Nanotechnologys Impact on the Field of Catalysis

Nanotechnologys Impact on the Field of CatalysisMohammed YusufWhat is Nanocatalysis?The word Nanocatalysis is made up of two parts, nano and catalysis. Lets begin my tackling the first part. Nano, short for nanotechnology, is the study of extremely small things, and their applications to society. 1 nanometre is a billionth of a meter (Nano.gov, 2016). And as for catalysis, this refers to a chemical reaction bought about by a catalyst, with a catalyst being a substance that makes it possible for a reaction to be faster, by matching chemicals together quicker (Northwestern, 1999). Nanotechnology and catalysis go together so well because in order for a catalyst to be as trade good as possible, it needs to shake up a large surface ara. This allows the catalyst to interact with as much of the reactants as possible.Why I am researching Nanocatalysis?I decided to pursue this topic because the entire chemical industry is dominated by catalysts, nearly e very(prenominal) product created vi a chemical reactions has been produced with the help of a catalyst. Furthermore, I chose this topic because of its futurology aspect its a well-k forthwithn fact that orbicular warming is slowly destroying our habitat, Earth. According to NASA, the carbon dioxide levels argon the highest they have ever been in 650,000 age. This is contributing to the fact that our global temperature is up 1.4o F since 1880 (climate.nasa.gov, 2016). However, the scientists of this world argonnt just accepting this as our collective future, nanotechnology being used for catalysis has reinvented catalyst designing, and now catalysts can be designed to absorb painful chemicals and gases that contribute to global warming. Because of nanotechnology, catalyst membranes can be modified to remove unwanted molecules from liquids and gases through the membrane design. (Nanowerk, 2010)What leave behind this report be about? This report will look into how nanotechnology is reinventing catalysis, Nanocataly sis real world applications, how it could be used to combat global warming, how Nanocatalysis is saving notes and how it is a safe alternative to ordinary catalyst.However, we will also dive into the problems that face the industry of Nanocatalysis, how it could pose health and safety issues to humans and how nanotechnology is very arduous to control.EfficiencyThere are two types of catalysts, Heterogeneous and Homogenous. Heterogeneous catalysts are in different phases to the reactants, they are solid while the reactants are liquid. However equal catalysts are in the same phase as the reactants, if they are liquid, gas or solid so are the reactants. The key objective to making nanocatalysts call on is making them as efficient as possible, stabilizing catalysts has been an issue for a very ache time you need the catalyst to have a long lifetime, with a very high selectivity (more desired products formed). According toP. Nagaraju Rao, A good stabilizer is one that protects the nanoparticles during the catalytic process, but does not neutralize the surface of nanoparticles resulting in loss of catalytic activity. Catalyst stabilizers come in many forms, from metals to polymers.To increase efficiency as much as possible, scientists have used nanotechnology to create nanocatalysts supports. done the discovery of a porous aluminium oxide powder, scientists have been able to improve efficiency. Dr Brian Woodfield and David Selck have used this porous material, with its huge net act of pores, each 3 nanometres in length, and have filled each pore with expensive catalytic metals each pore 30,000 times smaller than a human hair. This may sound expensive, buying hintic number 78 and using it to fill holes, but it is on such a small scale that it is saving a huge amount of money. So, in theory, you are using less metal but each tiny piece of metal adds up to produce a huge surface area. In industry, clumps of atomic number 78 used to be used which is outrag eous. Since it is a known fact that only the atoms on the surface that are exposed to the reaction are useful, this type of nanocatalysts saves so much time, money and effort. Dr Brian Woodfield and David Selck are working on producing tiny 1 nanometre crystals of these expensive metals and placing them in porous aluminium oxide, so every atom in the metal is being used. This electric