Perovskite Solar Cell Based on Nickel Dioxide

As an important device of renewable energy, solar cell has been the topic among people. However, the limited efficiency of traditional silicon-based solar cells restricts the application range of solar energy. In recent years, perovskite solar cell, as a new type of high-efficiency solar cell material, has the potential of high efficiency and low manufacturing cost, and has been paid attention by scientists. Nickel dioxide nanopowder(HW-S672) plays an important role in perovskite solar cells.

Solar cell is device that convert solar energy directly into electricity and is a kind of green and clean energy. Although the efficiency of traditional silicon-based solar cells continues to improve, the wide application is restricted due to the high cost of preparation. As a new type of solar cell material, perovskite solar cell has the advantages of high efficiency and low cost, and is considered to be an important direction for the development of solar cells in the future.

The working principle of the NiO2-based perovskite solar cell is to use the photosensitive nature of the perovskite structure to convert light energy into electricity. Perovskite is a kind of compound with special structure, which can achieve high efficiency photoelectric conversion. As the electrode material of the battery, nickel dioxide can provide good electron transport performance and electrical conductivity, which can help electrons transfer from the photosensitive layer to the electrode, and provide an effective electron collection channel, thus improving the efficiency of the solar cell.

The preparation methods of perovskite solar cells based on NiO2 mainly include solution method, vapor deposition method and solid phase method. Solution method is more commonly used. In the process of preparation, it is necessary to select suitable precursor, solvent and control reaction conditions, and prepare perovskite thin films by chemical reaction of solution and subsequent heat treatment.

In addition, nickel dioxide also has excellent optical properties, which can increase the light absorption capacity of perovskite solar cells and improve the photoelectric conversion efficiency. By combining its excellent electron transport performance and optical properties, nickel dioxide can facilitate the photoelectric conversion process of perovskite solar cells.

As a new kind of high efficiency solar cell material, perovskite solar cell has a broad application prospect. First of all, its preparation cost is relatively low. It can be produced in large scale to reduce the cost of solar cells. Secondly, perovskite solar cell based on nickel dioxide has high photoelectric conversion efficiency and can make full use of solar energy resources. In addition, the material also has good stability and long life, and can adapt to different application environments.

In summary, NiO2-based perovskite solar cell has a wide range of application prospects. Scientists are also conducting experiments to explore its infinite possibilities. It is believed that in the future, scientists will step by step further study the properties and preparation methods of the material, promote the development of solar cells, and contribute to the solution of energy problems.

Application Status of Nano Nickel Oxide

1、catalyst
Nickel Oxide Nanoparticles is a better catalytic oxidation catalyst, Ni2 + has a 3d orbital, has a tendency to multi-electron oxygen adsorbed preferentially on the other reducing gases have the effect of activating and reducing gas O2 plays a catalytic decomposition of organic matter synthesis, conversion processes, such as gasoline hydrocracking, petrochemical processing hydrocarbon conversion, heavy oil hydrogenation process, NiO is a good catalyst. In the catalytic combustion of natural gas, in order to avoid the reaction temperature is too high in the air oxidation of N2 NOx, and unburned CO produced entirely using NiO / CuO-Zr02 composite catalyst to improve its high temperature stability. In the process of the preparation of carbon nanotubes, used in the NiO / Si02 composite catalyst and higher Ni content, high yielding synthesis of carbon nanotubes, the diameter distribution is narrow, and NiO content and shape directly affects the carbon nano Yield and Characters tube. In wastewater treatment, NiO is remove CH4, cyanide, N2, prompting NOx decomposition catalyst. NiO as Photocatalytic Degradation of Acid Red catalyst, in the treatment of organic wastewater, the effect is very significant.

2、glass ceramic additives and colorings
Ceramics by NiO to increase its impact, when added to NiO (O.02 (wt)%), can also improve the electrical properties of materials, such as piezoelectric properties and dielectric properties. Plus NiO in the glass is mainly controlled color glass can absorb ultraviolet in brown coloration stable on transparent glass containing a small amount of NiO. Transparent glass mirrors and decorative glass, are added the right amount of NiO as a coloring agent.

