Abrasive |
A hard and wear-resistant material (such as a ceramic) used to wear, grind,
or cut away other material. |
Accuracy |
The degree of correctness with which the measuring system yields the "true
value" of a measured quantity, where the"true value" refers
to an accepted standard, such as a standard meter or volt. Typically described
in terms of a maximum percentage of deviation expected based on a full-scale
reading.
|
Affinity |
A thermodynamic measurement of the strength of binding between molecules,
say between an antibody and antigen. Each antibody/antigen pair has an association
constant, Ka, expressed in L/mol. |
Algorithm |
A set of well-defined mathematical rules or operations for solving a problem
in a finite number of steps. |
AM 1 |
The air mass 1 spectrum of a light source is equivalent to that of sunlight
at the earth's surface when the sun is at zenith. |
Ampere (amp) [A] |
Measure of electric current: 1A = 1 coulomb/second. |
Amperometric Sensor |
Amperometric sensors involve a heterogeneous electron transfer as a result
of an oxidation/reduction of an electro-active species at a sensing electrode
surface. A current is measured at a certain imposed voltage of the sensing
electrode with respect to the reference electrode. Analytical information
is obtained from the current-concentration relationship at that given applied
potential. |
Analyte |
A chemical species targeted for qualitative or quantitative analysis.
|
Angstrom [A] |
Measure of length: 1 A= 1x10-10 m. |
Anisotropic |
Exhibiting different values of a property in different crystallographic
directions. |
Anneal |
Heat process used to remove stress, crystallize or render deposited material
more uniform. |
Anode |
The electrode in an electrochemical cell or galvanic couple that experiences
oxidation, or gives up electrons. |
Arrhenius equation |
The equation representing the rate constant as k = AeEa/RT where A represents
the product of the collision frequency and a steric factor, and eEa/RT is
fraction of collisions with sufficient energy to produce a reaction.
|
ASIC |
Application-specific integrated circuit; an IC designed for a custom requirement.
|
Atomic mass unit (a.m.u.) |
A unit of mass used to express relative atomic masses. It is equal to 1/12
of the mass of an atom of the isotope carbon-12 and is equal to 1.66033x10-27
kg
. |
Atomic number (also proton number Z) |
The number of protons within the atomic nucleus of a chemical element.
|
Atomic weight |
The weighted average mass of the atoms in a naturally occurring element.
|
Austenite |
Face-centered cubic iron; also iron and steel alloys that have the FCC crystal
structure. |
Avogadro's number |
The number of atoms in exactly 12 grams of pure 12C, equal to 6.022 ~ 1023
|
Band gap energy (Eg) |
For semiconductors and insulators, the energies that lie between the valence
and conduction bands; for intrinsic materials, electrons are forbidden to
have energies within this range. |
Bandwidth |
The range of frequencies over which the measurement system can operate within
a specified error range. |
BAW |
Bulk acoustic wave. |
Bilayer lipid membrane (BLM) |
The structure found in most biological membranes, in which two layers of
lipid molecules are so arranged that their hydrophobic parts interpenetrate,
whereas their hydrophilic parts form the two surfaces of the bilayer.
|
Binary |
Numbering system based on powers of 2 using only the digits 0 and 1, called
"bits". |
Biosensor |
The term" biosensor" is a general designation that denotes either
a sensor to detect a biological substance or a sensor which incorporates
the use of biological molecules such as antibodies or enzymes. Biosensors
are a subcategory of chemical sensors. |
Bipolar-junction transistor |
Transistor with n-type and p-type semiconductors having base-emitter and
collector-base junctions. |
Bit |
see binary. |
Body-centered cubic (BCC) |
A common crystal structure found in some elemental metals. Within the cubic
unit cell, atoms are located at corner and cell center positions. |
Brazing |
A metal joining technique that uses a molten filler metal alloy having a
melting temperature greater than about 425C (800F). |
Breakdown |
Failure of a material resulting from an electrical overload. The resulting
damage may be in the form of thermal damage (melting or burning) or electrical
damage (loss of polarization in piezoelectric materials). |
Bus |
Transmission medium for electrical or optical signals that perform a particular
function, such as computer control. |
Byte |
A group of eight bits that can represent any of 28 = 256 different entities.
|
Calibration |
A process of adapting a sensor output to a known physical quantity to improve
sensor output accuracy. |
Capacitance (C) |
The charge-storing ability of a capacitor, defined as the magnitude of charge
stored on either plate divided by the applied voltage. A 1-F capacitor charged
to 1 V contains C of charge (see also capacitor) and 1 C is an amount of
charge equal to that of about 6.24 ~ 1018 electrons. |
Capacitor |
Energy storage circuit element having two conductors separated by an insulator.
|
Cathode |
The electrode in an electrochemical cell or galvanic couple at which a reduction
reaction occurs; in other words the electrode receiving electrons from an
external circuit. |
Ceramic |
A nonmetallic material made from clay and hardened by firing at high temperature;
it contains minute silicate crystals suspended in a glassy cement. |
Cermet |
A composite material consisting of a combination of ceramic and metallic
meterials. The most common cermets are the cemented carbides, composed of
an extremely hard ceramic (e.g. WC, TiC), bonded together by a ductile metal
such as cobalt or nickel. |
Chip |
A die (unpackaged semiconductor device) cut from a silicon wafer, incorporating
semiconductor circuit elements such as a sensor, actuator, resistor, diode,
transistor, and/or capacitor. |
Chromatography |
The general name for a series of methods for separating mixtures by employing
a system with a mobile phase and a stationary phase. |
CMOS |
Complementary metal oxide semiconductor - integrated circuit containing
n-channel and p-channel MOSFETs. |
Codons |
Organic bases in sets of three that form the genetic code. |
Conductor |
Material such as the metals copper or aluminum that conducts electricity
via the motion of electrons. |
Copolymer |
A polymer that consists of two or more dissimilar monomer units in combination
in its molecular chains. Also a polymer formed from the polymerization of
more than one type of monomer. |
Corrosion |
Deteriorative loss of a metal as a result of dissolution environmental reactions.
|
Coulomb [C] |
Measure of electrical charge: 1 C is an amount of charge equal to that of
about 6.24x1018 electrons. |
Covalent bond |
A primary interatomic bond that is formed by the sharing of electrons between
neighboring atoms. |
Creep |
The time-dependent permanent deformation that occurs under stress; for most
materials it is important only at elevated temperatures. |
Cross-sensitivity |
The influence of one measurand on the sensitivity of a sensor, another measurand.
