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Blog Arşivi Molchem Technologies | Cadmium sulfide nanoparticles and their quantum dot version are of a significant interest due to their semiconducting and luminescent properties, especially their controllable emission bands, continuous excitation and the ease of functionalization. Cadmium sulfide (CDS) is particularly used in devices with optoelectronic property and is known to be a direct band gap material at room temperature. Cadmium sulfide has attracted a lot of attention due to an extensive range of applications and unique properties. In fact, cadmium sulfide among the most widely studied semiconducting material with unique chemical and optical characteristics because of its quantum size effect. Particularly, cadmium sulfide has been shown to be a highly qualified photosensitive material and its perfect compatibility with organic semiconductors makes it a potential agent as an electron acceptor with an application in solar cells1. | Physical and Chemical Properties of Cadmium Sulfide Nanoparticles | Synthesis and Preparation of Cadmium Sulfide Nanoparticles | Applications of Cadmium Sulfide Nanoparticles | Conclusion | References | Hydroxyapatite powder also called HA powder is a mineral present in either solid or crystalline form which is then converted into the powdered form. It is based on the presence of calcium, hydroxyl ions and phosphorus in different ratios. It is synthesized chemically in various forms having a balanced chemical equation with appropriate ratios. It has two biological functions too, mantis shrimp and humans/mammals/primates. It has several uses as well in the field of cosmetics, supplements, medical and archeology. With the world pacing at such a great rate, HA powder has proved to be beneficial in several ways. Though there are still some manufacturers who are claiming this mineral to be a misfit but on the other hand, it has multiple supporters too so that is why it is rightly believed that benefits and misfits go hand in hand and it is true in plenty of ways too because we have to be careful as to what product or use of HA powder will prove to be beneficial or harmful for us. | Introduction | Properties of Hydroxyapatite powder | Uses of hydroxyapatite powder | References | Antimony doped tin oxide (ATO) nanoparticles have been proven to exhibit special optical property and excellent electrical conductivity to be used as thin film electrodes. Studies have shown that antimony doped tin oxide possesses a high n-type electric performance and employed in the form of the traditionally produced aerogel thin films for the purpose of collecting electrons in solar cells. Introducing antimony to the tin oxide structure can significantly increase the electron conductivity making it an excellent conductive material. Antimony tin oxide is transparent in the entire region of visible electromagnetic light, whereas it reflects the infra-red light. Generally, majority of the research projects concerning ATO have concentrated on the thin films of antimony doped tin oxide no matter they are made of nanoparticles or from particular precursors directly. | Physical and Chemical Properties of Antimony Tin Oxide Nanoparticles | Synthesis and Preparation of Antimony Tin Oxide Nanoparticle | Applications of Antimony Tin Oxide Nanoparticle | Conclusion | References | After quite a few years since their discovery, fullerenes are now a well-established subject of research in many areas of chemistry and materials science. Years of studies have made researchers aware of both potentials and limitations of this class of compounds. Fullerene science plays a noticeable role in fields, such as Nanotechnology, Supramolecular Chemistry and Materials Chemistry. One of the most promising territories of investigation includes the modification of the fullerene cage to improve and/ or enhance its qualities for various applicative purposes since fullerenes possess unusual magnetic, optical, photophysical, electrochemical, semiconducting and superconducting properties. A new research field has aroused based on the functionalization and study of new fullerene types in recent years, which intends to benefit from the properties of these carbon hollow clusters in different technological fields. The high number of functionalization probabilities combined with the rich supramolecular chemistry of fullerenes provides the production of multiple derivatives of fullerenes with a wide diversity of architectures and these are continuously discovered as novel materials. | Silicon carbide nanoparticles have wide applications in field emission displays and light emitting devices. Moreover, nanoscale silicon carbide is used in designing and manufacturing electro-devices in nanoscale, nanosensors and biological labels. Bulky silicon carbide (SiC) is known as a refractory agent and semiconductor with excellent thermal, mechanical and chemical behavior. The melting point of this non-oxide ceramic is above 2800 °C, perfectly resistant against corrosion with low thermal expansion coefficient. Silicon carbide has a large bandgap and remarkable mechanical strength with low density and high hardness 1. | Silicon Carbide Properties | Silicon Micron and Nanoparticles powder | Synthesis and Preparation of Silicon Nano/Micron Particles and Powder | Applications of Silicon Nano/Micron Particles and Powder | References | Nowadays, oxidation reactions play a substantial role in modern chemistry as well as chemical industry. Around 30% of total production in the chemical industry is carried out by the oxidation process. It means that after polymerization, oxidation is the largest process in the production of chemicals. | Indium Tin Oxide is a mixture of indium and tin. The typical composition by weight is 90% In2O3 and 10% SnO2. It is, therefore, indium oxide where a small fraction of