NUST MISIS Biodegradable Vegetable Composite Approved for Development by the Dutch Company Chemelot Campus
Natalia Kuznetsova, a graduate of a NUST MISIS master’s program “Technologies and Materials of Digital Fabrication”, has developed a new biodegradable composite material with nettle fiber as a filler. Chemelot Campus (Netherlands), one of the largest chemical clusters in Europe became interested in the project. Under the contract with Chemelot Campus, Natalia Kuznetsova will bring the project to the stage of the first batch of material, ready for use on an industrial scale. Chemelot Campus funding for the development will be 60 thousand euros.
Russian Scientists Find Way to Dramatically Improve Ecological Situation Around Coal Mines
The resourceful method may prove a major boon to improving safety and reducing environmental pollution in mining operations around the world.
Un grupo de científicos propone un método para reducir los incendios en las áreas mineras
Las escombreras que se extraen de minas contienen restos de carbón y, al contactar con el aire, se inflaman.
Albeit It Exists: Unexpected New Material Has Been Quenched to Ambient Pressure
Scientists from the National University of Science and Technology MISIS together with colleagues from Germany and Sweden achieved a result that seemed impossible. The researchers managed to create at ultra-high pressures a new material that preserves the structure and properties even under normal atmospheric pressure. Moreover, it turned out that it can be recreated in more “trivial” laboratory conditions via complex chemical reactions. The results of the experiment alongside with their theoretical explanation are presented in Nature Communications.
Albeit It Exists: Unexpected New Material Has Been Quenched to Ambient Pressure
Scientists from the National University of Science and Technology MISIS together with colleagues from Germany and Sweden achieved a result that seemed impossible. The researchers managed to create at ultra-high pressures a new material that preserves the structure and properties even under normal atmospheric pressure. Moreover, it turned out that it can be recreated in more “trivial” laboratory conditions via complex chemical reactions. The results of the experiment alongside with their theoretical explanation are presented in Nature Communications.
新型陶瓷复合材料有望用于信息存储
原标题:新型陶瓷复合材料有望用于信息存储
Variabilidad del campo: así revolucionan los científicos rusos la microelectrónica
Los científicos de la Universidad Nacional de Ciencia y Tecnología de Rusia MISIS (NUST MISIS), sus colegas de la Universidad Estatal de los Urales del Sur y la Academia Nacional de Ciencias de Bielorrusia han desarrollado nuevos materiales.
Fluctuating Fields: Russian Scientists Come up With Brand-New Composites for Microelectronics
The ceramic composites — a breakthrough of a Russian research team, are deemed as exceptionally promising in terms of the development of data storage devices of greater capacity, as well as top sensitive detectors and sensors.
Squeak Of Cancer: Scientists From NUST MISIS Develop a New Ultrasound Tomography System for Cancer Diagnosis
A group of scientists from NUST MISIS has developed a universal system for real-time optical-acoustic and laser ultrasound tomography. One of the promising areas of use of the new device is biomedicine. This system will allow to detect a cancer tumor with high sensitivity and to accurately show its borders in the ultrasound scan format without surgical treatment, as well as to visualize the vessels during operations. The results are published in the international scientific journal Photoacoustics.