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Atomic force microscope: A scientific instrument that can generate images of nanoscale details on a physical surface by scanning a tiny, flexible ceramic or semiconductor probe just above the surface—where it will be attracted or repelled slightly by features on the surface, and the deflection can be detected with the laser.

Atomic layer deposition (ALD): A technique developed in the 1970s for depositing monolayers of material in a sequential, controlled manner using self-limiting reactions. It is used to make thin films.

Biomimetic: Engineered structures or devices that imitate biology in their functions or methods of manufacture.

Buckyball: A familiar, nontechnical synonym for fullerene.

Carbon nanotube (CNT): Carbon molecule with a cylindrical shape. The structure and chemical bonds of CNTs result in unique strength, electrical, and thermal properties.

Colloid - Nanoscale or microscale particles suspended in another medium; colloids include gels, aerosols, and emulsions.

Converging technologies: Science at the intersection of nanotechnology, biotechnology, information technology, and cognitive technologies.

DNA – Deoxyribonucleic acid: the double-helix molecule that provides the basis of genetic heredity, about 2 nanometers in diameter but often several millimeters in length.

Dual use: Technologies that may be used for both military and civilian purposes.

Epitaxial film: A thin crystal layer, perhaps of nanoscale thickness, deposited on the surface of another substance by processes such as vapor deposition.

Fullerene: A category of roughly spherical carbon nanoscale structures named after Buckminster Fuller’s geodesic spheres.

Genome: The complete set of genetic material contained in an organism, or a separately inherited portion of an organism. For instance, the mitochondrial genome is inherited maternally, whereas the nuclear genome is inherited from both parents.

Genetic sequence: The ordered set of nucleotides in a particular sample of DNA or RNA.

Intellectual property: Creations of the mind, such as inventions; literary and artistic works; designs; and symbols, names and images used in commerce. IP is protected in law by, for example, patents, copyright, trademarks and trade secrets, which enable people to earn recognition or financial benefit from what they invent or create.

Molecular electronics: Electronic circuitry, including computer hardware, in which the separate components are individual molecules or small assemblages of molecules.  The hoped-for advantages include cost reduction, increased speed, higher bit density, reduced power requirements, and less waste heat.

Monolayer: A layer, film, or coating that is only one atom or molecule thick.

Moore’s Law: Proposed by Intel founder Gordon Moore in the 1960s, this is a variously stated observation that the density of transistors on an integrated circuit chip has been doubling every 18 to 24 months, or the cost of a transistor has been dropping by half, or that the general capabilities of microelectronics have been improving at an exponential rate.

Nanocrystals: also known as nanoscale semiconductor crystals. "Nanocrystals are aggregates of anywhere from a few hundred to tens of thousands of atoms that combine into a crystalline form of matter known as a "cluster." Typically around ten nanometers in diameter, nanocrystals are larger than molecules but smaller than bulk solids and therefore frequently exhibit physical and chemical properties somewhere in between. Given that a nanocrystal is virtually all surface and no interior, its properties can vary considerably as the crystal grows in size." (Credit: Berkeley Lab)

Nanocomposite: A material composed of two or more substances, of which at least one has a nanoscale dimension, such as nanoparticles dispersed throughout another solid material.

Nanofabrication: General terms for methods to create, assemble, or otherwise form nanoscale structures.

Nanofluidics: Science or engineering involving the flow of liquid or gas through nanoscale spaces.

Nanomanipulator: A tool for moving individual molecules or nanoscale objects, such as an atomic force microscope.

Nanometer: A distance unit representing one-billionth of a meter, or one-millionth of a millimeter, or roughly one-millionth the thickness of an American dime.

Nanoporous: Substances that have holes or pores on the nanoscale, used, for example, to separate particles or molecules by size.

Nanoscale: The size range roughly 1 to 100 nanometers, where many of the fundamental structures of biology are formed, composite materials may take on their distinctive characteristics, and many important physical phenomena are found.

Nanoscience: The study of unique properties of matter at the nanoscale; an interdisciplinary field of science combining physics, materials science, the chemistry of complex molecules, and related disciplines.