currentlines production and therefore it improves efficiency. (Cougar Cosmos, 2011)DS1Improving reaction yieldNanocatalysts are more efficient than general catalysts, as I have established. This major advantage leads to a higher yield of the desired product in a chemical reaction. A real world example of this would be the production of biodiesel from violent cooking oil, where the Solid acid nanocatalysis of Al0.9H0.3PW12O40 nanotubes with double acid sites yield 96% of biodiesel from waste cooking oil as compared to 42.6% with conventional H3PW12O40 catalyst. (P. Nagaraju Rao, 2010) fascinating har mful gas emissionsBy controlling the pore size of the catalytic membranes in nanocatalysts, you can alter them to remove unwanted molecules, such as harmful gases such as CO2 (global warming) and NO2 (ozone depletion), (Nanowerk, 2016). And through further experimentation by chemical engineers, leading nanotechnology research company Oxonica have produced a nano-diesel fuel additive which decreases fuel consumption, greenhouse gas emissions and other harmful emissions. This rock solid research has gone through years of large-scale trials. The science behind this is real staggering through the utilization of Cerium oxide nanoparticles in the early stages of combustion, the peak pressure of reaction is reduced. This has a knock on effect, because this reduced pressure results in less NOx emission. This prolongs combustion, which leads to a reduction in inburnt hydrocarbon and, ultimately, a decrease in fuel consumption of up to 9%. This research can be applied to nanocatalysts, the genius of the researchers behind this discovery used fundamental physics knowledge to manufacture a product that makes the engine do more work for the same fuel used which can be also be done with catalysts (P. Nagaraju Rao, 2010)Global warming is a very pressing issue, with the 10 warmest years ever recorded being logged since 1997 its these small improvements in existing reactions that add up to something phenomenal. (Friends of the Earth briefing, 2010)Karine Philippot and Philippe Sers research paper into the concepts of nanocatalysis perfectly outlines the benefits of nanocatalysts, as opposed to normal catalysts.Figure 1. (Karine Philippot and Philippe Ser, 2013) Shows us how nanomaterials are more efficient than regular materials.Figure 2. (Karine Philippot and Philippe Ser, 2013) Shows us how smaller particles (nanocatalysts) have higher selectivity than larger particles.Figure 3. (Karine Philippot and Philippe Ser, 2013) Shows how nanocatalysts have larger surface area than traditional catalysts.Lack of support from investorsAlthough the future for nanocatalysts look bright, it needs funding and support from investors to kick off and dominate the chemical industry. Investors are not heavily investing in research of newer types of catalysts. Instead, they are only investing in commercially approved nanocatalysts such as industrial enzymes. This is very worrying, as research into newer types of nanocatalysts is vital for this field to continue to improve. This wont happen if well-established nanocatalysts continue to receive the lions share of funding and investment.Lack of support from merchandise accompaniment may be vital, but so is good commercial performance. Newer nanocatalysts have a hard time finding buyers, as corporations continue to buy commercially well-established nanocatalysts. Commercially well-established nanocatalysts such as zeolites take up 98% of all global sales, which is a staggering figure. Hopefully, through more academic re search companies will begin to venture into newer forms of nanocatalysts. (P. Nagaraju Rao, 2010)The market will eventually embrace nanocatalysisGlobal manufacture Analysts, Inc. predict that nanocatalysis will receive huge interest in the future, as global warming becomes more apparent and companies are either forced to, or willingly embrace more environmentally friendly methods. The global market for nanocatalysts is expected to reach $7.2 billion by 2020 with nanocatalysts focused on removing harmful greenhouse gasses receiving the most attention. The strength growth of automobile production in India and chinaware means the Asia-Pacific will emerge as the fastest growing market. They believe automobile production will be a huge revenue stream for this global market as nano-catalytic converters will be become the new norm for the automobile industry. This makes sense, with the astonishing rise of the electric car, fuel based cars will eventually be phased out of society due to global warming concerns nano-catalytic converters can add a breath of life to this dying business.