|
Crosslinked polymer |
A polymer in which adjacent linear molecular chains are joined at various
positions by covalent bonds. |
Crosstalk |
Electromagnetic noise transmitted between leads or circuits in close proximity
to each other. |
Crystal structure |
For crystalline materials, the manner in which atoms or ions are arrayed
in space. It is defined in terms of the unit cell geometry and the atom
positions within the unit cell. |
Curie temperature (also Curie point) (Tc) |
The temperature above which a ferromagnetic or ferrimagnetic material becomes
paramagnetic. For iron the Curie point is 760oC and for nickel 356oC.
|
Current [A] |
Measure of rate of flow of electric charge: a one-ampere current is a flow
of 1 C of charge per second. |
Cutoff |
Condition in a diode or bipolar junction transistor in which the potential
across a p-n junction prevents current flow. |
Cyclotron |
A type of particle accelerator in which an ion introduced at the center
is accelerated in an expanding spiral path by use of alternating electrical
fields in the presence of a magnetic field. |
Debye Shielding |
The Debye length in front of a sensing electrode depends on the ionic strength
of the electrolyte used. In a 0.001N NaCl the Debye length measures 96.5
A, while for a 1.0 N solution it is reduced to 3.0 A. An adsorbed protein
can stick out from the surface for as much as 50 to 100 A. As a result,
the charges which could contribute to the surface potential will be shielded
in a 1.0 N solution. To make more sensitive measurements a solution of low
ionic strength should be used. |
Degradation |
A term used to describe the deteriorative processes that occur with polymeric
materials, including swelling, dissolution, and chain scission. |
Denaturation |
The breaking down of the three-dimensional structure of a protein resulting
in the loss of its function. |
Deoxyribonucleic acid (DNA) |
A huge nucleotide polymer having a double helical structure with complementary
bases on two strands. Its major functions are protein synthesis and the
storage and transport of genetic information. |
Design |
To plan and delineate with an end in mind and subject to constraints.
|
Devitrification |
The process in which a glass (noncrystalline or vitreous solid) transforms
to a crystalline solid. |
Dialysis |
A phenomenon in which a semipermeable membrane allows transfer of both solvent
molecules and small solute molecules and ions. |
Diamagnetism |
A weak form of induced or nonpermanent magnetism for which the magnetic
susceptibility is negative. A type of magnetism associated with paired electrons,
that causes a substance to be repelled from the inducing magnetic field.
|
Die |
see chip. |
Dielectric |
Any material that is electrically insulating. |
Dielectric (breakdown) strength |
The magnitude of an electric field necessary to cause significant current
passage through a dielectric material. |
Dielectric constant () |
The ratio of the permittivity of a medium to that of a vacuum. Also called
the relative dielectric constant or relative permittivity. |
Dielectric displacement |
The magnitude of charge per unit area of capacitor plate. |
Diffusion |
A thermochemical process whereby controlled dopants are introduced into
a substrate. |
Diffusion coefficient |
The constant of proportionality between the diffusion flux and the concentration
gradient in Fick's first law. Its magnitude is indicative of the rate of
atomic diffusion. |
Digital |
Refers to systems employing only quantized (discrete) states to convey information
(also see"analog"). |
Dimer |
A molecule formed by the joining of two identical monomers. |
Diode |
two-terminal device that conducts current well in one direction and poorly
in the other. |
DIP |
Dual In-line Package - common ceramic or plastic enclosure for an integrated
circuit. |
Dipole (electric) |
A pair of equal yet opposite electrical charges that are separated by a
small distance. |
Dislocation |
A linear crystalline defect around which there is atomic misalignment. Plastic
deformation corresponds to the motion of dislocations in response to an
applied shear stress. Edge, screw, and mixed dislocations are possible.
|
DNA Probes |
A DNA or nucleic acid probe is a short strand of DNA that locates and binds
to its complementary sequence in samples containing single strands of DNA
or RNA enabling identification of specific sequences. Nucleic acid probe
assays exploit the fundamental hybridization reaction that occurs spontaneously
between two complementary DNA:DNA or DNA:RNA strands. As in immunoassays,
detection of the hybrid requires that the probe be labeled. Various direct
and indirect methods have been devised for the detection of the hybrid.
Direct labeling involves attaching the label directly to the probe sequence;
indirect labeling binds an antibody to the DNA:DNA or DNA:RNA hybrid. As
in immunoassays, non-isotopically-labeled probes are preferred over radio-labeled
probes primarily because of radiation hazards, disposal problems, and short
reagent shelf life. In addition, the factors determining the detection limits
of hybridization assays based on labeled probes are similar to those in
immunoassays. Therefore, the development of a simple, inexpensive and sensitive
direct detection system which eliminates the use of labels is highly desirable.
|
DNA Sequencing |
There are two main classical methods for sequencing DNA: The first method,
developed by Allan Maxam and Walter Gilbert, involves chemicals used to
cleave the DNA at certain positions, generating a set of fragments that
differ by one nucleotide. The second method, developed by Fred Sanger and
Alan Coulson, involves enzymatic synthesis of DNA strands that terminate
in a modified nucleotide. Analysis of fragments is similar for both methods
and involves gel electrophoresis and autoradiography or fluorescence. The
enzymatic method has largely replaced the chemical method as the technique
of choice, although there are some situations where chemical sequencing
can provide data more easily than the enzymatic method. |
Domain |
A region of a ferromagnetic or ferrimagnetic material in which all atomic
or ionic magnetic moments are aligned in the same direction. |
Doping |
Process of introducing impurity atoms into a semiconductor to affect its
conductivity. |
DRAM |
Dynamic Random Access Memory -- memory in which each stored bit must be
refreshed periodically. |
Drift |
Gradual departure of the instrument output from the calibrated value. An
undesired slow change of the output signal. |
DSP |
Digital Signal Processing; a process by which a sampled and digitized data
stream (real-time data such as sound or images) is modified in order to
extract relevant information. Also, a digital signal processor. |
Ductility |
A measure of a material's ability to undergo plastic deformation before
fracture; expressed as percent elongation (%EL) or percent area reduction
(%AR) from a tensile test. |
Dynamic characteristics |
A description of an instrument's behavior between the time a measured quantity
changes value and the time the instrument obtains a steady response.
|
Dynamic error |
The error that occurs when the output does not precisely follow the transient
response of the measured quantity. |
Dynamic range |
The ratio of the largest to the smallest values of a range, often expressed
in decibels. |
EDP |
Ethylene diamine pyrocatechol. |
Elastic deformation |
A nonpermanent deformation that totally recovers upon release of an applied
stress. |
Elastomer |
A polymeric material that may experience large and reversible elastic deformations.
|
Electric field [V/m] |
In simplest form, the potential difference between two points divided by
the distance between the two. |
Electrical breakdown |
Condition in which, particularly with high electric field, a nominal insulator
becomes electrically conducting. |
Electroluminescence |
In electrical engineering: the emission of visible light by a p-n junction
across which a forward-biased voltage is applied. In electrochemistry: emission
of light by a molecule which is being reduced or oxidized on a biased electrode.
