iTSSe TSS ADVANCED MATERIALS & PROCESSES | APRIL 2023 41 iTSSe TSS 9 FEATURE References 1. Global System for Mobile Communications, Understanding the Internet of Things (IoT), London, U.K., Jul. 2014. 2. Y.-K. Chen, Challenges and Opportunities of Internet of Things,” in 17th Asia and South Pacific Design Automation Conference, Sydney, Australia, p 383–388, 2012. 3. R. Khan, et al., Future Internet: The Internet of Things Architecture, Possible Applications and Key Challenges, in 2012 10th International Conference on Frontiers of Information Technology, Islamabad, Pakistan, p 257–260, 2012. 4. K. S. Yeo, et al., Internet of Things: Trends, Challenges and Applications, in 2014 International Symposium on Integrated Circuits (ISIC), Singapore, p 568–571, 2014. 5. W. Ejaz, et al., Efficient Energy Management for the Internet of Things in Smart Cities, IEEE Commun. Mag., Vol. 55, No. 1, p 84–91, Jan. 2017. 6. M. Casini, Internet of Things for Energy Efficiency of Buildings, Archit. Eng., p. 5, 2015. 7. S.N. Mohanty, J.M. Chatterjee, and S. Satpathy, Eds., Internet of Things and Its Applications, EAI/Springer Innovations in Communication and Computing, Springer, 2022. 8. C. Zhu, et al., Green Internet of Things for Smart World, IEEE Access, Vol. 3, p 2151–2162, 2015. 9. S.C. Mukhopadhyay, Ed., Internet of Things: Challenges and Opportunities, Cham: Springer, 2014. 10. R.J. Bord, A. Fisher, and R.E. O’Connor, Public Perceptions of Global Warming: United States and International Perspectives, Clim Res, p 10, 1998. 11. J. Chen and Z.L. Wang, Reviving Vibration Energy Harvesting and Self-Powered Sensing by a Triboelectric Nanogenerator, Joule, Vol. 1, No. 3, p 480–521, Nov. 2017 12. P. Dhiman, et al., Harvesting Energy from Water Flow over Graphene, Nano Lett., Vol. 11, No. 8, p 3123–3127, Aug. 2011. 13. F. Zhao, et al., Direct Power Generation from a Graphene Oxide Film under Moisture, Adv. Mater., Vol. 27, No. 29, p 4351–4357, Aug. 2015. 14. J. Liu, et al., Moisture-Enabled Electricity Generation from Gradient Polyoxometalates-Modified Sponge-Like Graphene Oxide Monolith, J. Mat. Sci., Vol. 54, p 4831-4841, 2019. 15. J. Perry, et al., Pin Fin Array Heat Sinks by Cold Spray Additive Manufacturing: Economics of Powder Recycling, J. Therm. Spray Technol., Vol. 28, No. 1-2, p 144–160, Jan. 2019. www.masterbond.com Hackensack, NJ 07601, USA ∙ +1.201.343.8983 ∙ main masterbond.com High Strength Epoxies for Testing Cohesive Strength of FLAME-SPRAYED COATINGS EP15ND-2 for metallic substrates EP15 for ceramic substrates DESIGNED FOR TESTING UNDER ASTM specification C633 HIGH TENSILE STRENGTH > 12,000 psi UNLIMITED WORKING LIFE at room temperature ONE PART, NO MIX SYSTEMS Thermal Spray Online Directory Are you in need of a high-quality spray shop to perform surface engineering and coating services? Are you looking for a specialized lab for testing and analysis? Perhaps you are in the market for wires or powders for your company’s in-house spray facility. Visit the Thermal Spray Online Directory—a onestop-shop that allows you to efficiently find products, research companies by reading peer reviews, and connect with vendors to make your buying process seamless. Don’t forget to download free white papers and press releases while you are there! Would you like your organization listed? The basic listing is FREE and can be completed here: www.thermalspraydirectory.com/addyourcompany. VISIT: https://www.thermalspraydirectory.com
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