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Entropy flow in thermoelectric/thermochemical transport
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Unifying physics of chemical mobility, diffusivity, and capacitance
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Glassomics: An omics approach toward understanding glasses through modeling, simulations, and artificial intelligence
Glass science, like other materials domains, has been advancing at a rapid pace during the last few decades thanks to sophisticated experimental techniques, simulation methods, and computing capabilities. Spec...
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Modeling the relaxation of fluctuations in glass during the Ritland crossover experiment
A knowledge of fluctuations is crucial for understanding the long-term kinetics of glasses. However, current approaches for modeling relaxation rely on an order parameter that only approximates the physics of ...
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Open AccessPredicting glass structure by physics-informed machine learning
Machine learning (ML) is emerging as a powerful tool to predict the properties of materials, including glasses. Informing ML models with knowledge of how glass composition affects short-range atomic structure ...
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Article
Open AccessTopological pruning enables ultra-low Rayleigh scattering in pressure-quenched silica glass
Silica glass is the most indispensable material in optical communication applications due to its superior optical properties. The transmission loss of silica glass has been reduced over the past 30 years by co...
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Reference Work Entry In depth
Mechanical and Compositional Design of High-Strength Corning Gorilla® Glass
For complex glass compositions with more than eight constituent compounds, experimental measurements of the entire composition space are prohibitively expensive and time-consuming. In addition, for systems wit...
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Reference Work Entry In depth
Fundamentals of Organic-Glass Adhesion
In this work, we review recently developed methods for quantifying the fundamentals of organic-glass adhesion. This chapter will explore modeling methods, which serve to further develop the known scientific kn...
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Reference Work Entry In depth
Modeling of Glasses: An Overview
Glass modeling includes unique advantages and challenges with respect to other fields of materials modeling owing to lack of long-range order, strong dependence on temperature and pressure history, statistical...
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Chapter
Machine Learning for Glass Modeling
With abundant composition-dependent glass properties data of good quality, machine learning-based models can enable the development of glass compositions with desired properties such as liquidus temperature, v...
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Living Reference Work Entry In depth
Modeling the Relaxation Behavior of Glasses for Display Applications
Glass modeling includes unique advantages and challenges with respect to other fields of materials modeling owing to lack of long-range order, strong dependence on temperature and pressure history, statistical...
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Article
Open AccessImplicit glass model for simulation of crystal nucleation for glass-ceramics
Predicting crystal nucleation behavior in glass-ceramic materials is important to create new materials for high-tech applications. Modeling the evolution of crystal microstructures is a challenging problem due...
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Living Reference Work Entry In depth
Mechanical and Compositional Design of High-Strength Corning Gorilla® Glass
For complex glass compositions with more than eight constituent compounds, experimental measurements of the entire composition space are prohibitively expensive and time-consuming. In addition, for systems wit...
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Article
Open AccessComputational approaches for investigating interfacial adhesion phenomena of polyimide on silica glass
This manuscript provides a comprehensive study of adhesion behavior and its governing mechanisms when polyimide undergoes various modes of detachment from silica glass. Within the framework of steered molecula...
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Article
Open AccessAccessing Forbidden Glass Regimes through High-Pressure Sub-Tg Annealing
Density and hardness of glasses are known to increase upon both compression at the glass transition temperature (Tg) and ambient pressure sub-Tg annealing. However, a serial combination of the two methods does no...
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Chapter
How Did Bioactive Glasses Revolutionize Medical Science? A Tribute to Larry Hench
Biomaterials influence human lives through their versatile medical applications and very promising future. A large number of pharmaceutical firms and manufacturing companies are investing in the production, de...
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Biomaterials for Cell Encapsulation: Progress Toward Clinical Applications
Cell microencapsulation is a technique to treat a wide range of diseases through the continuous and controlled delivery of therapeutic products. This technique can also treat multiple diseases in the absence o...
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Open AccessCrack nucleation criterion and its application to impact indentation in glasses
Molecular dynamics (MD) simulations are used to directly observe nucleation of median cracks in oxide glasses under indentation. Indenters with sharp angles can nucleate median cracks in samples with no pre-ex...
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Article
Open AccessFragility and basic process energies in vitrifying systems
The concept of ‘fragility’ constitutes a central point of the glass transition science serving as the ‘universal’ metric linking previtreous dynamics of qualitatively distinct systems. Finding the fundamental ...
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Article
High-speed camera study of Stage III crack propagation in chemically strengthened glass
Thermally or chemically strengthened glass is more resistant to damage and breakage compared to non-strengthened glass. Both strengthening mechanisms are based on incorporation of a compressive stress profile ...