If the exciting cause is a photon, rather than an electron, the process
is called photoluminescence. |
Electrolyte |
A solution through which an electric current may be carried by the motion
of ions. |
Electrolyte/Insulator/Silicon (EIS) |
Structures at the heart of a broad family of potentiometric silicon sensors.
The best-known member of the family is the ion-sensitive field effect transistor,
known as the ISFET or CHEMFET and the light-addressable potentiometric sensor
LAPS . The principle of operation of devices using such structures is as
follows. A potential with respect to a reference electrode is generated
at the interface between the liquid solution and the insulator. The surface
potential (0) is determined by that ionic species which has the fastest
exchange rate (io) with the membrane covering the insulator. If no intentional
membrane is deposited on an oxide covered insulator that species will be
H+. Surface potential changes in turn change the Si flat-band voltage VFB.
The flat-band voltage is the potential one needs to apply to the Si in order
to have the bands flat throughout the semiconductor. The flat band voltage
of an EIS structure has been shown to be given by: VFB = EREF - Si/q -
0 - Qins/Cinss where VFB stands for the flat-band voltage of the structure,
EREF for the reference electrode potential, Si for the work function of
silicon, &psi0 for the surface potential at the insulator/electrolyte
interface, Qins for the charge at the insulator/silicon interface and Cins
for the insulator capacitance. At least two terms in the above equation
are not known with a precision greater than a few hundred millivolts. This
is true for EREF as well as for Qins/Cins which can vary from device to
device by several hundred millivolts. For a given EIS sensor, these inaccurately
known quantities are constant, and variations in flat-band voltage can be
equated to variations of the surface potential. |
Electromotive force (emf) series |
A series of chemical elements arranged in order of their electromotive force.
The electromotive force is the greatest potential difference that can be
generated by a particular source of electric current. In practice this potential
may be observable only when the source is not supplying current, because
of its internal resistance. |
Electron |
Elementary negative particle whose charge is 1.602 x10-19 coulombs.
|
Electron state (level) |
One of a set of discrete, quantized energies that are allowed for electrons.
In the atomic case each state is specified by 4 quantum numbers. |
Electronegative |
Describing elements that tend to gain electrons and form negative ions.
The halogens are typical electronegative elements. |
EMI |
Electromagnetic interference. |
Energy [J] |
Capacity for performing work or to cause heat flow. Like work itself, it
is measured in Joules. |
Enthalpy (H) |
A property of a system equal to E + PV, where E is the internal energy of
the system, P is the pressure of the system, and V is the volume of the
system. At constant pressure the change in enthalpy equals the energy flow
as heat. |
Enzyme |
A large molecule, usually a protein, that catalyzes biological reactions.
|
Enzyme immunoassay/EIA |
In an enzyme immunoassay (EIA), an enzyme-labeled antibody or antigen is
used for the detection and quantification of the antigen-antibody reaction.
In an electrochemical EIA, the enzyme-catalyzed reaction is monitored electrochemically
(amperometric, potentiometric, voltametric or conductometric). In EIA, the
antibody-antigen reaction furnishes the needed specificity. The enzyme label
provides the sensitivity via chemical amplification. |
Epitaxial or epi |
A single-crystal semiconductor layer grown upon a single-crystal substrate
having the same crystallographic characteristics as the substrate material.
|
EPROM |
Electrically Programmable Read-Only Memory --- nonvolatile memory device.
|
Extrinsic |
Characterizes doped, rather than pure, semiconductor. |
Fab |
For "fabrication", a term referring to the making of semiconductor
devices such as microprocessors. |
Face-centered cubic |
A crystal structure found in common elemental metals also FCC. Within the
cubic unit cell, atoms are located at all corner and face-centered positions.
|
Farad |
The unit of capacitance (see"capacitance"). |
Faraday |
A constant representing the charge on one mole of electrons; 96, 485 coulombs.
|
FEA |
Finite element analysis. |
Fermi energy |
The energy level in a solid at which the probability of finding an electron
is 1/2. For a metal, the energy corresponding to the highest filled electron
state in the valence band at 0 K. |
Ferroelectric material |
A dielectric material such as Rochelle salt and barium titanate with a domain
structure containing dipoles (asymmetric distributions of electrical charge)
which spontaneously align. Their domain structure makes them analogous to
ferromagnetic materials. They exhibit hysteresis and usually the piezoelectric
effect. |
Ferromagnetism |
Permanent and large magnetizations found in some metals (e.g. Fe, Ni and
Co), resulting from the parallel alignment of neighboring magnetic moments.
|
FET |
Field-Effect Transistor -- semiconductor device whose insulated gate electrode
controls current flow. |
Fiber-optic |
Relates to transmission of information as modulated light in tiny transparent
fibers instead of copper wires. |
Fick's first law |
The diffusion flux is proportional to the concentration gradient. This relationship
is employed for steady-state diffusion situations. |
Fick's second law |
The time rate of change of concentration is proportional to the second derivative
of concentration. This relationship is employed in non-steady-state diffusion
situations. |
Filler |
An inert foreign substance added to a polymer to improve or modify its properties.
|
Firing |
A high temperature heat treatment that increases the density and strength
of a ceramic piece. |
Flat-band potential |
see under Electrolyte/Insulator/Silicon (EIS). |
Flip-flop |
binary device whose outputs change value only in response to an input pulse.
|
Fluorescence |
Luminescence (see also under"luminescence") which persists less
than a second after the exciting cause has been removed. If the luminescence
persists significantly longer it is called phosphorescence. |
FM |
Frequency Modulation - information coding scheme in which the frequency
of a steady wave is changed. |
Forward bias |
The conducting bias for a p-n junction rectifier that assures electron flow
to the n side of the junction. |
Free energy (G) |
A thermodynamic quantity that is a function of the enthalpy (H), the Kelvin
temperature (T) and the entropy (S) of a system; G=H-TS. At equilibrium,
the free energy is at a minimum. Under certain conditions the change in
free energy for a process is equal to the maximum useful work. |
Frequency |
Number of times per second that a quantity representing a signal, such as
a voltage, changes state. Also, the number of waves (cycles) per second
that pass a given point in space. |
Frequency response |
Two relations between sets of inputs and outputs. One relates frequencies
to the output-input amplitude ratio; the other relates frequencies to the
phase difference between the output and input. |
Gain |
The ratio of the amplitude of an output to input signal. |
Galvanic corrosion |
The preferential corrosion of the more chemically active of two metals electrically
coupled and exposed to an electrolyte. |
Gate |
Circuit whose logical output variables are determined by its inputs.
