challenges.
Research Interest
Nikolai Dmitrievich Zhukov’s research interests focus on the intersection of electronics and medical technologies, with a particular emphasis on the development and application of advanced electronic materials in medical devices. His work explores the potential of nanotechnology and nanoelectronics in enhancing medical applications, particularly in diagnostic tools and therapeutic devices.
He has contributed significantly to the field by researching the properties of indium antimonide nanocrystals, evaluating their effectiveness as nanoelectronic materials for future medical technologies. Zhukov’s research aims to bridge the gap between biomedical engineering and electronics, working towards innovations that can improve patient care and the efficiency of medical treatments.
His expertise spans nanomaterials, biomedical device development, and interdisciplinary applications, contributing to the advancement of healthcare solutions. By integrating electronics with medical needs, his work holds promise for significant breakthroughs in medical diagnostics, therapeutics, and surgical procedures.
Open Access Policy refers to a set of principles and guidelines aimed at providing unrestricted access to scholarly research and literature. It promotes the free availability and unrestricted use of research outputs, enabling researchers, students, and the general public to access, read, download, and distribute scholarly articles without financial or legal barriers. In this response, I will provide you with an overview of the history and latest resolutions related to Open Access Policy.
By measurements on single nanocrystals of indium antimonide in the interelectrode nanogap of a scanning probe microscope, current-voltage characteristics with quasiperiodic current pulsations, are explained in the model of Bloch oscillations in a perfect nanocrystal, and individual sharp peaks - conductivity resonances, explained in the model of quantum-size limitation of the wave process of electron transport in a deep potential hole. The mutual influence of radiation from two statistical ensembles of nanocrystals from the same batch was exper...imentally studied and established. It is assumed that this radiation is entangled photons. It is proposed to use nanocrystals in nanoelectronics as a single-electron memristor, a single-photon bolometer, and a source of microwave radiation.