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Synthesis And Characterization Of Copper Doped Zinc Sulfide Nanomaterials For The Application Of Energy Efficient Electroluminescent Lighting
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Book Synopsis Synthesis and Characterization of Copper-doped Zinc Sulfide Nanomaterials for the Application of Energy Efficient Electroluminescent Lighting by : Carley Corrado
Download or read book Synthesis and Characterization of Copper-doped Zinc Sulfide Nanomaterials for the Application of Energy Efficient Electroluminescent Lighting written by Carley Corrado and published by . This book was released on 2011 with total page 316 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Synthesis and Characterization of Copper Doped Zinc Sulfide Nanoparticles by : Tiffany Chen
Download or read book Synthesis and Characterization of Copper Doped Zinc Sulfide Nanoparticles written by Tiffany Chen and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis The Synthesis, Optical Properties and Biological Applications of Mn2+, Cu2+ and Ag+ Doped ZnS Nanoparticles by : Lun Ma
Download or read book The Synthesis, Optical Properties and Biological Applications of Mn2+, Cu2+ and Ag+ Doped ZnS Nanoparticles written by Lun Ma and published by . This book was released on 2011 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: As a typical wide-band gap IIB-VI semiconductor, ZnS and ZnS based materials have been extensively studied and used in a variety of applications such as electroluminescence and cathodoluminescence displays, solar cells, and other optoelectronic devices. The most attractive feature of ZnS is its ability to be doped with most transition and/or rare earth metal ions, which allows a wide range of tunable electronic and optical properties. The nano-sized ZnS based particles perform unique physical and chemical properties that dramatically differ from their bulk materials due to quantum size confinement. In this dissertation, Mn2+, Cu2+ and Ag+ doped ZnS water soluble nanoparticles were synthesized for biological applications. Luminescent nanoparticles have gained immense attention as versatile fluorescent agents for bio-medical imaging because of their unique luminescence and photophysical properties. ZnS:Mn is a representative member in ZnS based material family. The red emission from Mn2+ ions is very intensive and can be excited by various energy sources, including X-ray. In this work, the synthesized water soluble ZnS:Mn nanoparticles are first applied to cell imaging and fingerprint detection. Satisfactory results have been obtained due to intensive luminescence of ZnS:Mn nanoparticles and their relative long lifetime. Subsequently, hydrophobic ZnS:Mn nanoparticles were prepared and encapsulated together with photosensitizer into polylactic-co-glycolic acid (PLGA) spheres for photodynamic therapy (PDT) applications. Results show that more cells were killed by using PLGA encapsulated ZnS:Mnphotosensitizer composites after X-ray treatment. Water soluble afterglow nanoparticles are the key factor for the new strategy of "Nanoparticle Self-Lighting Photodynamic Therapy for Cancer Treatment", in which the light activating photosensitizers is generated by afterglow nanoparticles. Therefore, water soluble ZnS:Cu, Co green afterglow nanoparticles were synthesized and their optical properties including afterglow properties were discussed. The result from the preliminary application of ZnS:Cu, Co afterglow nanoparticles and photosensitizer conjugation on human prostate cancer cells shows that the energy transfer occurs and the composite materials killed more cells comparing to either photosensitizers or nanoparticles after UV light treatment. High fluorescence or afterglow intensity is required for an efficient light source in PDT. The afterglow enhancement is observed by sample aging. Further measurement and analysis revealed that the oxidation process occurring on particle surface could produce more defects which act as electron traps and result in the enhancement on both afterglow intensity and longevity. Moreover, blue afterglow was obtained from ZnS:Ag, Co water soluble nanoparticles by using the same strategy, which may further contribute to the development of new afterglow materials from ZnS-based nanoparticles.
