Nano Science and Nano Technology Comparison

Nano Science and Nano Technology Comparison Whenever the topic nano technology comes up most of us dont have a clear idea of what it is. Especially when it is about the difference between nano science and nano technology. Then what is nano science? Nanoscience is the study of objects with size less than hundred nanometers at least in one dimension. When objects go to nanometer scale in size, their behavior get changed applied laws may not be the same as when they were larger in size. Nanoscience involves finding governing laws of these tiny objects, deriving theoretical models to describe the behavior of those nanoscale materials and analyzing the properties of them. So, what is Nano technology? Nanotechnology is engineering the nanoscale objects at molecular level using different techniques. Nanotechnology is all about techniques and tools to come up with a nanoscale design or system that exploit the properties at molecular level to be more accurate and efficient. Using the knowledge on material behaviour at nanoscale which is got from nanoscience, nanotechnology focuses on properties such as strength, lightness, electrical and thermal conductance and reactivity to design and manufacture useful items. How did all start? The emergence of nanotechnology in the 1980s was caused by the convergence of experimental advances such as the invention of the scanning tunneling microscope in 1981 and the discovery of fullerenes in 1985, with the elucidation and popularization of a conceptual framework for the goals of nanotechnology beginning with the 1986 publication of the book Engines of Creation. The conceptual origin The American physicist Richard Feynman lectured, Theres Plenty of Room at the Bottom, at an American Physical Society meeting at Caltech on December 29, 1959, which is often held to have provided inspiration for the field of nanotechnology. Feynman had described a process by which the ability to manipulate individual atoms and molecules might be developed, using one set of precise tools to build and operate another proportionally smaller set, so on down to the needed scale. In the course of this, he noted, scaling issues would arise from the changing magnitude of various physical phenomena: gravity would become less important, surface tension and Van der Waals attraction would become more important. The Japanese scientist called Norio Taniguchi of Tokyo University of Science was the first to use the term nano-technology in a 1974 conference,[11] to describe semiconductor processes such as thin film deposition and ion beam milling exhibiting characteristic control on the order of a nanometer. His definition was, Nano-technology mainly consists of the processing of, separation, consolidation, and deformation of materials by one atom or one molecule. However, the term was not used again until 1981 when Eric Drexler, who was unaware of Taniguchis prior use of the term, published his first paper on nanotechnology in 1981. In the 1980s the idea of nanotechnology as a deterministic, rather than stochastic, handling of individual atoms and molecules was conceptually explored in depth by K. Eric Drexler, who promoted the technological significance of nano-scale phenomena and devices through speeches and two influential books. In 1980, Drexler encountered Feynmans provocative 1959 talk Theres Plenty of Room at the Bottom while preparing his initial scientific paper on the subject, Molecular Engineering: An approach to the development of general capabilities for molecular manipulation, published in the Proceedings of the National Academy of Sciences in 1981.[1] The term nanotechnology (which paralleled Taniguchis nano-technology) was independently applied by Drexler in his 1986 book Engines of Creation: The Coming Era of Nanotechnology, which proposed the idea of a nanoscale assembler which would be able to build a copy of itself and of other items of arbitrary complexity. He also first published the term grey goo to describe what might happen if a hypothetical self-replicating machine, capable of independent operation, were constructed and released. Definition Nanotechnology is a multi-disciplinary engineering field, which draws from and benefits areas such as materials science and engineering, chemistry, physics, biology, and medicine Nano-engineered materials, addresses the synthesis, characterization and engineering application of several classes of advanced materials, including nanocrystalline materials and nanopowders used in electronics and photonics applications, as catalysts in automobiles, in the food and pharmaceutical industries, as membranes for fuel cells, and for industrial-scale polymers. The design, synthesis, characterization, application and fundamental studies of new crystalline metal oxide nano-materials that may be used for next-generation rechargeable batteries. Nano-engineering of polymer electrolyte membranes. Hydrogen fuel cells use these membranes to combine hydrogen and oxygen and produce energy. Development of nano-particles as powerful catalysts for petrochemical refinery applications. Basic and applied research in photonic and photonic band gap crystals for optical and microwave communications. Design, synthesis, fundamental understanding and processing of polymer