Materials Are Everywhere - Let's Explore the Building Blocks of Our World!

Вы когда-нибудь задумывались, как выглядит происходят профессиональные научные исследования? Анна Либман, получившая докторскую степень по органической химии в Университете Бен-Гуриона в Негеве, в настоящее время работает постдоком в Университете Райса (Rice University). Благодаря многолетнему опыту и труду, Анна может похвастаться не только углублёнными знаниями в области органического синтеза и публикациями в престижных журналах, таких как «Журнал Американского химического

Have you ever wondered what real-life research looks like? Holding a PhD in Organic Chemistry from Ben-Gurion University of the Negev, Anna Libman is currently a postdoctoral researcher based at Rice University. Her long years and dedication to research have not only brought her deep expertise in organic synthesis and publications in prestigious journals like the Journal of the American Chemical Society, but also a profound understanding of the ins and outs of this profession

Imagine a metal that is thin , can be stretched to more than 10 times its length and can be used to fabricate electronics at the same time💻🔳!  Well, researchers at the Laboratory of Photonic Material and Fiber Devices (FIMAP) in Italy call this material a ‘liquid metal’ 🌑. This material holds great potential for wearable electronics – just imagine a T-shirt👕 with embedded ECG sensors🩻! 'Liquid metal' is not just a name; it's a technology of the future. Resource: shutte

Представьте себе тонкий  металл, может растягиваться в более чем 10 раз своей длины  и применяться для создания электроники  в одно и тоже время 💻🔳 ! Именно такой материал исследователи из Лаборатории Фотонных Материалов и Волоконных Устройств (FIMAP) в Италии называют «жидким металлом» 🌑 . Этот материал обладает огромным потенциалом для носимой электроники — только представьте себе футболку 👕  со встроенными датчиками ЭКГ 🩻 ! "Жидкий металл" - это не просто название; эт

Credit: iStock Understanding materials is essential for any innovation. Thomas Edison’s light bulb (1879) was founded on a newly-discovered carbon filament, while Romans had a unique recipe for making concrete that has withstood 2 thousand years! However, material science hadn’t emerged as a distinct field of study until the 1940s. But how did this happen? Turns out, the answer is DIFFERENT for each COUNTRY. The U S A Separate disciplines like metallurgy, ceramics, polymer sc

Introduction The trend of globalization has connected billions of people and firms all around the planet, and, in fact, global exports today are about 40 times what they used to be in 1913. But how does transcending international borders impact science & technology (1)? Globalization plays a paramount role in prompting science innovation by facilitating collaboration. It gives rise to varying perspectives, global research databases and large-scale research projects, helping t

🔬🕳Исследователи из Окинавского института науки и технологий (OIST) недавно изобрели новый способ того, как можно непосредственно наблюдать за поведением «тёмных экситонов (excitons)» в материалах, имеющих толщину в один атом. Экситон - это одна из частиц, изучаемых в квантовой физике, которая образуется когда атому дают энергию. Это большой рывок вперёд, поскольку понимание и управление этими частицами может усовершенствовать солнечные батареи☀️, датчики🩻, светодиоды💡 и д

🔬🕳Researchers at the Okinawa Institite of Science and Technology (OIST) recently discovered a novel method to directly observe the behavior of "dark excitons" in one-atom thick materials. A dark exciton is a type of particles studied in quantum physics that forms when energy is applied to an atom. This is a big step forward as understanding and manipulating these particles could revolutionize solar cells☀️, sensors🩻, LEDs💡 and even allow the solution of complex problems b

Did you know that according to the most accurate scientific theory about universe, atoms and all other particles are just movements of a field? Dive into an accessible explanation of Quantum Field Theory, and how it explains the way light travels through materials.

According to the United Nations, about 2.2 BILLION PEOPLE WORLDWIDE are in deficiency of safely managed drinking water. The Earth’s...

A pink diamond, which premably had once been possessed by Maria Antoinette, the last queen of France, was just sold for US$ 14 billion on...

Discovering why glass is transparent in an accessible way! Dive into the structure, unique properties and ubiquitious use of this material.

An exciting exploration of aerogels - the materials used to thermally insulate NASA aircraft, collect space dust and filter pollution! Dive into the structure of a jelly, the method for creating aerogels using extreme pressure and their diverse applications.