Book Synopsis Synthesis and Characterization of Copper Zinc Tin Sulfide Nanoparticles and Thin Films by : Ankur Khare
Download or read book Synthesis and Characterization of Copper Zinc Tin Sulfide Nanoparticles and Thin Films written by Ankur Khare and published by . This book was released on 2012 with total page 144 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Zinc Oxide Nanostructures: Synthesis and Characterization by : Sotirios Baskoutas
Download or read book Zinc Oxide Nanostructures: Synthesis and Characterization written by Sotirios Baskoutas and published by MDPI. This book was released on 2018-12-04 with total page 303 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is a printed edition of the Special Issue "Zinc Oxide Nanostructures: Synthesis and Characterization" that was published in Materials
Book Synopsis Copper Zinc Tin Sulfide Thin Films for Photovoltaics by : Jonathan J. Scragg
Download or read book Copper Zinc Tin Sulfide Thin Films for Photovoltaics written by Jonathan J. Scragg and published by Springer Science & Business Media. This book was released on 2011-09-01 with total page 220 pages. Available in PDF, EPUB and Kindle. Book excerpt: Jonathan Scragg documents his work on a very promising material suitable for use in solar cells. Copper Zinc Tin Sulfide (CZTS) is a low cost, earth-abundant material suitable for large scale deployment in photovoltaics. Jonathan pioneered and optimized a low cost route to this material involving electroplating of the three metals concerned, followed by rapid thermal processing (RTP) in sulfur vapour. His beautifully detailed RTP studies – combined with techniques such as XRD, EDX and Raman – reveal the complex relationships between composition, processing and photovoltaic performance. This exceptional thesis contributes to the development of clean, sustainable and alternative sources of energy
Book Synopsis Optical Absorption and El of Cu Doped Zinc Sulphide Nanocrystals by : Sakshi Sahare
Download or read book Optical Absorption and El of Cu Doped Zinc Sulphide Nanocrystals written by Sakshi Sahare and published by LAP Lambert Academic Publishing. This book was released on 2012 with total page 56 pages. Available in PDF, EPUB and Kindle. Book excerpt: Synthesis and characterization of nano-sized particles has currently been a topic of intense investigation. In recent years, much effort has been devoted to the research of doped nanostructured materials. This kind of nanomaterials exhibits unusual physical and chemical properties in comparison with their bulk counterpart. As an important II-VI material, ZnS is chemically more stable and technologically better than other chalcogenides. In this thesis, we report an effective doping process by chemical route method to obtain nanosized ZnS: Cu particles. I have prepare five different samples with different concentration of copper. I have taken pure Zinc sulphide nanoparticle and after that I have put the copper in percentage of 0.005%, 0.01%, 0.015% and 0.02%. The influence of Cu doping concentration on electroluminescence has been studied.
Book Synopsis Synthesis and Spectroscopic Characterization of Manganese Doped Zinc Sulfide Quantum Dot Nanocrystals by : Pedro A. Gonzalez Beerman
Download or read book Synthesis and Spectroscopic Characterization of Manganese Doped Zinc Sulfide Quantum Dot Nanocrystals written by Pedro A. Gonzalez Beerman and published by . This book was released on 2006 with total page 330 pages. Available in PDF, EPUB and Kindle. Book excerpt: Zinc sulphide quantum dots were synthesized in aqueous media using sodium polyphosphate as the stabilizer. The nanoparticles were 2.5 ± 0.5 nm and 5.0 ± 0.5 nm diameter depending on the synthetic procedure employed and the amount of Mn doped varied from 0.003 to 0.32% (w/w). The nanoparticles were characterized by UV-Vis absorption, luminescence, EPR, near edge x-ray absorption fine structure (NEXAFS), and x-ray photoelectron spectroscopy (XPS), and x-ray diffraction (XRD), and transmission electron microscopy (TEM). These quantum dots show a strong emission at 590 nm due to the 4 T 1 - 6 A 1 transition characteristic of Mn occupying Zn positions in the lattice in a slightly distorted T d site. The intensity of the emission at 590 nm increases asymptotically with the concentration of Mn(II) while the lifetime of this emission decreases. The EPR data reveal that Mn 2+ exists in at least three different types of environments: a slightly distorted T d site, a highly distorted site near the surface of the nanoparticle and surface sites where Mn 2+ is adsorbed. The sites responsible for the luminescence of ZnS:Mn are the T d sites inside the nanoparticle. The 590 nm emission is enhanced when the nanoparticles photo-react with cysteine. This change in intensity could be employed for the design of nanosensors.