nano-composites, which are used in several applications for the automotive, aerospace, electronic components and packaging industries. Nano-electronics, addresses the development of systems and materials that will enable the electronics industry to overcome current technological limits. Also part of this theme area is a new generation of electronics based on plastics, which is expected to create new markets with applications ranging from smart cards to tube-like computers. Experimentation in electron beam lithography, to fabricate nanostructures and nanoelectronic devices, and to determine how the arrangement of molecules affects the chemical properties of substances. Fundamental studies and development of nanocrystalline thin-film semiconductors, devices and circuits for electronics and spintronics. Development and fabrication of Micro- and Nano-Electro Mechanical Systems (MEMS/NEMS). New devices being researched include NEMS-based metamaterials, miniature signal processing devices, biomedical, diagnostic and image processing devices, tiny wireless components (filters, mixers, antennas), miniature opto-electromechanical devices (optical relays, optical multiplexers, deformable optics), miniature biosensors and environmental sensors, and micro- and nano-fluidics devices. Organic synthesis, characterization and application of molecular organic semiconductor materials for electronic/optoelectronic devices. These materials are uniquely positioned to allow low cost fabrication processes (e.g., printable electronics) and to enable novel applications, such as, flexible- and molecular-electronics. Nano-biosystems, addresses the molecular manipulation of biomaterials and the engineering of nanoscale systems and processes of biological and medicinal interest, such as, for example, the targeted delivery of therapeutic agents and the design of DNA, peptide, protein, and cell chips. Interfacing nano-chips to bio-molecules. Creation of nano-vehicles that mimic the way viruses interact with specific cells. This will facilitate the delivery of drugs directly to targeted cells, and could, for instance, eliminate the toxic side-effects of chemotherapy by directing the therapeutic agents to cancer cells only. Development of nanotechnology methods for therapeutic applications, for example, for replacing faulty DNA or RNA strands with corrected strands. Development of nano-techniques for inactivation of microbes: an efficient and cheap method of food sterilization. Nano-instruments addresses some of the most far-reaching yet practical applications of miniature instruments for measuring atoms or molecules in chemical, clinical, or biochemical analysis; in biotechnology for agent detection; and environmental analysis. Lab-on-chip and micro-nano fluidic devices for biodiagnostics and protein sequencing. Fundamental studies leading to development of theories behind measurements at the nano-scale. Fabrication of instrumentation and development of methodology for micro- and nano-analytical chemistry for measurements of pollutants on-site. Using micro as an interface between the nano-scale and the macroscopic, human-scale. Development and characterization of mobile micro- and nano- instruments that are small, cheap and under wireless control. Measurement of how nano-materials grow and form on surfaces. Studies of polymer interfaces, adhesion and confinement of polymer chains glass transition in confined geometries. What do we have so far? scientists at the Department of Energys Oak Ridge National Laboratory have developed a catalyst made of carbon, copper and nitrogen and applied voltage to trigger a complicated chemical reaction that essentially reverses the combustion process. With the help of the nanotechnology-based catalyst which contains multiple reaction sites, the solution of carbon dioxide dissolved in water turned into ethanol with a yield of 63 percent. Typically, this type of electrochemical reaction results in a mix of several different products in small amounts. How it started The ideas and concepts behind nanoscience and nanotechnology started with a talk entitled Theres Plenty of Room at the Bottom by physicist Richard Feynman at an American Physical Society meeting at the California Institute of Technology (CalTech) on December 29, 1959, long before the term nanotechnology was used. In his talk, Feynman described a process in which scientists would be able to manipulate and control individual atoms and molecules. Over a decade later, in his explorations of ultraprecision machining, Professor Norio Taniguchi coined the term nanotechnology. It wasnt until 1981, with the development of the scanning tunneling microscope that could see individual atoms, that modern nanotechnology began. Once scientists had the right tools, such as the scanning tunneling microscope (STM) and the atomic force microscope (AFM), the age of nanotechnology was born. Although modern nanoscience and nanotechnology are quite new, nanoscale materials were used for centuries. Alternate-sized gold and silver particles created colors in the stained glass windows of medieval churches hundreds of years ago. The artists back then just didnt know that the process they used to create these beautiful works of art actually led to changes in the composition of the materials they were