When you think of technology, the chances are computers, smartphones, fridges, and TVs spring to mind. Yet, there is more to technology than mobile devices, appliances, and entertainment systems.
Modern devices and systems would be nothing without their components and applications, which are advancing at a rapid pace and changing the gadgets we know and love. If you want to learn more, find out about the tech advancements that are shaping the industry.
You might scratch your head when you hear the words field effect transistors (FETs), but you will likely use them every day. FETs feature inside everything from smoke alarms, voltage regulators, and power converters in electric vehicles, to name a few applications. Of course, to understand its uses, you will first need to learn the field effect transistor basics, as there are many types and applications, such as:
Insulated-gated FETs (MOSFETs)
Metal-semiconductor FETs (MESFETs)
Junction FETs (JFETs)
There is no question that FETs are at the heart of the latest and greatest technologies, especially MOSFETs, as it is powering advancements in almost every area, from the Internet of Things (IoT) and artificial intelligence to 5G and e-mobility.
MOSFET designers are ultimately developing and adapting new power architectures and more powerful bus voltages, which are helping mobile devices become more powerful in compact sizes.
Non-fungible tokens (NFTs) are advancing blockchain technology at a rapid pace and are helping companies to decentralize products and services. If you don’t know what NFTs are, they are a form of digital property you will own and can trade. Also, your identity can remain hidden, as it doesn’t have a centralized institution.
If you know how NFTs work, you might believe they are primarily for becoming the virtual owner of a piece of music or artwork, but they are more practical than that. NFTs may become more practical than ever, as the technology will soon allow people to buy concert tickets and memorabilia, change how they buy and use digital products, and even transform the way people sign contracts with individuals or businesses.
Gene Editing Technology
Technology is advancing at a rapid and exciting pace, and few accelerations are more interesting than gene editing technology. Despite CRISPR-Cas9 recently turning ten, it is expected to accelerate at a quick pace and may soon enable organizations to alter DNA to edit nature. By doing so, it will enable companies to make changes to plants, materials, and even human beings. Also, it could be used to create brand-new material features, such as self-healing abilities or water resistance.
If you are unsure how gene editing alters DNA, it is when scientists change an organism’s DNA by removing, replacing, or altering the sequence. As a result, it may fix DNA mutations, which could improve crop health, eliminate food allergies, and even help humans edit characteristics, such as their eye color. Also, it may soon play a significant role in overcoming climate change, improving disease resistance, and transforming agriculture, to name a few possible benefits. It will be interesting for many to see how it unfolds.