100 Nano-Stories: Works Cited!

Bonus: Sources I Used For “100 Nano-Stories: Bookmarked!”

Give credit where credit is due. ~ Loretta Young.

Creating “100 Nano-Stories: Bookmarked!” was no easy task. That’s a given. I had to go through countless articles, videos, books, and courses to find the most reliable and information-dense material to learn about nanotechnology. But the most important thing was sharing the information with everyone who is reading this.

I believe in the research that I read to explain everything about the fundamentals of aerogel, graphene, nanotechnology, and organic nanomaterials to all of you.

Thank you to the people who created the resources to build my knowledge and create “100 Nano-Stories: Bookmarked!” Having that said, I will share your work in this article as an explicit way of gratitude and acknowledgment. You deserve it. 🙏🏽

Silica Aerogel; Synthesis, Properties, and Characterization

Chemistry of Aerogels and Their Applications

An Introduction to Sol-Gel Processing for Aerogels

Ambient Pressure Hybrid Silica Monoliths with Hexamethyldisilazane: From Vitreous Hydrophilic Xerogels to Superhydrophobic Aerogels

A Facile Preparation of Ambient Pressure–Dried Hydrophilic Silica Aerogels and Their Application in Aqueous Dye Removal

New Metamaterial Features Mechanical Properties That Can Be Reprogrammed

Gorgolis, G., & Galiotis, C. (2017). Graphene aerogels: a review. 2D Materials

Ultralight and Flexible Monolithic Polymer Aerogel with Extraordinary Thermal Insulation by A Facile Ambient Process

Polyimide Aerogels with Amide Cross-Links: A Low-Cost Alternative for Mechanically Strong Polymer Aerogels

Khan Academy Courses: Organic Chemistry

Chemistry Stack Exchange: Q & A on Chemistry

Aerogels: promising nanostructured materials for energy conversion and storage applications

Meador, M. A. B., Malow, E. J., Silva, R., Wright, S., Quade, D., Vivod, S. L., … Cakmak, M. (2012). Mechanically Strong, Flexible Polyimide Aerogels Cross-Linked with Aromatic Triamine

Li, M., Qin, Z., Cui, Y., Yang, C., Deng, C., Wang, Y., … Hu, Y. (2019). Ultralight and Flexible Monolithic Polymer Aerogel with Extraordinary Thermal Insulation by A Facile Ambient Process. Advanced Materials Interfaces

Schiraldi, D. A. (2015). Polymer Aerogels. Encyclopedia of Polymer Science and Technology

Montes, S., & Maleki, H. (2020). Aerogels and their applications. Colloidal Metal Oxide Nanoparticles

Anderson, A. M., & Carroll, M. K. (2011). Hydrophobic Silica Aerogels: Review of Synthesis, Properties, and Applications. Aerogels Handbook

Deformation and thermal resistance study of aerogel blanket insulation material under uniaxial compression

Aerogel blankets: From mathematical modeling to material characterization and experimental analysis

Cen, K., Chi, Y., & Wang, F. (Eds.). (2007). Challenges of Power Engineering and Environment → Research Progress on Aerogels as Transparent Insulation Materials Qunzhi ZHU*, Yongguang LI** and Zhongzhu Qiu+ (Page 1117)

N-doped carbon aerogels for carbon dioxide (CO2) capture (N → Nitrogen)

Transparent thermal insulation silica aerogels (WINDOWS FOR AEROGELS (OTTI) OPTICALLY TRANSPARENT / THERMAL INSULATING)

Günay, A. A., Kim, H., Nagarajan, N., Lopez, M., Kantharaj, R., Alsaati, A., … Miljkovic, N. (2018). Optically Transparent Thermally Insulating Silica Aerogels for Solar Thermal Insulation

Aegerter, M. A., & Mennig, M. (Eds.). (2004). Sol-Gel Technologies for Glass Producers and Users

Silica Aerogel: Synthesis and Applications

Preparation of Silica Aerogel and Its Adsorption Performance to Organic Molecule

Carbon Aerogels

Functionalization of a Hydrophilic Commercial Membrane Using Inorganic-Organic Polymers Coatings for Membrane Distillation

Effect of Acidity Levels and Feed Rate on the Porosity of Aerogel Extracted from Rice Husk under Ambient Pressure

Multifunctional Carbon Aerogels with Hierarchical Anisotropic Structure Derived from Lignin and Cellulose Nanofibers for CO₂ Capture and Energy Storage

Nixene Publishing Youtube (Graphene)

MIT OpenCourseWare Solid State Chemistry (Youtube)

Introduction to Nanomaterials (Youtube Course)

Aerogels: promising nanostructured materials for energy conversion and storage applications

Rouquerol, J., Llewellyn, P., & Rouquerol, F. (2007). Is the BET Surface Area Equation applicable to microporous adsorbents?

Pekala, R. W. (1989). Organic aerogels from the polycondensation of resorcinol with formaldehyde

Tamon, H., & Olabi, A. G. (2016). Carbon Aerogels

World’s Lightest Solid! (Youtube)

Inside the Lab That Wants to Make Graphene Aerogel in Space (Youtube)

Graphene science | Mikael Fogelström | TEDxGöteborg

Particle Physics (29 of 41) What is a Photon? 13. Mie Scattering

Atmospheric Transmission PowerPoint

Optical Depth Presentation Astrophysics (Astro 300B)

Rayleigh & Mie Scattering In The Atmosphere

Glossary Of Organic Chemistry (UCLA)

Zhao, L., Yang, S., Bhatia, B., Strobach, E., & Wang, E. N. (2016). Modeling silica aerogel optical performance by determining its radiative properties

Theoretical and experimental investigation of haze in transparent aerogels

Rayleigh and Mie Scattering Definitions

MIE SCATTERING & MIE THEORY: Explanation on the use of the refractive index in laser particle size measurement

Fu, Q., & Sun, W. (2001). Mie theory for light scattering by a spherical particle in an absorbing medium

Definition of the phase function

Professor Leonard (Mathematics)

Eddie Woo (Mathematics)

Michel van Biezen (Chemistry, Physics, Mathematics)

The Offical Blog Of Aerogel!

Aerogel Technologies, LLC

Aspen Aerogels, Inc

Innovation Network Of Advanced Materials (INAM)

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