working with. Todays scientists and engineers are finding a wide variety of ways to deliberately make materials at the nanoscale to take advantage of their enhanced properties such as higher strength, lighter weight, increased control of light spectrum, and greater chemical reactivity than their larger-scale counterparts. Manufacturing at the nanoscale is known as nanomanufacturing. Nanomanufacturing involves scaled-up, reliable, and cost-effective manufacturing of nanoscale materials, structures, devices, and systems. It also includes research, development, and integration of top-down processes and increasingly complex bottom-up or self-assembly processes. A product of nanomanufacturing: A 16 gauge wire (above), approximately 1.3 millimeters in diameter, made from carbon nanotubes that were spun into thread. And the same wire on a 150 ply spool (below.) Courtesy of Nanocomp. In more simple terms, nanomanufacturing leads to the production of improved materials and new products. As mentioned above, there are two basic approaches to nanomanufacturing, either top-down or bottom-up. Top-down fabrication reduces large pieces of materials all the way down to the nanoscale, like someone carving a model airplane out of a block of wood. This approach requires larger amounts of materials and can lead to waste if excess material is discarded. The bottom-up approach to nanomanufacturing creates products by building them up from atomic- and molecular-scale components, which can be time-consuming. Scientists are exploring the concept of placing certain molecular-scale components together that will spontaneously self-assemble, from the bottom up into ordered structures. Within the top-down and bottom-up categories of nanomanufacturing, there are a growing number of new processes that enable nanomanufacturing. Among these are: Chemical vapor deposition is a process in which chemicals react to produce very pure, high-performance films Molecular beam epitaxy is one method for depositing highly controlled thin films Atomic layer epitaxy is a process for depositing one-atom-thick layers on a surface Dip pen lithography is a process in which the tip of an atomic force microscope is dipped into a chemical fluid and then used to write on a surface, like an old fashioned ink pen onto paper Nanoimprint lithography is a process for creating nanoscale features by stamping or printing them onto a surface Roll-to-roll processing is a high-volume process to produce nanoscale devices on a roll of ultrathin plastic or metal Self-assembly describes the process in which a group of components come together to form an ordered structure without outside direction Structures and properties of materials can be improved through these nanomanufacturing processes. Such nanomaterials can be stronger, lighter, more durable, water-repellent, anti-reflective, self-cleaning, ultraviolet- or infrared-resistant, antifog, antimicrobial, scratch-resistant, or electrically conductive, among other traits. Taking advantage of these properties, todays nanotechnology-enabled products range from baseball bats and tennis rackets to catalysts for refining crude oil and ultrasensitive detection and identification of biological and chemical toxins. A high resolution image of a graphene transistor with a sheet of carbon only one atom thick. This high speed electronic device was createdÂÂ   using nanoscale processes, and may one day be used for better computerÂÂ   hips. (Courtesy of James Yardley, Columbia University Nanocenter, an NNI-sponsored NSEC) Nanoscale transistors may someday lead to computers that are faster, more powerful, and more energy efficient than those used today. Nanotechnology also holds the potential to exponentially increase information storage capacity; soon your computers entire memory will be able to be stored on a single tiny chip. In the energy arena, nanotechnology will enable high-efficiency, low-cost batteries and solar cells. For more products and applications that use nanotechnology, see Benefits Applications or browse our database of the NNIs Major Achievements in Nanotechnology. Nanotechnology RD, and the eventual nanomanufacturing of products, requires advanced and often very expensive equipment and facilities. In order to realize the potential of nanotechnology, NNI agencies are investing heavily in nanomanufacturing RD and infrastructure. Over 90 NNI-funded centers and user facilities across the country provide researchers the facilities, equipment, and trained staff to develop nanotechnology applications and associated manufacturing processes. The NNI helps drive the nanomanufacturing field by providing researchers and small businesses with access to this specialized equipment in order to maintain global U.S. competitiveness. To assist in agency coordination in the area of nanomanufacturing, the Nanoscale Science, Engineering, and Technology (NSET) Subcommittee created the Nanotechnology Innovation and Commercialization Ecosystem (NICE) Working Group. The Presidents FY 2017 Budget provides $1.4 billion for the National Nanotechnology Initiative, including an estimated $37 million for nanomanufacturing. The National Nanomanufacturing Network (NNN) is an alliance of academic, government and industry partners that cooperate to advance nanomanufacturing strength in