|
Gauss |
The cgs unit used in measuring magnetic induction. |
Gene |
A given segment of the DNA molecule that contains the code for a specific
protein. |
Glass |
An amorphous solid obtained when silica is mixed with other compounds, heated
above its melting point, and then cooled rapidly. |
Glass transition temperature (Tg) |
The temperature at which, upon cooling, a noncrystalline ceramic or polymer
transforms from a supercooled liquid to a rigid glass. |
Grain boundary |
The interface separating two adjoining grains having different crystallographic
orientations. |
Grain growth |
The increase in average grain size of a polycrystalline material: for most
materials, an elevated temperature heat treatment is necessary. |
Grain size |
The average grain diameter as determined from a random cross section.
|
Green ceramic body |
A ceramic piece, formed as a particulate aggregate, that has been dried
but not fired. |
Ground |
To make electrical connection to the earth or to the chassis of a device
(verb); the connection point so used (noun). |
GUI |
Graphical User Interface -- hardware, software, and firmware that produces
the display on modern personal computers. |
Hall effect |
The phenomenon whereby a force is applied to a moving electron or hole by
a magnetic field that is applied perpendicular to the direction of motion.
The force direction is perpendicular to both the magnetic field and the
particle motion directions. |
Hardness |
The measure of a material's resistance to deformation by surface indentation
or by abrasion. There are various scales in use to express hardness. The
Mohs scale is qualitative and somewhat arbitrary and ranges from 1 on the
soft end for talc to 10 for diamond. Quantitative scales are the Rockwell
(HR), Brinell (indicated by HB), Knoop (HK) and Vickers (HV). Knoop and
Vickers are referred to as microhardness testing methods on the basis of
load and indenter size. |
Heat capacity (Cv at constant volume and Cp at constant
pressure) |
The quantity of heat required to produce a unit temperature rise per mole
of material. |
Heme |
An iron complex. |
Hemoglobin |
A biomolecule composed of four myoglobine-like units (proteins plus heme)
that can bind and transport four oxygen molecules in the blood. |
HEMT |
High electron mobility transistor. |
Henry (H) |
Unit of inductance (see"inductance"). One henry (H) is the inductance
of a closed circuit in which an electromotive force of 1 volt is produced
when the electric current in the circuit varies uniformly at the rate of
1 ampere per second. |
Henry's law |
The amount of gas dissolved in a solution is directly proportional to the
pressure of the gas above the solution. |
Home Page |
a site or "page" on the World Wide Web (WWW). |
Homogeneous and Heterogeneous Assays |
A homogeneous assay does not require a separation step to remove free antigen
from bound antigen and relies upon the fact that the function of the label
is modified upon binding, leading to a change in signal intensity. Because
of high background signal a heterogeneous approach incorporating a separation
step of bound and unbound makes the detection limit lower, approaching the
values obtained by RIA. The homogeneous assay is less technically demanding.
|
http |
Hypertext transfer protocol -- transfer protocol used on the WWW. |
Hysteresis |
The difference in the output when a specific input value is approached first
with an increasing and then with a decreasing input. This phenomenon occurs
in ferroelectric materials and results in irreversible loss of energy through
heat dissipation. |
I/O |
Input/output information transfer between computer and peripherals such
as keyboard or printer. |
IC |
See"integrated circuit". |
Impedance |
The complex ratio of a force-like quantity (force, pressure, voltage, temperature,
or electric field) to a corresponding related velocity-like quantity (velocity,
volume velocity, current, heat flow, or magnetic field strength). |
Index of refraction (n) |
The ratio of the velocity of light in a vacuum to the velocity in some medium.
|
Inductance [in Henry, H] |
That property of an electric circuit which tends to oppose change in current
in the circuit. One henry (H) is the inductance of a closed circuit in which
an electromotive force of 1 volt is produced when the electric current in
the circuit varies uniformly at the rate of 1 ampere per second. |
Inductor |
Energy storage circuit component consisting of a coil of wire and possibly
a magnetic material. |
Infrared |
Invisible electromagnetic radiation having a longer wavelength, and lower
frequency, than visible red light. |
Inhibitor |
A chemical substance that, when added in relatively low concentrations,
slows down a chemical reaction. |
Insertion point (in lithography context) |
Adaptation of a new lithography technique is referred to as the insertion
point of that technique. |
Insulator |
Material that conducts electricity very poorly. |
Integrated circuit (IC) |
Semiconductor circuit, typically on a very small silicon chip, containing
microfabricated transistors, diodes, resistors, capacitors, etc. |
Internet |
Worldwide digital communication network in which packets of information
travel between senders and recipients. |
Interstitial diffusion |
a diffusion mechanism that causes atomic motion from interstitial site to
interstitial site. |
Intrinsic |
Characterizes pure undoped semiconductor; electrical conductivity depends
only on temperature and the band gap energy. |
Ionic bond |
A coulombic interatomic bond existing between two adjacent and oppositely
charged ions. |
Ionophore |
A macro-organic molecule capable of specifically solubilizing an inorganic
ion of suitable size in organic mediums. |
ISE (Ion selective electrode) |
Ions in solution are quantified by measuring the change in voltage (i.e.
potentiometric) resulting from the distribution of ions (by ion exchange
controlled by the ion exchange current io) between a sensing membrane (the
ion selective membrane) and the solution. This potential is measured at
zero current with respect to a reference electrode which is also in contact
with the solution. The potential measured is proportional to the logarithm
of the analyte concentration. The oldest and best known ISE is the pH sensor
based on a glass membrane. More recently, polymeric membranes have been
formed incorporating ionophores (see ionophore) rendering the membrane specific
to certain ions only. |
ISFET |
Ion Sensitive Field Effect Transistor: a logical extension of ISE's. They
can be conceptualized by imagining that the lead from an ion-selective electrode,
attached via a cable to a FET in the high impedance input stage of a voltmeter,
is made shorter until no lead exists and the selective membrane is attached
directly to the FET. For an ISFET, the property measured is the lateral
conductivity between two opposing doped regions (the source and drain) surrounding
the active area. The underlying change is a change in flat-band voltage.
|
Isomorphous |
Having the same structure. In the phase diagram sense, isomorphicity means
having the same crystal structure or complete solid solubility for all compositions.
