DiscoverMaterialism: A Materials Science Podcast
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Materialism: A Materials Science Podcast
Author: Taylor Sparks and Andrew Falkowski
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Description
In this podcast, Taylor and Andrew investigate the past, present, and future of materials science and engineering. Topic areas ranging from cutting edge materials technology, the history of different materials, the commercialization of new materials, and exciting advances in processing and characterization are all covered in detail. Our episodes include things like the unlikely discovery of superglue or teflon, the fascinating backstories about modern biomaterials like dialysis filters, and updates on new technologies including wearable electronics, next generation batteries, and nanomaterials. In short, we hope to help listeners understand the critical role that materials have played in society and even glimpse into what the future may hold for new materials.
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What brings a social media company into materials science? In this episode, we talk with Larry Zitnick of Meta's Fundamental AI Research (FAIR) and Aaike van Vught from VSParticle about building OCx24, an open catalysis materials database. We discuss the challenges of creating an experimental database from scratch and how autonomous spark ablation devices made it possible. We cap things off with a discussion about how machine learning tools can leverage this database to help us discover new catalysts.
You can find more info about this project below:
Blog post: https://ai.meta.com/blog/open-catalyst-simulations-experiments/
Paper: https://arxiv.org/abs/2411.11783
Dataset: https://fair-chem.github.io/core/datasets/ocx24.html
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks , Andrew Falkowski , & Jared Duffy .
What do a Mach-3 aircraft and a hip replacement have in common? They are both made of titanium. In this episode we dive into this incredible material from its name rooted in Greek mythology to the unique variants of commercial titanium. Learn about the interesting challenges facing titanium's use in the SR-71 to the new variants being actively researched to help bring this material up to superalloy standards.
This episode of the Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (co-host, production, marketing, and editing).
Keywords: Titanium Alloy Titan Metallurgy Aerospace Metals SR-71 Submarines Skunkworks
At temperatures hotter than the surface of the sun (>20,000K), a revolutionary physics-based process is creating the future of nanomaterials - no chemicals required. We talk to Aaike van Vugt co-founder of VSParticle and an expert in the field of spark ablation. He walks us through the process of coating materials in nanoparticles as well as its various uses. We explore what materials are suitable for the method and their pivot into nanoporous films.
The Materialism Podcast is sponsored by American Elements, a leading manufacturer and supplier of materials. You can learn more about their work and services by visiting their website.
This episode was sponsored by VSParticle. Be sure to check out their website to see how you can leverage their technology. More info about them can be found here.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Keywords: Nanofilms Nanomaterials
You probably think you know a lot about steel, you couldn’t be more wrong. In this episode we sit down with Caelan Kennedy from the Steel Founders’ Society of America to discuss the intricacies of steel. From tuning properties by using different elements in the alloy to the confusing naming conventions. This episode will help expand your knowledge about a material you thought was pretty simple.
The Materialism Podcast is sponsored by American Elements, a leading manufacturer and supplier of materials. You can learn more about their work and services by visiting their website.
This episode was sponsored by SFSA. Be sure to check out their student competitions: Cast in Steel for undergraduates can be found at SFSA.org and Casting Dreams for students age 8-18 can be found at castingdreams.org
This episode of the Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Stainless Steels Grades Steel AISI SAE Wrought Cast
Quantum isn't just a buzzword used in the movies. In this episode we are joined by Jason Khoury, Assistant Professor at Arizona State University, he helps explain the key concepts necessary to understand the basics of quantum materials. We discuss the origin of quantum behavior including interactions between charge, spin, orbit and lattice. From the serendipitous discovery of high-temperature superconductors to the theoretical predictions of exotic quantum behaviors. This conversation will provide the foundational knowledge needed to better understand the emerging technologies based on quantum materials.
References:
Quantum Materials and Chemistry Review - An in-depth review focusing on the chemistry of quantum materials.
Exploring Electronic Structure Using Quantum Materials - A study exploring the application of quantum materials in understanding electronic properties.
Topological Nature of Quantum Materials - Insight into the topological aspects of quantum systems.
Advances in Quantum Material Research - A comprehensive review on quantum materials and their emerging technologies.
The Materialism Podcast is sponsored by American Elements, a leading manufacturer and supplier of materials. You can learn more about their work and services by visiting their website.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Quantum Materials Superconducting Superconductors Orbit Lattice Exotic
Pyrometallurgy is one of the oldest branches of materials science, yet it is constantly evolving. Join us as we take a broad look at the process of transforming ore into the metals we use every day. From ancient techniques for checking counterfeit coins to cutting-edge innovations like battery recycling, we cover every step of the current process and discuss where the future of pyrometallurgy is headed.