the U.S. The NNI and its member agencies actively participate in, support, and contribute to the NNN in its mission to advance nanomanufacturing. The NNN functions as part electronic resource, part community of practice, and part network of experts working on the development of nanomanufacturing. The NNN fosters technology transition and exchange through a host of activities including reviews and archiving of emerging materials, processes, and areas of practice, strategic workshops and roadmap development. InterNano is the information arm of the NNN-a digital library resource of timely information on nanomanufacturing and a platform for collaboration, providing information archiving in areas of processes and tools, standards, reports, events, and environmental health and safety databases. A scanning tunneling microscope (STM) is an instrument for imaging surfaces at the atomic level. Its development in 1981 earned its inventors, Gerd Binnig and Heinrich Rohrer (at IBM ZÃ ¼rich), the Nobel Prize in Physics in 1986.[1][2] For a STM, good resolution is considered to be 0.1 nm lateral resolution and 0.01 nm (10 pm) depth resolution.[3] With this resolution, individual atoms within materials are routinely imaged and manipulated. The STM can be used not only in ultra-high vacuum but also in air, water, and various other liquid or gas ambients, and at temperatures ranging from near zero kelvin to over 1000ÂÂ °C.[4][5]Â   Â   STM is based on the concept of quantum tunneling. When a conducting tip is brought very near to the surface to be examined, a bias (voltage difference) applied between the two can allow electrons to tunnel through the vacuum between them. The resulting tunneling current is a function of tip position, applied voltage, and the local density of states (LDOS) of the sample.[4]Information is acquired by monitoring the current as the tips position scans across the surface, and is usually displayed in image form. STM can be a challenging technique, as it requires extremely clean and stable surfaces, sharp tips, excellent vibration control, and sophisticated electronics, but nonetheless many hobbyists have built their own. Atomic-force microscopy (AFM) or scanning-force microscopy (SFM) is a type of scanning probe microscopy (SPM), with demonstrated resolution on the order of fractions of a nanometer, more than 1000 times better than the optical diffraction limit. The information is gathered by feeling or touching the surface with a mechanical probe. Piezoelectric elements that facilitate tiny but accurate and precise movements on (electronic) command enable very precise scanning. The AFM has three major abilities: force measurement, imaging, and manipulation.

Gram Staining and Distilled Water Essay

The purpose of this experiment was to learn how to properly perform a gram stain and to also understand how gram staining can help identify either gram-positive or gram-negative organisms in the laboratory. The materials needed for this experiment included: two microorganisms (Staphylococcus aureus and Pseudomonas fluorescens) in a slant agar, an inoculating loop, a microscope slide, distilled water, a Bunsen burner, four dyes (crystal violet, Gram’s iodine, ethyl alcohol, and safranin), bibulous paper, and a dye tray. The method for this experiment was as follows: 1) Cleaned the microscope slide with both soap and water and then dried 2) Flamed the inoculating loop with the Bunsen burner and then applied two small drops of water to each side (horizontally) of the slide 3) Flamed the inoculating loop again, allowed it to cool, and obtained a small sample of the first organism 4) Mixed the organisms on the inoculating loop with one of the drops of the water on the slide and spread to a nickel-sized drop 5) Repeated steps 3 and 4 for the other organism using the second water drop on the slide 6) Allowed the samples to dry and then heat fixed both samples. Applied the crystal violet dye, let it soak for 20 seconds, and then washed the dye away with distilled water off into the dye tray 8) Applied the Gram’s iodine and let it soak for a minute 9) Washed it off with alcohol for 20 seconds (or until the dye stopped running), and then immediately washed with the distilled water 10) Applied the counter-stain, safranin, and let it soak for a minute. 11) Washed with distilled water after and gently blotted it dry with bibulous paper 12) Observed both microorganisms on slide under the microscope Two different results were observed under the microscope. The first one was purple colored cocci, and the picture of the slide is on the following page. The second one revealed pink-colored rods, and the image is on the page following the first microorganisms. The results of the experiment came out as expected. There didn’t seem to be any flaws in the experiment, since the colors were distinctly different. The purple cocci were identified as the Staphylococcus aureus. Because the violet dye penetrated the membrane and stained it, it was recognized as a gram-positive organism. The pink rods were Pseudomonas florescens. It was discovered to be a gram-negative organism because the organism didn’t stain from the crystal violet. Since everything was easily identifiable, the experiment seemed to have gone as planned.

Top College Essay Samples 2018 Guide!

