Apart from being known as one of the world’s top tourist destinations, the Australian chemistry industry plays a vital part in the country’s economic success. Chemistry is the second biggest manufacturing sector in the land down under. As a result, this field successfully provides essential building blocks for most of the Australian economic sectors.
As the world revolves, so are chemistry innovations. 3D bioprinting, MOFs, nano pesticides; these are just some of the impending breakthrough technology to achieve a sustainable future better. Like most chemical companies, Metrohm Australia is keen on its technologies in between the discovery stage and the commercial product. Here are some of the possible chemical inventions that will change the world.
Nanopesticides
Nano-formulated pesticides today deliver their active ingredients without harming the environment. In the past decades, neonicotinoids were used as pesticides, and accordingly, this is not good for nature. Today, more efficient and environment-friendly agrochemicals are used to deal with the global population. Although no concrete proof yet is established on how nano agrochemicals are more efficient than their old counterparts, studies are regularly continuing.
Enantioselective Organocatalysis
Synthetic chemists are thrilled to learn that those unsustainable and expensive metal catalysts will be replaced with small organic molecules. These organocatalysts are stronger than their metal cousins and are readily available.
Solid-state batteries
These batteries are lighter, and they work well even under high temperatures. What is good about these batteries is its ability to store more energy. Because these batteries are all reliable, they are not flammable and are expected to outperform the conventional omnipresent lithium-ion batteries. However, these are still a work in progress, and none is workable just yet.
Flow Chemistry
Flow synthesis is higher-yielding, cheaper, often safer, and less wasteful than batch production, both on an industrial scale and laboratory scale. Chemists can run several reactions daily because flow chemistry lends itself in automation. When you combine polymer synthesis and continuous flow chemistry, the result are compounds that are hard to produce in a flask. This chemistry requires specific equipment, although low-cost alternatives are readily available.
Going back monomers from polymers
To address the ever-increasing issue of unrecycled plastics, scientists are trying to break down polymers and turn them back into monomers. Constant research efforts are focused on creating plastic that naturally breaks down in nature and processes to retrieve the polymers. Chemists even found plastic-eating microbes. However, crude oil, the raw material utilized in making plastic, is so inexpensive that no other form of recycling process can compete. But who knows if it will stay the same in the future?
3D Bioprinting
Who would have thought medical implants or even the whole organs can be printed and created out of living cells? Printed bones, trachea, blood vessels, and cartilage structures were successfully published already. While bioprinting the entirety of a body organ is still far from reach, multimillion companies are investing vast amounts of money in skin bioprinting.
Australia is home to chemistry companies. Raw material suppliers, chemical manufacturers, chemicals, and plastic recyclers; are just some of the businesses that provide innovative chemistry solutions in Australia. Companies such as Metrohm Australia can provide answers and high-precision instruments for chemical innovations.
Author Bio: Sarah Williams is a blogger and writer who expresses her ideas and thoughts through her writings. She loves to get engaged with the readers who are seeking for informative contents on various niches over the internet.
She is a featured blogger at various high authority blogs and magazines in which she shared her research and experience with the vast online community.
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