Book Synopsis Alternating Current Electroluminescent Properties of Zinc Sulfide Powders by : Alireza Salimian
Download or read book Alternating Current Electroluminescent Properties of Zinc Sulfide Powders written by Alireza Salimian and published by . This book was released on 2012 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: In order to investigate the alternating current electroluminescent properties of zinc sulfide powders the following experiments were conducted: synthesis of zinc sulfide phosphors (comprised of zinc, sulfur and copper dopant); thermal shocking of phosphor materials (sudden cooling, using liquid nitrogen, of phosphor particles heated up to 500oC) and analysis of their alternating current electroluminescent properties as well as studies of particle crystal structures by synchrotron and conventional X-ray powder diffraction techniques. Inductively coupled plasma mass spectrometry was utilized to investigate the concentration of co-activator atoms within the zinc sulphide crystal lattice. Electroluminescent panels were prepared and the emission properties were evaluated theoretically in order to obtain a mathematical relationship between various parameters involved in the electroluminescent process. Thermal quenching of zinc sulfide phosphor alters its photoluminescent and electroluminescent properties. The dominant wavelength of the material alters from 504 nm to 517 nm. It appears that the blue centres are vulnerable to the thermal quenching procedure carried out as the blue emission deteriorates and the overall blue emission of the material is reduced due to the role that the interstitial Cu+ species play in this mechanism. The interstitial Cu+ is not as stable in its location within the lattice compared to substitutional Cu+ and hence a thermal shock is prone to effect its location or association with the surrounding atoms. The green emission centre, however, appears to be unaffected. Results obtained from layer by layer analysis of the material demonstrate that the surface of the phosphor particles contain most of the copper content (copper to zinc molar ratio of 0.08% in the surface compared to 0.06% at inner levels distributed within the lattice). The location of the outer copper layer may play a key role in the alternating current electroluminescence (ACEL) process; further experiments need to be conducted in order to prove the foregoing hypothesis. Irrespective of the amount of copper impurity (dopnat) initially added to the zinc sulphide precursor, prior to synthesis of the phosphor, during the high temperature firing of the material (above 700 ̊C) a considerable amount of the copper will be ejected from the lattice and be washed off in the latter steps of the synthesis process (where the newly synthesized phosphor is washed in concentrated ammonia solution); an initial copper content of 1.2% molar ratio is reduced to 0.154%; however, the duration of the high temperature firing is a key factor in the final amount of copper present within the lattice. XRPD experiments of a working ACEL device (i.e., when the AC field is applied across the electroluminescent phosphor) show that the diffraction lines all shift, but remain within the region where broad diffraction intensity is observed for a powder sample (i.e. random orientation). Indeed the sharp diffraction lines are observed to span across each broad diffraction area associated with the sphalerite phase. The panel exhibits a different diffraction pattern when the device is powered in an AC field compared to when it is not exposed to the field. This clearly indicates that the particles possess piezoelectric properties and the electric field causes strain on the crystal lattice. When considering the major drawbacks of ACEL technology, i.e. it's short life time and degradation characteristics, defining a mathematical model of its emission degradation is a step towards understanding part of the mechanism of the ACEL process. Due to the various number of parameters involved in the phenomenon of electroluminescence (such as particle size, copper content and random distribution of crystal planes) and the fact that emissions arise from certain centres randomly distributed over each phosphor particle, mathematical models are only accurate when they are formulated in relation to the analysis of a particular batch of phosphor sample and used to prepare a particular panel. Hence, no overall mathematical formulation can be produced to measure the emission properties of various ACEL panels produced by different batches of zinc sulfide phosphors. The findings of this research indicate that sample preparation technique which involves addition of raw zinc sulfide to an already copper doped zinc sulfide causes an increase in the occurrence of nano p-n junctions species within the lattice where the cupper locations form the p-type and the n type is formed from the release of some sulfur atoms from zinc sulfide structure during the high temperature firing relative to the conventional phosphor preparation methods. Larger particles have a higher probability of contacting interstitial copper sites during firing and preparation as copper atoms tend to migrate out of the zinc sulfide lattice toward the surface. Hence larger particles (commercial phosphors) demonstrate better emission properties. Thermal quenching affects the interstitial copper sites more than the other luminescent centres formed of substitutional copper sites. Hence the lowered blue emission occurs. Due to the probability of high dispersion of Cu atoms within the ZnS lattice a useful mathematical model cannot easily be developed for an EL panel. EXAFS analysis cannot be fully relied up on in respect of the interstitial copper environment in these phosphors considering that a small fraction of the copper impurity in the phosphor exists at interstitial sites. However, the results from experiments using XANES confirm a change in the electronic configuration of Zn atoms when samples are quenched.