|
Isothermal |
At a constant temperature. In an isothermal process heat is, if necessary,
supplied or removed from the system at just the right rate to maintain constant
temperature. |
Isotropic |
Having identical values of a property in all crystallographic directions.
|
Kilobyte (kB) |
210 (= 1024, or about one thousand) bytes of information. |
Kilohertz (kHz) |
One thousand cycles per second (see also"frequency"). |
Kinetic molecular theory |
A model that assumes that an ideal gas is composed of tiny particles (molecules)
in constant motion. |
Label or marker |
A problem endemic in immunoassays is the absence of a chemical signal created
by the antibody-antigen binding, in contrast with an enzyme-substrate binding
reaction which produces a chemical reaction product. As a result of this
absence, the use of a label or marker is usually required to detect the
bound antibody-antigen complex. Several markers have been established for
use in immunoassays. Examples of such markers are:
- Particles (e.g. latex, gold particles, erythrocytes)
- Metal and dye sols (e.g. Au, PalanilR; Luminous Red G)
- Chemiluminescent and bioluminescent compounds (e.g. Luciferase/luciferins,
Luminol and derivatives, Acridinium esters, Peroxidase)
- Electrochemical active species (ions, redox species, ionophores)
- Fluorophores (e.g. Dansyl chloride DANS, Rare earth metal chelates, Umbelliferones)
- Chromophores
- Enzymes (e.g. Alkaline phosphatase, -D-Galactosidase, Peroxidase), substrates,
cofactors
- Liposomes
- Iodine-125, tritium, 14C, 75Se, 57Co. |
Laser |
Light Amplification by the Stimulated Emission of Radiation -- quantum device
that produces coherent light. |
Laser trimming |
A method for adjusting the value of thin- or thick-film resistors by using
a computer-controlled laser system. |
LCD |
Liquid Crystal Display -- display device employing light source and electrically
alterable optically active thin film. |
Leakage |
The loss of all or parts of a useful agent, as of the electric current that
flows through an insulator or the magnetic flux that passes outside useful
flux circuits. |
LED |
Light-Emitting diode -- semiconducting diode that produces visible or infrared
radiation. |
Lewis acid |
An electron-pair acceptor. |
Lewis base |
An electron-pair donor. |
Life (lifetime) |
The length of time the sensor can be used before its performance changes.
|
Limit of detection |
The smallest measurable input. This differs from resolution, which defines
the smallest measurable change in input. For a temperature measurement,
this would provide an indication of the lowest temperature a sensor could
generate an output in response to. |
Linear coefficient of thermal expansion |
see thermal expansion coefficient, linear. |
Linearity |
The degree to which the calibration curve of a device conforms to a straight
line. |
Lipids |
Water-insoluble substances than can be extracted from cells by nonpolar
organic solvents. |
Luminescence |
defined as the mission of light from a substance in an electronically excited
state. Depending on whether the excited state is singlet or triplet, the
emission is called fluorescence (less than one second decay) or phosphorescence
(longer than 1 second decay). Depending on the source, molecules get the
needed extra energy from different types of luminescence are distinguished:
radioluminescence, photoluminescence (in the same category are fluorescence
and phosphorescence), chemiluminescence and bioluminescence, electrochemiluminescence,
sonochemi-luminescence and thermoluminescence. |
Magnetic field strength (designated
by H) [A/m] |
Magnetic field produced by a current, independent of the presence of magnetic
material. The units of H are ampere-turns per meter, or just amperes per
meter. |
Magnetic flux density or magnetic induction (designated
by B) |
The magnetic field produced in a substance by an external magnetic field.
The units of B are tesla (T). One tesla is the magnetic flux density given
by a magnetic flux of 1 weber per square meter. One weber is a magnetic
flux that, linking a circuit of 1 turn, would produce in it an electromotive
force of 1 volt if it were reduced to zero at a uniform rate in 1 second.
Both B and H are field vectors. One henry (H) is the inductance of a closed
circuit in which an electromotive force of 1 volt is produced when the electric
current in the circuit varies uniformly at the rate of 1 ampere per second.
The magnetic field strength and flux density are related according to: B
= H, where is the permeability (see under permeability). |
Magnetic susceptibility (m) |
The proportionality constant between the magnetization M (see under"magnetization")
and the magnetic field strength H. The magnetic susceptibility is unitless.
|
Magnetization (M) |
The total magnetic moment per unit volume of material. Also, a measure of
the contribution to the magnetic flux by some material within an H field.
The magnitude of M is proportional to the applied field as: M = m ~ H,
with m the magnetic susceptibility. |
Magnetostrictive material |
A material that changes dimension in the presence of a magnetic field or
generates a magnetic field when mechanically deformed. |
Martensite |
A metastable iron phase supersaturated in carbon that is the product of
a diffusionless (athermal) transformation from austenite. |
Mask |
Pattern on glass, like a photographic negative, for producing integrated-circuit
elements on semiconductor wafer. |
MCM |
MultiChip Module; the interconnection of two or more semiconductor chips
in a semiconductor-type package. |
Mean |
Numerical average of data values. |
Measurand |
A physical quantity, condition, or property that is to be measured.
|
Mechatronics |
The synergistic combination of precision mechanical engineering with electronic
control. |
Megabyte (MB) |
220 (= 1,048,576, or about one million) bytes of information. |
Megahertz (Mhz) |
One million cycles per second (see also"frequency"). |
MEMS |
Stood originally for Micro-ElectroMechanical System -- microscopic mechanical
elements, fabricated on silicon chips by techniques similar to those used
in integrated circuit manufacture, for use as sensors, actuators, and other
devices. Today almost any miniaturized device (based on Si technology or
traditional precision engineering, chemical or mechanical) is referred to
as a MEMS device. |
Microphone |
Device that produces voltage or current in response to a sound wave.
|
Microprocessor |
Chip containing the logical elements for performing calculations and carrying
out stored instructions. |
Microstructure |
In material engineering the structural features of a material such as grain
boundaries, grain size and structure, subject to observation under a microscope,
selective etching etc. In MEMS microstructure unfortunately is also used
to designate a micromachined feature. |
Miller indices |
A set of 3 integers (4 for hexagonal) that designate crystallographic planes,
as determined from reciprocals of fractional axial intercepts. |
MIPS |
Millions of Instructions per Second -- a measure of computing power.
|
Mobility (electron, and hole) |
the proportionality constant between the carrier drift velocity and applied
electric field. |
Modulus of elasticity (E) |
The ratio of stress to strain when deformation is totally elastic. Also
the Young's modulus. |
Molality |
The molality or molal concentration (symbol m) is the amount of substance
per unit mass of solvent or mol kg-1. |
Molarity |
Concentration in a liquid solution (symbol c), in terms of the number of
moles of a solute dissolved in 106 mm3 (103 cm3) of solution in mol l-1.
