Nanodot can refer to several technologies which use nanometer-scale localized structures. Nanodots generally exploit properties of

quantum dots Quantum dots (QDs) are semiconductor particles a few nanometres in size, having optical and electronic properties that differ from those of larger particles as a result of quantum mechanics. They are a central topic in nanotechnology. When the ...

to localize magnetic or electrical fields at very small scales. Applications for nanodots could include high-density

information storage Data storage is the recording (storing) of information (data) in a storage medium. Handwriting, phonographic recording, magnetic tape, and optical discs are all examples of storage media. Biological molecules such as RNA and DNA are consi ...

, energy storage, and light-emitting devices.

Information storage

Magnetic nanodots are being developed for future information storage. Nanodot technology could potentially store over one hundred times more data than today's hard drives. The nanodots can be thought of as tiny

magnet A magnet is a material or object that produces a magnetic field. This magnetic field is invisible but is responsible for the most notable property of a magnet: a force that pulls on other ferromagnetic materials, such as iron, steel, nicke ...

s which can switch polarity to represent a

binary Binary may refer to: Science and technology Mathematics * Binary number, a representation of numbers using only two digits (0 and 1) * Binary function, a function that takes two arguments * Binary operation, a mathematical operation that ta ...

digit.

Hard drives A hard disk drive (HDD), hard disk, hard drive, or fixed disk is an electro-mechanical data storage device that stores and retrieves digital data using magnetic storage with one or more rigid rapidly rotating platters coated with magne ...

typically magnetize areas 200-250 nm long to store individual bits (as of 2006), while nanodots can be 50 nm in diameter or smaller. Thus nanodot-based storage could offer considerably higher information density than existing hard drives. Nanodots could also lead to ultrafast memory.

Battery

In 2014 self-assembled, chemically-synthesized bio-organic

peptide Peptides (, ) are short chains of amino acids linked by peptide bonds. Long chains of amino acids are called proteins. Chains of fewer than twenty amino acids are called oligopeptides, and include dipeptides, tripeptides, and tetrapeptides. ...

nanodots were proposed to reduce charging times in batteries. They are claimed to improve energy density and electrolyte performance. The new battery is said to operate like a (fast-charging) supercapacitor for charging and a (slow-discharge) battery for providing power.

Lithium-ion battery

Applications with nanodot technology have been testing in lithium-ion batteries. It has been shown that binder-free three-dimensional (3D) macro-mesoporous electrode architecture yields a high-performance supercapacitor-like lithium battery. It is about ten times more efficient compared to the current model of state-of-the-art graphite

anode An anode is an electrode of a polarized electrical device through which conventional current enters the device. This contrasts with a cathode, an electrode of the device through which conventional current leaves the device. A common mnemonic ...

. This electrode architecture simultaneously allows for rapid ion transfer and ultra-short solid-phase ion diffusion resulting in an efficient new binder-free electrode technique towards the development of high-performance supercapacitor-like Li-ion batteries.

Lithium-sulfur battery

Incorporation of nanodot technology into lithium-sulfur batteries is crucial because rechargeable lithium-sulfur batteries are a significant energy-storage device owing to their eco-friendliness and high theoretical energy density. However, the shuttle effect of soluble

polysulfides Polysulfides are a class of chemical compounds containing chains of sulfur atoms. There are two main classes of polysulfides: inorganic and organic. Among the inorganic polysulfides, there are ones which contain anions, which have the general form ...

as well as the slow redox kinetics constrains the development of Li-S batteries. Studies have shown that the coexistence of micropores, mesopores, and macropore in the hierarchical porous carbon are beneficial for physically accommodating/immobilizing active materials sulfur and rapid charge/ion transfer, superior to the most reported

biochar Biochar is the lightweight black residue, made of carbon and ashes, remaining after the pyrolysis of biomass. Biochar is defined by the International Biochar Initiative as "the solid material obtained from the thermochemical conversion of ...

-based

electrodes An electrode is an electrical conductor used to make contact with a nonmetallic part of a circuit (e.g. a semiconductor, an electrolyte, a vacuum or air). Electrodes are essential parts of batteries that can consist of a variety of materials dep ...

, creating an avenue to the design of multifunctional sulfur host for advanced Li-S batteries in the future. The shuttle effect in lithium-sulfur (Li–S) batteries mainly originates from the diffusion of soluble polysulfides (LiPSs) and their depressed redox kinetics and is responsible for the progressive leakage of active material within the battery itself. Researchers have developed a layer composed of acorn shell porous carbon/Sn4P3 nanodots electrocatalyst which serve as a conductive interface but also provides a dual-adsorption barrier to retain active material and inhibit the LiPSs migrating.

Sodium-ion battery

Sodium-ion batteries are very similar to lithium-ion batteries in that they are both cations. In these cells, however, poor cycle stability due to stacking is one of its main challenges but studies have proved that sulfur nanodots are employed as an efficient anti-blocking agent of

MoS2 Molybdenum disulfide (or moly) is an inorganic compound composed of molybdenum and sulfur. Its chemical formula is . The compound is classified as a transition metal dichalcogenide. It is a silvery black solid that occurs as the mineral molybdenit ...

sheet. This arrangement of these sulfur sheets exhibit a higher current density with excellent cycling stability, surviving 300 full charge/discharge cycles with a retention of 83.8%. Sodium-ion batteries also offer an attractive option for potential low-cost, large-scale energy storage because of the earth's abundance of natural sodium. Red phosphorus is considered as a high-capacity anode for sodium-ion batteries. Like silicon in lithium-ion batteries, several limitations, such as large volume expansion upon sodiation/desodiation and low electronic conductance, inhibit the performance of red phosphorus anodes. Scientists have deposited nanodots densely and uniformly onto reduced graphene oxide sheets to minimize the sodium ion diffusion length and the sodiation/desodiation stresses and create free space to accommodate the volume variation of phosphorus particles. This results in significant performance improvement for red phosphorus anodes for sodium-ion chemistry and flexible power sources for wearable electronics and smartphone technology.

Potassium-ion battery

Researchers have shown that

antimony Antimony is a chemical element with the symbol Sb (from la, stibium) and atomic number 51. A lustrous gray metalloid, it is found in nature mainly as the sulfide mineral stibnite (Sb2S3). Antimony compounds have been known since ancient t ...

-based materials with high theoretical capacity have been considered as a promising anode material for potassium-ion batteries (PIBs). Unfortunately, the large volume expansion leads to rapid capacity fading and poor rate capability. Ultrafine nanodots can shorten the ion's diffusion distance with the enhanced kinetic process in the battery cell. When applied as the anode for potassium-ion batteries, they all show satisfactory potassium-storage properties in terms of high reversible capacity and superior rate capability, especially the excellent electrochemical performances.

References

{{reflist Computer storage technologies Quantum dots