The Materialism Podcast is sponsored by American Elements, a leading manufacturer and supplier of materials. You can learn more about their work and services by visiting their website.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Pyrometallurgy Smelting Ore Metals Recycling
In this episode, we explore the story of Harley Wilhelm, an unsung hero of the Manhattan Project. Discover how the Ames Process revolutionized the production of pure uranium metal, turning a slow and inefficient task into an streamlined operation that played a critical role in ending World War Il. We'll explore the challenges faced, the science of uranium enrichment, and the surprising uses of depleted uranium. Tune in for a deep dive into one of the lesser-known but vital contributions to history's most ambitious project.
You can buy a copy of the book that inspired this episode here.
The Materialism Podcast is sponsored by American Elements, a leading manufacturer and supplier of materials. You can learn more about their work and services by visiting their website.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Uranium Enrichment AMES Process Manhattan Project Oppenheimer Depleted Uranium
A new class of material doesn't show up often. In this episode, we dive into the revolutionary discovery of high entropy alloys (HEAs) that revitalized the field of metallurgy. We dive into their simultaneous discovery at both Oxford and Tsinghua National University. Learn how they break all the typical rules we know. We explore how their composition gives them exceptional strength, hardness, thermal stability, and their superior resistance to corrosion and wear. Discover why HEAs are transforming the materials industry and how their versatility is driving future technological advancements.
The Materialism Podcast is sponsored by American Elements, a leading manufacturer and supplier of materials. You can learn more about their work and services by visiting their website.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
This episode of the Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: HEAs High Entropy Alloys
Choosing the wrong material can have dire consequences. In this episode of our failure series, we discuss how the incorrect choice of epoxy led to a catastrophic failure and a tragic death. Discover the series of poor decisions that turned a new highway plan into one of the costliest public works projects ever. Join us as we uncover the lessons learned from this devastating event and the changes it inspired.
Selected References:
The Big Dig: project background [LINK]
Control of Epoxy Creep Using Graphene [LINK]
Forensic Engineering Applied to Failures in Concrete Polymer Materials [LINK]
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
This episode of the Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks , Andrew Falkowski and, Jared Duffy
Keywords: The Big dig Tunnel Failure Underground Highway Epoxy Creep Boston Massachusetts
Electron microscopy is almost a century old, but it continues to play a role in exciting new developments that extend its use well beyond its original purpose. We sit down with Professor Sergei Kalinin from the University of Tennessee-Knoxville to discuss these exciting new applications of this older technology. Learn how electron microscopy, originally developed for imaging, is now used for atom-by-atom materials fabrication. We also explore how combining this technology with machine learning can streamline scientists' work.
This Materialism Podcast is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more
This episode of the Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Electron Microscopy
The discovery of new materials is an immense challenge, with a vast design space and numerous success criteria. Microsoft has recently demonstrated an advanced approach to machine learning-assisted material discovery, particularly in the realm of lithium-ion battery electrolytes.
They began by exploring all possible structure types, decorating these structures with various atoms, leading to a pool of millions of candidate materials. The screening process went beyond simple stability checks to encompass a broad range of criteria, including predicted properties, electrode stability, and cost. This was achieved through various layers of filtering, leveraging data from diverse calculations, ranging from costly DFT and MD simulations to lower-fidelity calculations.
Microsoft wisely positioned the expensive calculations towards the end of the pipeline, focusing resources only on the most promising candidates. Furthermore, they partnered with the Pacific Northwest National Laboratory (PNNL) to synthesize the compounds identified.
In this podcast, we'll delve into this process, the challenges faced, and the future opportunities in this field, in conversation with Chi Chen and Nathan Baker.
If you want more details on teh work microsoft is doing in this space, you can check out their paper where they provide more details on the methodology and experimental results.
This episode of the Materialism Podcast is sponsored by Microsoft Azure Quantum Elements. You can try out their new copilot tools in an online demo on their Copilot Website. And if you want to learn more about how Microsoft is accelerating scientific discovery, you can head over to the Microsoft Azure Quantum Elements Website.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: AI Quantum Microsoft Materials Acceleration Battery Lithium Ion Li
Designing a great material is only half the battle, now you need to sell it. In this episode we sat down with Dan Wilson from Sintx and took a dive into the surprisingly nuanced world of materials sales and the challenges and pitfalls of marketing materials solutions.
Learn more about Sintx and the great materials they are developing by visiting their website at: http://www.sintx.com/
The Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
This Materialism Podcast is also sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Sales, marketing, salesmanship
The challenge of plastic pollution in our environment will be a defining issue in the coming decades. To address this problem, scientists have developed a host of next generation biodegradable plastics that have the potential to improve the sustainability of single use products. Among these are a class of materials called PHAs which are of particular interest as their microorganism origins are also the means of their decomposition. Join us for a discussion with Nick Sandland as we explore the fascinating world of biodegradable polymers and what the future of plastics will look like.