|
Molding (plastics) |
Shaping a plastic material by forcing it, under pressure at a high temperature,
into a mold cavity. |
Monoclonal antibodies |
Produced by injecting animals to elicit a response from lymphocytes to produce
antibodies. Lymphocytes which produce antibodies with strong binding capability
can be isolated and used to produce only one kind of antibody (monoclonal)
on a permanent basis once the lymphocytes are immortalized. This is accomplished
by fusing them (combining them genetically) with cancer cells which have
the distinction of living indefinitely in a culture. Monoclonal antibodies
can be produced repeatedly and collected for use in immunodetection.
|
Moore's law |
after Gordon Moore:"The number of transistors per computer chip will
double roughly every two years". |
MOSFET |
Metal-Oxide-Semiconductor Field-Effect Transistor -- device where gate electrode
potential controls current flow |
MUX |
Device for combining several signals or data streams into a single flow.
|
n-type |
Characterizes a semiconductor containing predominantly mobile electrons
(also see"p-type"). |
NAND |
NOT-AND -- logic gate whose output is the negation of that of the AND gate.
|
Nernst equation |
An equation relating the potential of an electrochemical cell to the concentrations
of the cell components: E = Eo + RT/zF ln C1/C2 with z the charge exchanged
at the electrode and C1 and C2 concentrations of two electro-active compounds.
|
NOR |
NOT-OR -- logic gate whose output is the negation of that of the OR gate.
|
NOT |
Logic gate whose output is binary 1 when its input is 0, and whose output
is a 0 when its input is a 1. |
Nucleation |
The initial stage in a phase transformation, evidenced by the formation
of small particles (nuclei) of the new phase, which are capable of growing.
|
Nucleotide |
A monomer of the nucleic acids composed of a five-carbon sugar, a nitrogen-containing
base, and phosphoric acid. |
Ohm () |
Unit of resistance. One ohm is the electrical resistance between two points
of a conductor when a constant potential difference of 1 volt, applied to
these points, produces a current of 1 ampere in the conductor. |
Ohmmeter |
Tool for measuring electrical resistance. |
Op-amp |
Operational Amplifier -- semiconductor amplifier characterized by high gain
and high internal resistance. |
OR |
Logic gate whose output is a binary 1 if any of its inputs is a 1; zero
otherwise. |
Oscillator |
Circuit that produces an alternating voltage (current) when supplied by
a steady (DC) energy source. |
Osmosis |
The flow of solvent into a solution through a semi-permeable membrane.
|
Osmotic pressure () |
The pressure that must be applied to a solution to stop osmosis: = MRT.
|
Oxidation |
The removal of one or more electrons from an atom, ion or molecule.
|
p-Type semiconductor |
A semiconductor for which the predominant charge carriers responsible for
electrical conduction are holes. |
Package |
Protective enclosure for a chip or a sensor, typically made of plastic or
ceramic. |
Paramagnetism |
A relatively weak form of magnetism resulting from the independent alignment
of atomic dipoles (magnetic) with an applied magnetic field. Also a type
of induced magnetism, associated with unpaired electrons, that causes a
substance to be zapped into the inducing magnetic field. |
Permeability [] |
From the relation between magnetic induction and magnetic field (B = H);
for free space, 0 = 1.26 ~ 10-6 H/m. |
Permitivity [] |
From the relation between polarization charge and electric field; for free
space, 0 = 8.85 ~ 10-12 F/m. |
Phase shift |
A time difference between the input and output signals. |
Phase transformation |
A change in the number and/or character of the phases that make up the microstructure
of an alloy. |
Phonon |
A single quantum of vibrational or elastic energy. |
Phosphorescence |
Luminescence that occurs at times greater than on the order of a second
after an electron excitation event (see also"luminescence").
|
Photodiode |
Semiconductor diode that produces voltage (current) in response to illumination
(see also"phototransitor"). |
Photomicrograph |
The picture made with a microscope. |
Phototransistor |
Transistor that, when powered, produces amplified voltage (current) in response
to illumination. |
Piezoelectric material |
A ferroelectric material in which an electrical potential difference is
created due to mechanical deformation, or conversely, in which the application
of a voltage causes dimensional changes in the material. |
Pin-out |
Diagram showing for electronic components the relations between connecting
pins and internal components. |
Pinhole |
The term pinhole embraces a wide variety of oxide defects and is used in
a broad sense today. Listed in this category are cracks caused by thermal
contraction after oxidation or by handling, and regions of oxide with low
dielectric strength caused by dust particles, inadequate masking, contamination,
or poor resist adhesion. |
Pitting |
A form of very localized corrosion wherein small pits or holes form, usually
in a vertical direction. |
Pixel |
Picture Element -- smallest element of an image, such as a dot on a computer
monitor screen. |
pK value |
A measure of the strength of an acid on a logarithmic scale. The pK value
is given by log10 (1/Ka), where Ka is the acid dissociation constant pK
values often are used to compare the strengths of different acids. |
Plastic deformation |
Permanent or nonrecoverable deformation, accompanied by permanent atomic
displacement. |
Plasticizer |
A low molecular weight polymer additive that enhances flexibility and workability
and reduces stiffness and brittleness. |
Point defect |
A crystalline defect associated with one or several atomic sites. |
Poisson's ratio () |
For elastic deformation, the negative ratio of lateral and axial strains
that result from an applied axial stress. |
Polarization (P) |
The total electric dipole moment per unit volume of dielectric material.
|
Polyclonal antibodies |
Antibodies produced by an animal's white blood cells (lymphocytes, specifically)
in response to an antigen. This response occurs naturally or can purposely
be created by injecting an animal, such as a rabbit or goat, with a specific
antigen. More than one kind of anti-body is produced since more than one
lymphocyte is producing antibodies. This is referred to as"polyclonal".
The polyclonal antibodies are isolated from the animal and can be used for
detection purposes. Because the antibodies are actually a mixture with different
affinities (binding capability) for the antigen of interest, some variability
in performance can occur from one test to another or one batch of antibodies
to another. |
Polysilicon |
Polycrystalline silicon used as conductor in integrated circuits, and especially
FETs. |
Potentiometric Device |
Monitors the voltage between a sensing electrode and a reference electrode.
