...Chemistry and Applications of Carbon Allotropes in Industry Introduction Carbon has the ability to create many allotropes because of its valence. This means that carbon has a high rate of combining power with other different atoms when it is in the process of forming chemical compounds or molecules. The most common allotropes are Diamond and Graphite. The different allotropes of carbon tend to shows different properties and have a different application in different fields. Diamond is a common allotrope of carbon that exhibits hardness and has a high ability to disperse light. Diamond is the hardest discovered mineral and industries find it useful in cutting and drilling of other elements. It is also used to manufacture jewelry. Graphite is another common allotrope of carbon. Graphite is formed in a single layer by graphene that consists of carbon atoms and it is arranged in a single plane. Graphite is a good electric conductor. Graphite is known as the most stable form of carbon under the rating of standard conditions. This paper will describe the chemical and physical compounds and their industrial application in different fields. Discussion Allotropy refers to a property of a particular chemical element that exists in more than one different form when it is found in nature. There are different forms of carbon that exists and this paper will discuss the common allotropes and their application in different fields. The first allotrope of carbon is a diamond. The diagram above...
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...Nanotechnology (first used the term nanotechnology by Richard Feynman, in 1959) can be defined as the manipulation of atoms and molecules at nano (one billionth) scale (1–100 nm) to produce devices, structures or systems having at least one novel or superior property. The materials having at least one dimension in the nano scale are called nanomaterials. 10-9 meter (1 nanometer) to 10-7 meter (100 nanometer) Human eye can visualize up to 20μm only 1μm = 10-6 m DNA= 2.5nm- 3nm Protein= ̴ 5 nm Virus= ̴ 150 nm Human hair= ̴ 5000 nm Properties of Nanomaterials 1. The surface area to volume ratio of the nanomaterials is relatively larger than that of bulk materials of the same mass. This increases the chemical reactivity and affects strength and electrical properties of the material. 2. The quantum confinement is observed at nanometer sizes that changes the optical, electronic and magnetic properties of the material. The band gap increases as the size of the material is reduced to nanometer range. I II III IV Reduction in particle size increase in its Surface area Now, material is NANO so surface area will big… HOW? Let us consider a sphere of radius ‘r’ Surface Area = 4 x π x r2 Volume = (4/3) x π x r3 ratio of SA to Vol = 3/r Thus, radius of sphere decreases, Surface area will increase Let us consider a cube of sides 1 m Area= 6 x side2 = 6 x 1m2 = 6m2 Now, cut the same cube into 8 pieces, then the SA will increases Area= 6 x (1/2)2 x 8 = 12m2 Similarly, the...
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...Nanotechnology Nanotechnology has been an anticipated technology due to it giving complete and inexpensive control of the structure of matter. The thought of this technology came from the mind of Richard Feynman, a physicist, in 1959. The way Feynman first described nanotechnology was, “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 (History and Future of Nanotechnology, 2009).” Manufacturing at the molecular scale will enable the construction of cell repair machines, computers smaller than a cubic micron, and even personal manufacturing. Molecular manufacturing or nanomanufacturing is where it all starts. Nanomanufacturing is the manufacturing of nano-scale materials, structures, devices, and systems. There are two approaches to nanomanufacturing, the top-down approach or the bottom-up approach. The top-down approach reduces large pieces of material down to the nanoscale. This approach uses more material and can lead to waste if excess material isn’t used. The second approach, the bottom-up approach, creates products by starting at the atomic or molecular level and building the products from the ground up. This process is very time consuming. With these two approaches there are new processes that enable nanomanufacturing which are (Manufacturing at the Nanoscale): 1. Chemical vapor deposition – a process where chemicals react to produce...
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...1 The analysis of Graphene material Alinur Mirassov, Azat Yerkinova, Gaukhar Balbayeva Madi Aldabergenov, Takhmina Torgayeva Abstract: Recently, graphene has attracted the interest of significant number of scientists and physicians due to its exceptional properties (e.g., large surface area, thermal and chemical stability, high conductivity). This new member of the carbon family has potential to revolutionize the current applications (some of them are described in the essay) as well as creating new set of applications. In this paper, we review the background of the novel material, its comprehensive atomic structure and properties that has fascinated the scientific community since its discovery. We also cover the synthesis of the material, including different effective methods that was investigated from the year of discovery until the present day. Finally, we discuss possible challenges and future perspectives in this rapidly enhancing scientific area. Key words: Graphene; Graphene-based material; 2-dimensional (2D); monolayer; Carbon nanotubes; Dirac level; fullerene; nanostructure; graphene synthesis; graphene applications. Reference to this paper should be made as follows: Aldabergenov, M., Balbayeva, G., Mirassov, A., Yerkinova, A. & Torgayeva, T. (2013) ‘The analysis of Graphene Material’, Astana: Nazarbayev University. 1 Introduction With the time movement and generation flow, the science and engineering achievements expands and widens by...