The Materialism Podcast is sponsored by SciSpace, a new tool that helps streamline the process of reading and exploring materials science literature. You can learn more about their services and tools by visiting their website.
If you like to learn more about PHAs and their potential to transform the plastics industry check out GO!PHA [CLICK HERE]
The Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
This Materialism Podcast is also sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Green Plastic Bio Degradable Biodegradable Single Use PHA Pollution microplastics
There’s more to a material’s microstructure than meets the eye! In this episode of the Materialism Podcast we dive into the world of Electron Backscatter Diffraction (EBSD) characterization, and discuss some of the important properties you can measure with it including grain size, phase distribution, texture, and more! To help us navigate this topic, we sat down with Stuart Wright and Matt Nowell from AMETEK who lend us decades of experience and intimate knowledge of the technique to provide thorough coverage of the past, present, and future of EBSD.
This episode is sponsored by Gatan. A leading manufacturer or products designed to enhance and extend the life of electron microscopes. You can learn more about their products and services by visiting their website.
If you'd like to stay informed about EBSD and EDS news and promotions from EDAX [CLICK HERE]
The Materialism Podcast is sponsored by American Elements, a leading manufacturer and supplier of materials. You can learn more about their work and services by visiting their website.
This Materialism Podcast is also sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: EBSD Electron Backscattering Diffraction microstructure
Meeting the demands of next-generation technologies will require materials to be designed and qualified at faster rates than ever before. The ICME (integrated computational materials engineering) approach is at the forefront of this innovation, blending advanced computational modeling with experimental validation to accelerate the development of new materials and open up the possibility of concurrent design. In this episode, we sit down with Jason Sebastian from QuesTek to learn how they have successfully applied the ICME method to the design of aerospace alloys and ICMD® software they built to enable other companies to implement the method.
Selected References
Wang et al. Integrated computational materials engineering for advanced materials: A brief review [LINK]
Case Study: QuesTek’s Ferrium C64 & Additive Manufacturing Process Make Army Helicopters Tougher, Lighter, and Safer [LINK]
Case Study: QuesTek’s Single Crystal Nickel Answers the Department Of Energy’s Call [LINK]
This episode of Materialism is sponsored by QuesTek’s ICMD® software, a cutting-edge materials design and engineering platform for ICME in a cloud-based SaaS format. Backed by computational models honed through numerous engagements with industry leaders like NASA, SpaceX, and Apple, ICMD® empowers materials engineers to predict how various factors affect material properties such as strength, toughness, corrosion resistance, and fatigue - enabling rapid design, development, and deployment of innovative materials. Visit questek.com to find out how it help solve your materials challenges.
The Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
This Materialism Podcast is also sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Materials Innovation AI ICME ICMD integrated computational materials engineering
Examining the inside of a material is often a destructive process that risks obscuring or deforming critical details. However, advances in computed tomography have opened new opportunities to obtain high resolution, three-dimensional reconstructions of materials in a non-destructive manner. Through this technique materials scientists can now identify cracks and voids in materials without the need for mounting and polishing, observe processes like battery degradation and dendrite growth in real time, and even obtain 3D diffraction data for identifying phase distributions in a material. In covering this fascinating topic, we are joined by William Harris from Zeiss Microscopy who shares his expertise as he walks us through the many ways computed tomography is reshaping materials science.
Selected References:
Withers et al. X-ray computed tomography [LINK]
Villarraga-Gómez et al. Assessing rechargeable batteries with 3D X-ray microscopy, computed tomography [LINK]
Finegan et al. Investigating lithium-ion battery materials during overcharge-induced thermal runaway [LINK]
XinChen et al. Interlaminar to intralaminar mode I and II crack bifurcation due to aligned carbon nanotube reinforcement of aerospace-grade advanced composites [LINK]
Plessis et al. Effects of defects on mechanical properties in metal additive manufacturing: A review focusing on X-ray tomography insights [LINK]
Refuting a 70-Year Approach to Predicting Material Microstructure [LINK]
CT Analysis of a Meteorite [LINK]
Johnson et al. Analysis of the interdependent relationship between porosity, deformation, and crack growth during compression loading of LPBF AlSi10Mg [LINK]
Badran et al. Automated segmentation of computed tomography images of fiber-reinforced composites by deep learning [LINK]
Villarraga-Gómez et al. Improving throughput and image quality of high-resolution 3D X-ray microscopes using deep learning reconstruction techniques [LINK]
This episode is sponsored by Zeiss Microscopy. With over 175 years of innovation in microscopy, ZEISS is proud to offer an extensive suite of optical, 3D X-ray, SEM, and FIB-SEM microscopes to help scientists and engineers understand their materials. Every ZEISS microscope comes with the commitment of providing the highest quality instrument, deep application expertise, and a robust global support network. You can learn more about their work and services by visiting their website.