Nanosensor: A device for sensing radiation, forces, chemicals, or biological agents, in which some portion of a device operates at the nanoscale, for example, by having receptors into which the particular molecules to be sensed fit.

Nanotube: Hollow, cylindrical structures, with a diameter usually less than 5 nanometers. They are often but not necessarily, composed of carbon, and having remarkable strength and electrical properties.

Quantum dot: A nanoscale crystal with a diameter that is typically between 2-20 nm, having unique electrical and optical properties that are dependent on its size. They are finding commercial applications in new light sources, enhanced medical imaging, and being explored as components in spintronic quantum computers, and has a very wide range of potential scientific and industrial applications.

Photolithography:  A fabrication technique that utilizes light to etch patterns onto silicon wafers using a mask and light-sensitive resin. It is often used for making integrated circuits.

Polymer: A chemical compound, typically formed by connecting smaller molecules together, that consists of repeating structures, often arranged in a chain.

Risk assessment: A set of analytic approaches in the decision, risk, and management sciences, typically considering both the probability and the potential cost of a particular type of event.

Scanning probe lithography: A technique in which an atomic force microscope or scanning tunnelling microscope scratches, indents, or heats to produce nanoscale features on a surface.

Scanning tunnelling microscope – A scientific instrument that can make images of nanoscale details on an electrically conductive surface by moving a sharp metal probe very close to that surface, passing a low-voltage electric current across it, and measuring tiny fluctuations in the current as the probe is scanned across the surface.

Self-assembly: A process in which a given nanostructure spontaneously constructs itself, generally limited to very specific structures in chemical environments precisely defined in order to promote self-assembly.

Toxicity: The extent to which a chemical substance is poisonous or, through chemical action, destroys living tissue.

Transistor: A solid-state electronic device based on a semiconductor material that regulates the flow of current between two of its electrodes and therefore is capable of amplifying a signal. Since its invention in 1948, the transistor has become constantly smaller (recently entering the nanoscale) and more efficient, serving as the basis of most electronic devices, including computers.

Vapour deposition: A chemical process commonly used in the semiconductor industry to apply thin films of one substance onto a surface composed of another substance.

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FAQs on Terms in Nanotechnology - Science & Technology for UPSC CSE

1. What is nanotechnology?
Ans. Nanotechnology refers to the manipulation and control of matter at the nanoscale, typically between 1 to 100 nanometers. It involves studying and manipulating materials and devices at the atomic and molecular level to create new functionalities and properties.
2. How is nanotechnology used in medicine?
Ans. Nanotechnology has numerous applications in medicine, including drug delivery systems, diagnostics, and regenerative medicine. Nanoparticles can be designed to deliver drugs directly to specific cells or tissues, improving their effectiveness and reducing side effects. Nanosensors can also be used for early disease detection, and nanomaterials can aid in tissue engineering and wound healing.
3. What are the potential risks associated with nanotechnology?
Ans. While nanotechnology offers vast potential, there are concerns regarding its potential risks. These include the toxicity of certain nanoparticles, environmental impact, and ethical considerations. It is crucial to conduct extensive research to understand and mitigate any potential adverse effects before widespread application of nanotechnology.
4. How does nanotechnology impact electronics?
Ans. Nanotechnology has revolutionized the field of electronics. It has enabled the development of smaller, faster, and more efficient electronic devices. Nanoscale materials and components, such as nanowires and quantum dots, are used to enhance the performance of transistors, batteries, and displays. Nanotechnology also plays a crucial role in the development of flexible and wearable electronics.
5. Can nanotechnology be used to clean water?
Ans. Yes, nanotechnology has the potential to address water purification challenges. Nanomaterials, such as carbon nanotubes and graphene oxide, can be used as filters to remove contaminants from water. Nanotechnology-based methods, such as photocatalysis and nanofiltration, can effectively remove pollutants and provide access to clean water. Ongoing research aims to optimize these technologies for large-scale water treatment applications.
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