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...name uniquely according to the type of issue the cell originates in. Many cancer victims succumb to cancer not because of the primary tumor, but the systematic effects of metastases on other regions away from the affected site. Therefore many treatment and research aim to prevent the metastatic process at the early period. There are currently many therapies in clinical use, and many advanced technologies that help to achieve better result and nanotechnology is the potential candidate to fight against cancer. Nano-materials such as Carbon-nanotubes (CNTs)1, quantum dot, and dendrimers all have unique properties that can be taken advantage of for diagnosis and treatment of cancer. CNTs have the potential to deliver many types of drug directly to targeted cells and tissues at a much higher efficiency compared to the conventional methods. With the help of many recent discoveries in nanotechnology based materials, determining the toxicity of nanoparticles is also a very important task. Thus, in this review, the experiment aims to explore the biomedical application of carbon-nanotubes with the particular emphasis on the use as oncologic therapeutic agent. Introduction United States holds number 7 in the top ten highest overall cancer rates at 300 per 100,000 of the population. The most common types of cancer among the admitted patients are lung, colon and breast cancer. Base on the mortality rate in 2008, lung and colon cancer are responsible for the majority of the deceased victims....
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...advancement in Nanotechnology? Although nanotechnology isn’t something you hear about every day, it is often useful to know a bit about it considering one day it could completely take over our lives and change the world as we know it. Nanotechnology refers to a field of research and innovation linked with ‘building things’ on a molecular and atomic scale. A nanometre is equivalent to one billionth of a meter and when we are dealing with such scales, the rules of physics and chemistry no longer apply. In turn, this will allow us to undergo “atomically precise engineering” which could have a positive impact on every one of us. Picture what we could do when we have carbon nanotubes (rolled up sheets or graphite that are 1000 times thinner than air) that are 100 times stronger than steel yet six times lighter. Nanotechnology may seem very futuristic, however it is not something that is new to us. We have already built many machines/materials that use nanoparticles (particles with a range of 1nm to 100nm), some of which include self-cleaning glass, swimming pool disinfectants, scratch resistant coatings and safer yet more effective lithium ion batteries. Now we are looking into using these nanoparticles for more serious issues, for example in curing cancer and developing more effective nuclear weapons. But is this something that we should worry about? Much of nanoscience and many nanotechnologies are concerned with producing new or enhanced materials. The reason most nanotechnology researchers...
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...Nano technology in the automotive industry:- ABSTRACT What is Nanotechnology? Nanotechnology is the engineering of materials on the scale of 1 nanometer (nm) to 100 nm, a nanometer being 1 billionth of a meter. At this level, the basic physical laws governing macro objects undergo a drastic change. A macro particle is a cluster of atoms arranged together in random order. The formation of the structure is left to nature, and control over the properties of the material is difficult. Nanotechnology, on the other hand, is a bottom-up approach where materials are created by placing individual atoms together. This decreases the randomness in the structural formation, enabling significant control over the properties of the material. Mechanical properties such as strength, ductility, and resilience can all be incorporated into one material. Currently, nanotechnology is functioning as an enabling technology. It is being used to enhance the properties of existing materials. This is largely attributed to the fact that the technology has clearly not been understood and there is still much more to nanotechnology than meets the microscopic eye. It is rare for a single technology to have the power to dramatically influence almost every major industry in the world. Nanotechnology falls into this category and offers fundamentally new capabilities to architect a broad array of novel materials, composites and structures on a molecular scale. This technology has the potential to drastically...
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...NaNotechNology applicatioNs for cleaN Water Micro & NaNo TechNologies series editor: Jeremy ramsden Professor of Nanotechnology Microsystems and Nanotechnology Centre, Department of Materials Cranfield University, United Kingdom the aim of this book series is to disseminate the latest developments in small scale technologies with a particular emphasis on accessible and practical content. these books will appeal to engineers from industry, academia and government sectors. for more information about the book series and new book proposals please contact the publisher, Dr. Nigel hollingworth at nhollingworth@williamandrew.com. http://www.williamandrew.com/MNt NaNotechNology applicatioNs for cleaN Water edited by Nora savage Office of Research and Development, US Environmental Protection Agency and (in alphabetical order) Mamadou Diallo Materials and process simulation center, Division of chemistry and chemical engineering, california institute of technology Jeremiah Duncan Nanoscale Science and Engineering Center, University of Wisconsin-Madison anita street Office of Research and Development, US Environmental Protection Agency and Center of Advanced Materials for the Purification of Water with Systems, University of Illinois at Urbana-Champaign richard sustich N o r w i c h , N Y, U S A copyright © 2009 by William andrew inc. No part of this book may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying...