(Strategyr.com. 2015DS2)Furthermore, Global Industry Analysts, Inc. also point to the growing focus on reducing emissions in coal-fired power plants, stringent emission control norms and increasing adoption in waste water treatment.Figure 4. (Global Industry Analysts Inc. 2016.)Nanocatalysts vs catalystsNormal, expensive metal, catalysts have been used for a very long time this doesnt truly mean they are better. Lets take platinum as an example, which suffers from low efficiency, slow kinetics, high woos and a very short lifetime. Nanocatalysts are efficient, save money, durable and have a high stability. They are essentially the new generation of catalysts. But that doesnt mean that the old will be phased out. As Ive discussed previously, engineers and material scientists such as Dr Brian Woodfield and David Selck are using extremely expensive metals such as platinum and putting t hem in porous nanocatalysts supports to the point where so little of the expensive metal is being used, that the actual cost is reduced extensively. (Karine Philippot and Philippe Ser, 2013)Therefore, it would be better to classify nanocatalysis as an evolution, drawing from the old norms of chemistry and material science and using the theory behind this to reinvent the standard. by dint of secondary research, I was able to gather information from a large number of sources. At the start of this research, I had many goals and vague ideas about what nanocatalysis had the voltage to be. Through extensive research I was able to establish that nanocatalysts will be essential to solving large scale issues such as global warming by transitioning the world from large emissions of greenhouse gases to low emissions of these harmful gases. This will have huge effects on the world, with deals such as the genus Paris Climate Agreement put in place to ensure global warming isnt the end of the wo rld, nanocatalysis will surely be a card government and corporations will be playing.I was also able to establish, through my research, that nanocatalysis is soon to be a very lucrative industry. Industrial predictions show that since nanocatalysts save money, improve efficiency, selectivity and yield it will grow to be a $7.2 billion dollar global market to put this into perspective, this is more than double the valuation of the Cyprus stock exchange. (Visual Capitalist, 2016)Nanotechnology may be the science of extremely small things, but it has a big future ahead of it.2066 words including citations.YouTube, 2011. Nanocatalysis Smaller, Cheaper, More Efficient Online Available at https//www.youtube.com/ stay?v=ufVYz-dBJGA Accessed 17 Aug. 2016P. Nagaraju Rao, 2010. Nanocatalysis Applications in Chemical Industry. Nanotech, Volume 1 (Issue 1), knave 13-21Friends of the Earth, 2010, Briefing Climate Change Facts. Online Available at https//www.foe.co.uk/sites/default/files/down loads/climate_change_facts.pdf Accessed 12 Aug. 2016Strategyr.com, (n.d). Nanocatalyst mart Trends. Online Available at http//www.strategyr.com/MarketResearch/Nanocatalysts_Market_Trends.asp Accessed 13 Aug. 2016Nano.gov, (n.d). What is Nanotechnology? Online Available at http//www.nano.gov/nanotech-101/what/definition Accessed 2 Aug. 2016visualcapitalist.com, (2016). All of the Worlds Stock Exchanges by Size. Online Available at http//www.visualcapitalist.com/all-of-the-worlds-stock-exchanges-by-size/ Accessed 20 Aug. 2016Karine Philippot and Philippe Ser, 2013. Nanomaterials in Catalysis. Germany Wiley-VCH, Page 25Climate.nasa.gov, (2016). Global Climate Change Vital Signs if the Planet. Online Available at http//climate.nasa.gov/ Accessed 4 Aug. 2016Chemguide.co.uk, (2016). The Effect of Catalysts on Reaction Rates. Online Available at http//www.chemguide.co.uk/physical/basicrates/catalyst.html Accessed 4 Aug. 2016Northwestern.edu, (1999). What is Catalysis? Online Available at h ttp//www.northwestern.edu/magazine/northwestern/winter1999/winter99coverstoryside1.htm Accessed 16 Aug. 2016DS1This is not the format for Harvard referencing.DS2Good use of examples in this paragraph.DS3Should be in alphabetical order.