A high input impedance voltmeter is used to minimize current flow. The voltage
typically is proportional to the logarithm of the analyte concentration.
|
Power [W] |
Product of voltage and current in a component; also, refers to the field
of electric energy supply. |
Precision |
The degree of reproducibility among several independent measurements of
the same true value under specified conditions. |
Printed circuit board (PCB) |
Selectively metallized insulating sheet for supporting and interconnecting
circuit components. |
Pyroelectricity |
The property of certain crystals, such as tourmaline, of acquiring opposite
electrical charges on opposite faces when heated. |
Q factor |
A rating, applied to coils, capacitors, and resonant circuits, equal to
the reactance divided by the resistance. The ratio of energy stored to energy
dissipated per cycle in an electrical or mechanical system. |
Quantization |
The concept that energy can occur only in discrete units called quanta.
|
RAM |
Random Access Memory -- read-write memory with elements accessible in any
order. |
Range |
The difference between the minimum and maximum values of sensor output in
the intended operating range. Defines the overall operating limits of a
sensor. |
Reactance |
Portion of impedance that characterizes non-dissipative, energy storage
effects (also see"impedance"). |
Reactant |
A starting substance in a chemical reaction. It appears to the left of the
arrow in a chemical reaction. |
Recrystallization |
The formation of a new set of strain-free grains within a previously cold-worked
material due to an annealing heat treatment. |
Rectifier |
Device that converts bi-directional to one-way current flow. |
Reduction |
The addition of one or more electrons to an atom, ion, or molecule.
|
Reflection |
Deflection of a light beam at the interface between 2 media. |
Refraction |
Bending of a light beam when passing from one medium to another, at different
velocities of light. |
Refractory |
A metal or ceramic that does not deteriorate rapidly or does not melt when
exposed to extremely high temperatures. |
Relative magnetic permeability (r) |
The ratio of the magnetic permeability of some medium to that of a vacuum
(unitless), or: r = /0, where 0 is the permeability of vacuum, a universal
constant, which has a value of 1.257x10-6 H/m. |
Reliability (life, multi-use vs. single, calibration
vs. accuracy drift) |
How well a sensor maintains both precision and accuracy over its expected
lifetime. Also includes the robustness of the sensor. |
Repeatability |
The exactness with which a measuring instrument repeats indications when
it measures the same property under the same conditions. |
Residual stress |
A persisting stress in a material free of external forces or temperature
gradients. |
Resistance [-ohm] |
Characteristic of a resistor: in a 1-ohm resistance a current of 1 A produces
a voltage drop of 1 V. |
Resistivity () |
The reciprocal of electrical conductivity, and a measure of a material's
resistance to passing electric current. |
Resistor |
Energy dissipative element consisting of a poor conductor in series with
connecting wires. |
Resolution |
The smallest measurable change in input that will produce a small but noticeable
change in the output. In the context of chemical separations, defines the
completeness of separation. |
Resonant frequency |
The frequency at which a moving member or a circuit has a maximum output
for a given input. |
Response time |
The time it takes for the sensor's output to reach its final value. A measure
of how quickly the sensor will respond to changes in the environment. In
general, this parameter is a measure of the speed of the sensor and must
be compared with the speed of the process. |
Reverse bias |
The insulating bias for a p-n junction rectifier; electrons flow into the
p side of the junction. |
RF |
Radio Frequency -- refers to alternating voltages and currents having frequencies
between 9 kHz and 3 MHz. |
rms |
Root mean square. |
ROM |
Read only memory; memory used for permanent, storage of unalterable data;
nonvolatile memory. |
Sacrificial anode |
An active metal or alloy that corrodes and protects another metal or alloy
to which it is electrically coupled. |
Sacrificial layer |
A thin film that is later removed to release a microstructure from its substrate.
|
Scanning electron microscope (SEM) |
a microscope producing an image by using reflected electron beams that scan
the surface of a specimen. |
Selectivity |
The ability of a sensor to measure only one metric or, in the case of a
chemical sensor, to measure only a single chemical species. |
Semiconductor |
Nonmetallic material, such as silicon, whose electrical conductivity is
moderate and alterable by doping. |
Sensitivity |
The amount of change in a sensor's output in response to a change at a sensor's
input over the sensor's entire range. Provides an indication of a sensor's
ability to detect changes. For some sensors, the sensitivity is defined
as the input parameter change required to produce a standardized output
change. |
SI units |
International System of units based on the metric system and units derived
from the metric system. |
Signal-to-noise-ratio |
The ratio of the output signal with an input signal to the output signal
with no input signal. |
Single crystal |
A crystalline solid for which the periodic and repeated atomic pattern extends
throughout its entirety without interruption. |
Sintering |
Particle coalescence of a powdered aggregate by diffusion that is accomplished
by firing at an elevated temperature. |
Slip |
Plastic deformation resulting from dislocation motion; also, the shear displacement
of 2 adjacent planes of atoms. |
Slip casting |
A forming technique used to shape ceramic materials. A slip or suspension
of solid particles in water is poured into a porous mold. A solid layer
forms on the inside wall as water is absorbed by the mold, leaving a shell
(or a solid piece) in the shape of the mold. |
Smart sensor |
A sensor in which the electronics that process the output from the sensor,
and forms the modifier, are partially or fully integrated on a single chip.
|
Solvent |
The component of a solution that dissolves a solute. |
Span |
The difference between the highest and lowest scale values of an instrument.
|
Specific heat |
The heat capacity per unit mass of material. |
Specific Modulus (specific stiffness) |
The ratio of elastic modulus to specific gravity for a material. |
Specific strength |
The ration of tensile strength to specific gravity for a material. |
Spinning |
Fiber forming process: a multitude of fibers are spun as molten material
is forced through many small orifices. |
Squeeze-film damping |
Effect of ambient fluid and spacing on the vertical movement of a structural
member with respect to a substrate. |
Stability |
The ability of a sensor to retain specified characteristics after being
subjected to designated environmental or electrical test conditions.
|
Stabilizer |
A polymer additive that counteracts deteriorative processes. |
Standard atmosphere |
A unit of pressure equal to 760 mm Hg. |
Standard hydrogen electrode (SHE) |
A platinum conductor in contact with a 1 M H+ ions and bathed by hydrogen
gas at one atmosphere. |
Steady-state diffusion |
The diffusion condition for which there is no net accumulation or depletion
of diffusing species. The diffusion flux is independent of time. |
Step response |
The response of a system to an instantaneous jump in the input signal.
|
Stiction |
Static friction; adhering of thin micromachined layers to a substrate.