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...McKinsey Global Institute May 2013 Disruptive technologies: Advances that will transform life, business, and the global economy The McKinsey Global Institute The McKinsey Global Institute (MGI), the business and economics research arm of McKinsey & Company, was established in 1990 to develop a deeper understanding of the evolving global economy. Our goal is to provide leaders in the commercial, public, and social sectors with the facts and insights on which to base management and policy decisions. MGI research combines the disciplines of economics and management, employing the analytical tools of economics with the insights of business leaders. Our “micro-to-macro” methodology examines microeconomic industry trends to better understand the broad macroeconomic forces affecting business strategy and public policy. MGI’s in-depth reports have covered more than 20 countries and 30 industries. Current research focuses on four themes: productivity and growth, the evolution of global financial markets, the economic impact of technology and innovation, and urbanization. Recent reports have assessed job creation, resource productivity, cities of the future, and the impact of the Internet. MGI is led by McKinsey & Company directors Richard Dobbs and James Manyika. Yougang Chen, Michael Chui, Susan Lund, and Jaana Remes serve as MGI principals. Project teams are led by a group of senior fellows and include consultants from McKinsey’s offices around the world. These teams draw...
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...McKinsey Global Institute May 2013 Disruptive technologies: Advances that will transform life, business, and the global economy The McKinsey Global Institute The McKinsey Global Institute (MGI), the business and economics research arm of McKinsey & Company, was established in 1990 to develop a deeper understanding of the evolving global economy. Our goal is to provide leaders in the commercial, public, and social sectors with the facts and insights on which to base management and policy decisions. MGI research combines the disciplines of economics and management, employing the analytical tools of economics with the insights of business leaders. Our “micro-to-macro” methodology examines microeconomic industry trends to better understand the broad macroeconomic forces affecting business strategy and public policy. MGI’s in-depth reports have covered more than 20 countries and 30 industries. Current research focuses on four themes: productivity and growth, the evolution of global financial markets, the economic impact of technology and innovation, and urbanization. Recent reports have assessed job creation, resource productivity, cities of the future, and the impact of the Internet. MGI is led by McKinsey & Company directors Richard Dobbs and James Manyika. Yougang Chen, Michael Chui, Susan Lund, and Jaana Remes serve as MGI principals. Project teams are led by a group of senior fellows and include consultants from McKinsey’s offices around the world...
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...FORMS OF CARBONS ✓ APPLICATIONS Carbon from Latin: carbo "coal" is the chemical element with symbol C and atomic number 6. As a member of group 14 on the periodic table, it is nonmetallic and tetravalent—making four electrons available to form covalent chemical bonds. There are three naturally occurring isotopes, decaying with a half-life of about 5,730 years. Carbon is one of the few elements known since antiquity. There are several allotropes of carbon of which the best known are graphite, diamond, and amorphous carbon. The physical properties of carbon vary widely with the allotropic form. For example, diamond is highly transparent, while graphite is opaque and black. Diamond is among the hardest materials known, while graphite is soft enough to form a streak on paper (hence its name, from the Greek word "to write"). Diamond has a very low electrical conductivity, while graphite is a very good conductor. Under normal conditions, diamond has the highest thermal conductivity of all known materials. All carbon allotropes are solids under normal conditions with graphite being the most thermodynamically stable form. They are chemically resistant and require high temperature to react even with oxygen. The most common oxidation state of carbon in inorganic compounds is +4, while +2 is found in carbon monoxide and other transition metal carbonyl complexes. The largest sources of inorganic carbon are limestones, dolomites and carbon dioxide...