Top College Essay Samples 2018 Guide! College admissions essays aren't rocket science, but there are a range of steps that students may take to collect the most accurate and compelling essays which will help their odds of gaining admission to their top-choice colleges. Nearly all college authorities ask you to compose an application essay before getting an admission. When writing a scholarship application, it's crucial to accentuate how you are able to add to the college you're aiming for. Explain your commitments, and you are going to be the sort of student colleges find immensely attractive. One of the most difficult features of college life is finances. Possessing a very clear and structured plan is the foundation for any excellent bit of writing, and a college essay is not any different. When you start to compose your college application essay, think about all the things which make you the person that you're. You may also check to your regional WorkForce career center. Writing quality essays is the principal role of our services. The essay part of your application is the most crucial. The way you start your application essay is critical to how well it is going to be received. So for those who have a great outline, you can cut the period of time you've got to spend on your paper. The essay is the initial impression and very possibly the only time you'll have the chance to provide an impression of who you are. Apart from the things you should always remember, in addition, there are some items which you shouldn't do when creating the content of your college essay. After you imitate the job written by somebody else and move it as your individual it's generally referred to as plagiarism. The great news is, I can provide help. Before you even begin writing the content of your college essay, there are a number of essay writing basic guide that you need to always bear in mind. All you have to do is specify if you want your essay to be delivere d. Bridget's essay is quite strong, but there continue to be a couple little things that could be made better. Because the essay is a little too dry at this time, some additional voice would really provide the essay a boost. Sit down, consider the story you wish to write. You are able to come across narrative essay examples wherever you locate a very good story. As you are interested in getting the essay to communicate the ideal information about you, you should do thorough preparation for the sample college admission essays to attain its purposes. As an illustration, if you don't have enough time to do a suitable research and publish an essay, you can use custom essay writing service. There are lots of places to start your search for scholarship essay examples. Personal essay examples enable you to know what should be included in your very own personal essay. College Essay Samples 2018 Secrets It's very useful to take writing apart so as to see just the way that it accomplishes its objectives. When you're selecting a subject, it's quite vital that you choose one which is related to the course that you want to compose the college essay for, and you need to also make sure that it brings out a number of the strong points you have discussed in your class. Thus, the essay is supposed to coincide with the applicant's qualities and interest s in order for it to boost the possibility of admission. Your application essay is able to help you stick out from the remainder of the candidates and get noticed by the admission board. The Hidden Truth on College Essay Samples 2018 By employing various compare and contrast essay examples, you can find a better idea about what format you need to compose your essay. To think of a very good bit of writing, one must be craft a very good introduction as it is the very first thing a reader reads after the subject of the war essay. Possessing an outline can make the writing part of the essay go a good deal smoother. Reviewing some narrative essay examples will be able to help you to organize your information and help you decide how to compose each paragraph to acquire the best outcomes. The War Against College Essay Samples 2018 Essays are an essential component in the college application procedure. You are able to take care of the grammatical errors whenever you have created yo ur final draft. Writing a college application essay can be hard for you in case you don't follow proper guidelines. The Common Application makes it possible for you to apply to more or less 700 distinct colleges.

Gothic Elements of Jane Eyre by Emily Bronte Essay

Gothic Elements of Jane Eyre by Emily Bronte The term Gothic was popularly used in the late 18th century and throughout the 19th century and came to mean wild or barbaric. It was used to describe a distinct style of literature, which, in contrast to the strict moral codes of the time, allowed the author to introduce a novel full of wildness, passion and fantasy and to thrill their readers with tales of supernatural events and forbidden love. Gothic novels were often set in mysterious castles or remote, sinister mansions and involved a stereotypical hero, heroine, villain and monster. Using this definition as a comparison, we can see that the novel Jane Eyre contains many Gothic features,†¦show more content†¦The remote setting for Thornfield allows many events to occur in the house that would be in keeping with the Gothic theme. BrontÃÆ' « is able to introduce another of the typical Gothic features, a monster, namely Rochesters mad wife. Thornfields isolated location means that local people would have scant knowledge of what happened within its walls, and there would therefore be an air of mystery surrounding it. No one in the nearby village knows exactly who the insane person housed in Thornfield is, but there are whisperings that she is Mr. Rochesters bastard half-sister: or cast off mistress. The fact that Thornfield is a large manor with several floors and countless rooms also makes it the perfect place for someone to be hidden away and kept secret. Mr. Rochester and the other servants in the house keep the knowledge of Mrs. Rochester from Jane by preventing her from entering the third floor and therefore the room with Mrs. Rochester in it: I must pay a visit to the third storey. Dont move, remember, or call anyone. This kind of plot could not have been successfully maintained in a house of lesser stature that was nearer to populated areas. 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