|
Stoichiometry |
For ionic compounds, the state of having exactly the ratio of cations to
anions specified by the chemical formula. Stoichiometric quantities refers
to quantities of reactants mixed in exactly the correct amounts so that
all are used up at the same time. |
Strain (symbol ) |
The change in gauge length of a specimen, in the direction of an applied
stress, divided by its original gauge length. |
Strain gauge |
An element (wire or foil) that measures a strain based on electrical resistance
changes of the gauge that result from a change in length or dimension strain
of the wire or foil. |
Stress concentration |
The concentration or amplification of an applied stress at the tip of a
notch or small crack. |
Stress corrosion (cracking) |
A form of failure resulting from the combined action of a tensile stress
and a corrosion environment, occurring at lower stress levels than required
when the corrosion environment is absent. |
Superconductivity |
A phenomenon characterized by the disappearance of the electrical resistivity
at temperatures approaching 0 K. |
Surface Plasmon |
A collective motion of electrons in the surface of a metal conductor, excited
by the impact of light of appropriate wavelength at a particular angle.
|
Systematic error |
An error that always occurs in the same direction. |
TAB bonding |
Tape automated bonding; semiconductor packaging technique that uses a tiny
lead-frame to connect circuitry on the surface of the chip to a substrate
instead of wire bonds. |
Tensile strength (TS) |
The maximum engineering stress, in tension, sustainable without fracture;
also called"ultimate (tensile) strength". |
Tesla [T] |
Unit of magnetic induction: 1T = 1 weber/m2 (also, 1T = 104 gauss).
|
TFT |
Thin film transistor. |
Thermal conductivity () |
For steady-state heat flow, the proportionality constant between the heat
flux and the temperature gradient. Also, a parameter characterizing the
ability of a material to conducting heat. |
Thermal expansion coefficient, linear () |
The fractional change in length divided by the change in temperature.
|
Thermal fatigue |
A type of fatigue failure that introduces the cyclic stresses by fluctuating
thermal stresses. |
Thermal shock |
The fracture of a brittle material resulting from stresses introduced by
a rapid temperature change. |
Thermal stress |
A residual stress introduced within a body resulting from a change in temperature.
|
Thermistor |
A temperature-measuring device, that contains a resistor or semiconductor
whose resistance varies with temperature. |
Thermocouple |
A temperature-measuring device, which contains a pair of end-joined dissimilar
conductors in which an electromotive force is developed by thermoelectric
effects when the joined ends and the free ends of the conductors are a different
temperature. |
Thermoplastic polymer |
A substance that when molded to a certain shape under appropriate conditions
can later be remelted. |
Thermoset polymer |
A substance that when molded to a certain shape under pressure and high
temperatures cannot be softened again or dissolved. |
Threshold |
The smallest input signal that will cause a readable change in the output
signal. |
Time constant |
The time it takes for the output change to reach 63% of its final value.
|
Toughness |
A measure of the amount of energy absorbed by a material as it fractures,
indicated by the total area under the material's tensile stress-strain curve.
|
Transduction (self-generating or modulating) |
The conversion of the signal to be measured into another, more easily accessible
form. Source of energy for transmission of the sensor signal. |
Transduction mode (direct or indirect) |
How the sensor acquires the desired information from the material. In general,
this parameter is an indication of the ability of the sensor signal to provide
information regarding a material property or state of interest. |
Transformer |
Device using magnetically linked inductors to change AC voltage level.
|
Transient response |
The response of the sensor to a step change in the measurand. |
Transistor |
Semiconductor device used for amplification and switching. |
Transmission |
Refers to system for carrying electric power at voltages above 100,000 volts.
|
Transmission electron microscope (TEM) |
A microscope that produces an image by using electron beams to transmit
(pass through) the specimen, making examination of internal features at
high magnifications possible. |
Tribology |
The science and technology of two interacting surfaces in relative motion
and of related subjects and practices. The popular equivalent is friction,
wear, and lubrication in surfaces sliding against each other, as in bearing
and gears. |
Turn-on-voltage |
Applied voltage required to produce conduction in a diode. |
ULSI |
Ultra large scale integration; a chip with over 1,000,000 components.
|
Unit cell |
The basic structural unit of a crystal structure, defined in terms of atom
(or ion) positions within a parallelepiped volume. |
URL |
Universal Resource Locator -- address of a World Wide Web site. |
Usenet |
Interlinked bulletin boards available via Internet and commercial on-line
services. |
UV |
Ultraviolet -- characterization of short-wavelength light for exposing photoresist
in making semiconductor devices. |
Valence band |
The electron energy band that contains the valence electrons in solid materials.
|
Valence electrons |
The electrons in the outermost occupied electron shell, that participate
in interatomic bonding. |
Van der Waals bond |
A secondary, permanent or induced, interatomic bond between adjacent molecular
dipoles. |
Viscoelasticity |
a type of deformation exhibiting the mechanical characteristics of viscous
flow and elastic deformation. |
Viscosity (symbol is ) |
The ratio of the magnitude of an applied shear stress to the velocity gradient
that it produces; in other words: a measure of a noncrystalline material's
resistance to permanent deformation. |
Vitrification |
During firing of a ceramic body, the formation of a liquid phase that becomes
a glass-bonding matrix upon cooling. |
VLSI |
Very large scale integration; a chip with 100,000 to 1,000,000 components.
|
Volt |
Unit of electrical potential difference (see"voltage"). |
Voltage [V] |
Potential difference between two points: energy to move a 1-C charge through
a 1-V potential difference is 1-J. |
Wafer |
Semiconductor disk out of which integrated circuits are made (also see"chip","mask").
|
Watt (W) |
Unit of power. One watt is the power that, in 1 second, gives rise to an
energy of 1 joule. |
Weber |
Unit of magnetic flux. One weber is a magnetic flux that, linking a circuit
of 1 turn, would produce in it an electromotive force of 1 volt if it were
reduced to zero at a uniform rate in 1 second. |
Weight percent (wt%) |
Concentration specification on the basis of weight (or mass) of a particular
element relative to the total alloy weight (or mass). |
Whisker |
A very thin, single crystal of high perfection which has an extremely large
length-to-diameter ratio. Whiskers are used as the reinforcing phase in
some composites. |
World Wide Web (WWW) |
Graphical hypertext system linking many Internet computers. |
X-ray |
any of the electromagnetic radiations of the same nature as visible radiation
with typical photon energies in the range of 100 eV -100 keV but having
an extremely short wavelength of less than 100 angstroms. |
Yield strength |
The stress required to produce a very slight yet specified amount of plastic
strain; a strain offset of 0.002 is commonly used. |
Yielding |
The onset of plastic deformation. |
Zener diode |
Semiconductor diode that has a well-defined turn-on voltage for conduction
in the reverse direction. |
Zero offset |
The output of a sensor at zero input for a specified supply voltage or current.
|
Zone refining |
A metallurgical process for obtaining a highly pure metal that depends on
continuously melting the impure material and recrystallizing the pure metal.
|