3、Battery Electrode
With the continuous development of communication and information technology, the capacitor has also been an unprecedented development. Because ultracapacitors now has a much higher energy density than electrostatic capacitors and much higher power density than traditional chemical power becomes a hotspot. According to the research showed that ruthenium oxide is the most studied, the best performance of an electrochemical capacitor electrode material, but because it’s very expensive hindered its large-scale application. Activated carbon resistance and larger features make it sights on transition metal oxides. The transition metal oxide because of its own quasi-capacitance phenomenon as an electrode material for supercapacitors. Currently, the use of Ni, Mn, Co and other oxides of resistance is small, inexpensive, and is larger than the capacity and other characteristics, battery electrode materials made of concern. Molten carbonate fuel cell using NiO as the cathode, with gas or natural gas as fuel, is a power generation efficiency than conventional thermal power of clean energy. And nano-NiO battery Compared with ordinary NiO battery has obvious advantages discharge, the discharge capacity significantly increased, electrochemical performance is improved.

4、Sensor
NiO is more and more attention in recent years, gas sensor material. At present, made into nano NiO formaldehyde sensor, CO sensor, H2 sensors used in actual production.

Related reading: silicon dioxide nanoparticles aluminum oxide nanopowder

Do You Know Gold Nanoparticles?

Ultrasmall, crystalline, and dispersible NiO nanoparticles are prepared for the first time, and it is shown that they are promising candidates as catalysts for electrochemical water oxidation. Using a solvothermal reaction in tert-butanol, very small nickel oxide nanocrystals can be made with sizes tunable from 2.5 to 5 nm and a narrow particle size distribution. The crystals are perfectly dispersible in ethanol even after drying, giving stable transparent colloidal dispersions. The structure of the nanocrystals corresponds to phase-pure stoichiometric nickel(ii) oxide with a partially oxidized surface exhibiting Ni(iii) states. The 3.3 nm nanoparticles demonstrate a remarkably high turn-over frequency of 0.29 s–1 at an overpotential of g = 300 mV for electrochemical water oxidation, outperforming even expensive rare earth iridium oxide catalysts. The unique features of these NiO nanocrystals provide great potential for the preparation of novel composite materials with applications in the field of (photo)electrochemical water splitting. The dispersed colloidal solutions may also find other applications, such as the preparation of uniform hole-conducting layers for organic solar cells.

Gold has always been the one precious material people like best. Due to its intrinsic value, buying the yellow metal has been seen as a good way of securing one’s money. Big players on the market prefer it in the form of bullion, whereas small investors settle themselves with purchasing fine pieces of gold jewelry. In modern times though, gold has ceased to be merely a safe investment opportunity or exchange currency. As a result of extensive research and continuous development, it has been discovered that gold can be used successfully for scientific purposes as well.

One of these special uses of gold refers to what is called ‘nanogold’, ‘colloidal gold’ or ‘gold nanoparticles’, i.e. sub-micrometer-sized particles of gold dispersed in a fluid, usually water. The existence of these special gold particles has been known to people since ancient times, yet it was in 1850s that scientists focused their full attention on them. The main reasons behind this interest for gold nanoparticles are their extraordinary optical, electronic and molecular-recognition properties. These properties allow for the gold nanoparticles to have applications in various fields, including electron microscopy, electronics,Nickel Oxide Nanoparticles,nanotechnology and materials science.

Biological electronic microscopy is one of the areas where gold nanoparticles have been extensively used as contrast agents. They can be associated with many traditional biological probes such as antibodies, lectins, superantigens, glycans, nucleic acids and receptors. Because gold particles having various sizes can be easily spotted in electron micrographs, it is possible for multiple experiments to be conducted simultaneously.

In what concerns the domain of health and medical applications, gold nanoparticles have been successfully used as part of the treatment for some diseases. Rheumatoid arthritis was among the first conditions where use of gold was part of the therapy since it has been found that gold particles implanted near the arthritic hip joints relieve pain. There have also been some in vitro experiments which have proved that gold nanoparticles combined with microwave radiation can destroy the beta-amyloid fibrils and plaque which are characteristic for Alzheimer’s disease. But perhaps the most important medical purpose for which gold nanoparticles can be used is the localization and treatment of cancer. It has already been shown that by directing gold nanoparticles into the nuclei of cancer cells, they can only not hinder them from multiplying, but also kill them.

As we can see, for the modern society of today gold has become more than just merchandise and by buying it we do not just secure our investments, but our health as well. With the help of science, researchers have been able to explore the great latent potential gold has. Just like the professionals in the business whose opinion is of great value for the buyers, specialists in important areas such as medicine can testify about gold’s benefits too.

Related reading: silicon dioxide nanoparticles antibacterial coating nano silver