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...Magnetotransport in Modulated Graphene by Rubina Nasir Submitted to the Department of Physics on 25 June 2012, in partial ful…llment of the requirements for the degree of Doctor of Philosophy Abstract Recent experimental as well as theoretical works have shown that it is possible to create periodic, electric as well as magnetic, potentials in graphene. The e¤ects of these potentials on charge carriers in graphene leads to novel physical e¤ects with important consequences for transport. Whereas a strong periodic potential can lead to new Dirac points in the band structure of graphene, a weak periodic potential along with a perpendicular magnetic …eld B introduces a new length scale, period of modulation, in the system in addition to the cyclotron diameter at the Fermi energy. Commensurability of these two length scales leads to new observable physical e¤ects. These e¤ects were observed earlier in transport studies in conventional 2DEG systems realized in semiconductor heterostructures. Our aim is to study these e¤ects in a graphene monolayer in order to highlight the similarities and di¤erences in the two systems, conventional 2DEG and graphene. Therefore, in this thesis we have carried out a detailed investigation of the electrical magnetotransport properties of a one-dimensional weakly modulated graphene monolayer. It is found that the periodic modulation broadens the sharp Landau Levels into bands and they start oscillating with B. The electronic conduction in this system...
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...Arturo Alcaraz (Philippines) - Instrumental in a team of scientists, who in 1967 were able to harness steam from a volcano resulting in the production of electricity. Diosdado Banatao (Philippines) - Improved computer performance throughthe development of accelerator chips, helping to make the Internet a reality. Marie Curie (Poland) - Winner of two Nobel Prizes in Chemistry and Physicsfor her studies into Radioactivity and her discoveries of Radium and Polonium. Paul Dirac (England) - An important contributor in the fields of QuantumMechanics and Electro Dynamics, Dirac was co-winner of the Nobel Prize inPhysics (1933). Albert Einstein (Germany) - Arguably needing no introduction, the most famous scientist that lived and a name that has become synonymous in popular culture with the highest intelligence. Enrico Fermi (Italy) - Heavily involved in the development of the world's first nuclear reactor and his work in induced radioactivity saw him awarded with the 1938 Nobel Prize in Physics. Vitaly Ginzburg (Russia) - One of three recipients of the 2003 Nobel inPhysics for their pioneering work in the theory of superconductors and superfluids. Christiaan Huygens (Netherlands) - Most well known for his wave theory of light, Huygens is credited with discovering the first of Saturn's moons. Werner Israel (Canada) - In 1990 Israel co-pioneered a study on black hole interiors. Ali Javan (Iran) - Born in Tehran, Ali Javan is listed as one of the top 100 living...
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...No. Nama Perguruan Tinggi AKADEMI AKUNTANSI PGRI JEMBER Nama Pengusul Sisda Rizqi Rindang Sari Program Kegiatan Judul Kegiatan 1 PKMK KUE TART CAENIS ( CANTIK, ENAK DAN EKONOMIS) BERBAHAN DASAR TAPE 2 AKADEMI FARMASI KEBANGSAAN Nensi MAKASSAR AKADEMI KEBIDANAN CITRA MEDIKA SURAKARTA AKADEMI KEBIDANAN GIRI SATRIA HUSADA AKADEMI KEPERAWATAN KERTA CENDIKA SIDOARJO AKADEMI KEPERAWATAN KERTA CENDIKA SIDOARJO AKADEMI KEPERAWATAN KERTA CENDIKA SIDOARJO Putri Purnamasari PKMK LILIN SEHAT AROMA KURINDU PANCAKE GARCINIA MANGOSTANA ( PANCAKE KULIT MANGGIS ) 3 PKMK 4 Latifah Sulistyowati PKMK Pemanfaatan Potensi Jambu Mete secara Terpadu dan Pengolahannya sebagai Abon Karmelin (Karamel Bromelin) : Pelunak Aneka Jenis Daging Dari Limbah Nanas Yang Ramah Lingkungan, Higienis Dan Praktis PUDING“BALECI”( KERES) MAKANAN BERSERATANTI ASAM URAT 5 Achmad PKMK Zainunddin Zulfi 6 Dian Kartika Sari PKMK 7 Radita Sandia PKMK Selonot Sehat (S2) Diit untuk Penderita Diabetes 8 AKADEMI PEREKAM Agustina MEDIK & INFO KES Wulandari CITRA MEDIKA AKADEMI PEREKAM MEDIK & INFO KES Anton Sulistya CITRA MEDIKA AKADEMI PEREKAM Eka Mariyana MEDIK & INFO KES Safitri CITRA MEDIKA AKADEMI PEREKAM MEDIK & INFO KES Ferlina Hastuti CITRA MEDIKA AKADEMI PEREKAM Nindita Rin MEDIK & INFO KES Prasetyo D CITRA MEDIKA AKADEMI PEREKAM MEDIK & INFO KES Sri Rahayu CITRA MEDIKA AKADEMI PERIKANAN YOGYAKARTA PKMK Kasubi Wingko Kaya Akan Karbohidrat...
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