indium atoms is replaced by tin atoms: we can say that it is indium oxide doped with tin. We will discuss all about it in this article. | Indium | Tin | Indium Tin Oxide Nanoparticles | Applications of Indium Tin Oxide | Smart Windows | References | Lead zirconate titanate (PZT) and its nanoscale crystals are known as the most common ferroelectric inorganic compounds employed as piezoelectric materials with the highest coupling coefficient between its mechanical and electrical properties. Lead zirconate and titanate appears to have a morphotropic phase boundary at molar ratio fraction ranging from 0.4 to 0.6 supporting its sample processing setting and compositional homogeneity 1. The morphotropic phase boundary is a point where the Ti:Zr ratio is 48:52 at room temperature adequate to achieve the best piezoelectric properties. Lead zirconate titanateis originally a solution containing antiferroelectric PbZrO3 and ferroelectric PbTiO3 with their Currie temperatures as 230°C and 490°C, respectively 2. Generally, lead zirconate titanate shows better sensitivity at higher operation temperatures. Regarding these properties and chemical inertness and physical strength with relatively low preparation cost, lead zirconate titanate is among the most common piezoelectric materials in the industry. | Properties of Lead Zirconate Titanate Nanoparticles | Synthesis and Preparation of Lead Zirconate Titanate Nanoparticles | Applications of Lead Zirconate Titanate Nanoparticles | References | Patented Nanodrugs | Nano Drugs in Ocular Drug Delivery | Nano Drugs for Central Nervous System Diseases | Nano Drugs for the Treatment of Vascular Thrombosis | Nanodrugs for Gene Therapy | References | Over the past few years, a considerable interest has been focused on metal nanoparticles due to their potential applications in diverse fields including catalysis, magnetic recording media, or microelectronics. The metal nanoparticles are finding applications in optoelectronics, nanodevices, nanoelectronics, nano-sensors, information storage and catalysis. Among various metal particles, copper nanoparticles have attracted more attention because of their catalytic, optical, electrical and antifungal/antibacterial applications. Copper nanoparticles are being researched a lot due to its high electrical conductivity, high melting point, low electrochemical migration behavior, excellent solderability and low material cost. Copper is one of the most widely used materials in the world. It has a great significance in all industries, particularly in the electrical industry due to its low cost. | Production of Copper Nanoparticles | Applications | REFERENCES | REFERENCES FOR IMAGES | Aluminum nitride is a compound having remarkable characteristics such as high thermal conductivity. Due to these characteristics, it has a wide range of applications in the electronics sector. The thermal conductivity of Aluminum nitride is in the range of 170-180 W/mK. This is greater than a lot of other ceramics. Moreover, Aluminum nitride can be easily metalized and it is considered a good electric insulator. This characteristic makes it possible to use Aluminum nitride as a heat sink or where the quick heat removal is desired. Aluminum nitride can be found in large shapes, thin substrate, or in powder form. The characteristics of Aluminum nitride are even more effective in the form of nanoparticles. Therefore, in this article, we aim to discuss the properties, applications, and potential of Aluminum nitride nanoparticles for future use. | Introduction | About Aluminum | Properties of Aluminum Nitride | Applications of Aluminum Nitride Nanoparticles | Research | References | Coronavirus (2019-nCoV) researches continue to find a remedy for the spread. All disciplines are working in a coordination to stop this disease. There are test, vaccine, and treatment researches all around world while time is ticking. However, answer might be in nanotechnology to find COVID-19 test, or to develop a vaccine for coronavirus. Below, we dived into the possible scenario of using gold nanoparticle to fight against coronavirus family and other nanotechnological contributions to halt novel Coronavirus. | Coronavirus Pathogens Binding and Fusion Mechanism | Gold Nanoparticles for Detection and Inhibition of Coronavirus Pathogens | Gold Nanoparticle-Modified Spike Protein as a Potent Antigen against Coronavirus | HR1 Peptide Inhibitor Based on Gold Nanorod | Conclusion | References | Synthesis of Iron Nanoparticles | Cadmium Sulfide Nanoparticles | Hydroxyapatite Powder | Biocompatibility: | Bioactivity: | Osteoconductivity: | Non-toxicity and non-inflammatory nature: | Uses of hydroxyapatite powder in Cosmetics | Uses of hydroxyapatite powder in Medical: | Use of hydroxyapatite powder in supplements: | Use of hydroxyapatite powder in archaeology: | Use of hydroxyapatite powder in chromatography: | Use of hydroxyapatite powder in defluoridation: | Use of hydroxyapatite powder in Mammals/Humans/Primates: | Antimony Tin Oxide Nanoparticles | ​C60 Fullerenes | Silicon Carbide (SiC) Micron and Nano Powder | ​Molybdenum Oxide Nanoparticles | ​Indium Tin Oxide | Lead Zirconate Titanate (PZT) Nanopowder | Nanomedicine and Nanodrugs | Copper Nanoparticles | ​Aluminum Nitride (AIN) Nanoparticles | Gold Nanoparticles Against Pathogens of Coronavirus Family | SiO2 Nano powder, Properties & Applications | Iron Oxide Nanoparticles and Applications | Surface Modification of Iron Oxide Nanoparticles | Important Factors to Enhance the Efficiency of Iron Oxide Nanoparticles | Boron Nitride Nanoparticles | Zinc Sputtering Targets and Applications | Graphene Oxide: Descriptions, Usage and Applications | Single-walled carbon nanotube semiconductors could be favorable for photovoltaic systems. | Aluminum Paste | Alpha Gypsum | Search | Contact | News | Pages | Company | Categories | Our Address