The Materialism Podcast is sponsored by Cal Nano, leading experts in spark plasma sintering and cryomilling technologies. You can learn more about their work and services by visiting their website.
This Materialism Podcast is also sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-host, co-creator), Andrew Falkowski (co-host, co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Xray Tomography Computed Zeiss CT Materials Research Microstructure
The ability to avoid detection is one of the most useful tricks of modern day combat aviation. In this episode we dive into some of the history of various stealth endeavors ranging from painting ships with fun stripes to creating radioactive fuel additives. All culminating in a discussion of the materials that make a plane stealthy.
References:
History of Radar [LINK]
How do radars work? [LINK]
Radar and the kill web [LINK]
Review of Radar Absorbing Materials [LINK]
Synthesis of radar absorption material for stealth application [LINK]
Carbon-based radar absorbing materials: A critical review [LINK]
Electromagnetic microwave absorption theory and recent achievements in microwave absorbers [LINK]
Synthesis of porous carbon embedded with NiCo/CoNiO2 hybrids composites for excellent electromagnetic wave absorption performance [LINK]
Skunk Works: A Personal Memoir of My Years at Lockheed by Ben Rich and Leo Janos
Kelly: More Than My Share off It All by Clarence "Kelly" Johnson and Maggie Smith
This episode is sponsored by Cal Nano, learn more about their work and services by visiting their website.
This episode is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-creator,editing assistance), Andrew Falkowski (co-host, co-creator), Jared Duffy (co-host, production, marketing, and editing).
Keywords: F117 Nighthawk Stealth Fighter Jets RAM Radar Absorbing Material Skunkworks Spy Plane
Taylor sits down with Dr. Hayden Evans of NIST and Sir Dr. Anthony Cheetham of UCSB/Cambridge/National University of Singapore to talk about their research on carbon storing materials. Learn what special characteristics makes the materials they are researching well suited for CO2 capture.
Articles:
Perovskite-related ReO3-type structures
Aluminum formate, Al(HCOO)3: An earth-abundant, scalable, and highly selective material for CO2 capture
Noncryogenic Air Separation Using Aluminum Formate Al(HCOO)3 (ALF)
Exclusive Recognition of CO2 from Hydrocarbons by Aluminum Formate with Hydrogen-Confined Pore Cavities
Hydrogen Storage with Aluminum Formate, ALF: Experimental, Computational, and Technoeconomic Studies
This episode is sponsored by Cal Nano, learn more about their work and services by visiting their website.
This episode is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-creator,co-host), Andrew Falkowski (co-creator), Jared Duffy (production, marketing, and editing).
Keywords: CO2 Capture Sequestration Carbon Reducing MOF Formate
Join us as we speak to Delta Faucet about a new way of ceramics processing. Learn how the process works and why they aren't pursuing it further at the moment.
This episode is sponsored by Delta Faucet, learn more about their work and services by visiting their website.
This episode is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-creator,co-host), Andrew Falkowski (co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Materials Science Manufacturing Ceramics Faucets Processing Time
Cryogenic Milling, the name may be self explanatory but the process is not. We sit down with Eric Eyerman CEO of at Cal Nano to talk about what Cryogenic Milling is, how Cal Nano has used it in the past, and the benefits it offers to engineers.
This episode is sponsored by calnano, learn more about their work and services by visiting their website.
This episode is sponsored by Materials Today, an Elsevier community dedicated to the creation and sharing of materials science knowledge and experience through their peer-reviewed journals, academic conferences, educational webinars, and more.
Thanks to Kolobyte and Alphabot for letting us use their music in the show!
If you have questions or feedback please send us emails at materialism.podcast@gmail.com or connect with us on social media: Instagram, Twitter.
Materialism Team: Taylor Sparks (co-creator,co-host), Andrew Falkowski (co-creator), Jared Duffy (production, marketing, and editing).
Keywords: Materials Science Manufacturing Cryogenic Milling
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Thank you for this podcast ❤️
This is good sublement to learning this field from a different angle. It is very motivating to listen to.
That was a nice episode. We expect more episodes about Materials Informatics.
Tnx a lot Masters
Great work, love the podcast!
Loving this podcast. keep up the good work guys!