Book Synopsis Colloidal Metal Oxide Nanoparticles by :
Download or read book Colloidal Metal Oxide Nanoparticles written by and published by Elsevier. This book was released on 2019-10-16 with total page 608 pages. Available in PDF, EPUB and Kindle. Book excerpt: Colloidal Metal Oxide Nanoparticles: Synthesis, Characterization and Applications is a one-stop reference for anyone with an interest in the fundamentals, synthesis and applications of this interesting materials system. The book presents a simple, effective and detailed discussion on colloidal metal oxide nanoparticles. It begins with a general introduction of colloidal metal oxide nanoparticles, then delves into the most relevant synthesis pathways, stabilization procedures, and synthesis and characterization techniques. Final sections discuss promising applications, including bioimaging, biosensing, diagnostic, and energy applications—i.e., solar cells, supercapacitors and environment applications—i.e., the treatment of contaminated soil, water purification and waste remediation. Provides the most comprehensive resource on the topic, from fundamentals, to synthesis and characterization techniques Presents key applications, including biomedical, energy, electronic and environmental Discusses the most relevant techniques for synthesis, patterning and characterization
Book Synopsis Synthesis and Characterization of Phase-pure Copper Zinc Tin Sulfide (Cu2ZnSnS4) Nanoparticles by : Bradley Michael Monahan
Download or read book Synthesis and Characterization of Phase-pure Copper Zinc Tin Sulfide (Cu2ZnSnS4) Nanoparticles written by Bradley Michael Monahan and published by . This book was released on 2014 with total page 71 pages. Available in PDF, EPUB and Kindle. Book excerpt: Semiconductor nanoparticles have been an important area of research in many different disciplines. A substantial amount of this work has been put toward advancing the field of photovoltaics. However, current p-type photovoltaic materials can not sustain the large scale production needed for future energy demands due to their low elemental abundance. Therefore, Earth abundant semiconductor materials have become of great interest to the photovoltaic community especially, the material copper zinc tin sulfide (CZTS), also known by its mineral name kesterite. CZTS exhibits desirable properties for photovoltaics, such as elemental abundance, high absorption coefficient (~104 cm-1), high carrier concentration, and optimum direct band gap (1.5 eV). To date, solution based approaches for making CZTS have yielded the most promising conversion efficiencies in solar cells. To that end, the motivation of nanoparticle based inks that can be used in high throughput production are an attractive route for large scale deployment. This has driven the need to make high quality CZTS nanoparticles that possess the properties of the pure kesterite phase with high monodispersity that can be deposited into dense thin films. The inherent challenge of making a quaternary compound of a single phase has made this a difficult task; however, some of those fundamental problems are addressed in this thesis. This had resulted in the synthesis of phase-pure k-CZTS confirmed by powder X-ray diffraction, Raman spectroscopy, UV-visible absorption spectroscopy and energy dispersive x-ray spectroscopy. Furthermore, ultra-fast laser spectroscopy was done on CZTS thin films made from phase-pure kesterite nanoparticles synthesized in this work. This thesis provides new data that directly probes the lifetime of photogenerated free carriers in kesterite CZTS (k-CZTS) thin films.
Book Synopsis Synthesis and Characterization of Zinc Sulfide/zinc Oxide Semiconductor Nanoparticles by : Daniel Alan Hall
Download or read book Synthesis and Characterization of Zinc Sulfide/zinc Oxide Semiconductor Nanoparticles written by Daniel Alan Hall and published by . This book was released on 2014 with total page 132 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Synthesis, Characterization, and Device Applications of Viral-templated Copper Sulfide and Copper Oxide Semiconductor Nanomaterials by : Mohammed Shahriar Zaman
Download or read book Synthesis, Characterization, and Device Applications of Viral-templated Copper Sulfide and Copper Oxide Semiconductor Nanomaterials written by Mohammed Shahriar Zaman and published by . This book was released on 2014 with total page 127 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nature has the ability to mineralize and build intricate nanostructures of inorganic materials with a very high precision. Various bio-molecules can mineralize and control the morphology and composition of inorganic materials at ambient conditions. Inspired by nature, this work focuses on utilizing the M13 virus, a filamentous phage, 880 nm in length and 6 nm in diameter, for mineralizing copper sulfide and copper oxide semiconductor nanomaterials. The various coat proteins of the virus can easily be modified to express different peptides with specific affinity to various inorganic materials. A phage-display technique was utilized to identify a copper sulfide binding peptide expressed on the entire pVIII coat protein of the virus. This modified phage was used for synthesizing copper sulfide nanoparticles along the length of the template. To increase the yield and coverage of the mineralized material on the phage-templates, non-specific electrostatic interactions between a negatively charged phage (E3) and positively charged copper ions were utilized to synthesize copper sulfide at ambient conditions. The mineralized material coated the phage template and was identified to be cubic Cu 1.8 S, a non-stoichiometric phase of the copper sulfide material system. The material showed strong optical absorption below 800 nm due to band-to-band transitions and localized surface plasmon resonance (LSPR) peaks in the infrared region. The LSPR peaks increased in absorption and the electrical resistance of the materials decreased with time indicating an increase in the number of free carriers in the material due to exposure at ambient conditions. The free carrier increase was attributed to a compositional change on the surface of the material. The synthesized Cu 1.8 S was utilized to fabricate NH3 gas sensors. These gas sensors showed a high response to NH3 gas which may be attributed to the large surface-to-volume ratio of the viral-templated nanomaterials. Finally, utilizing the non-specific electrostatic interactions between the E3 phage and positively charged cations, copper oxide nanoparticles were also synthesized along the viral-template. These semiconductor materials were identified to be a mixture of CuO and Cu 2 O with a direct optical band gap of 2.87 eV. These viral-templated semiconductor nanomaterials have potential applications for incorporation into future devices.
Book Synopsis Nanocatalysis by : Vivek Polshettiwar
Download or read book Nanocatalysis written by Vivek Polshettiwar and published by John Wiley & Sons. This book was released on 2013-09-06 with total page 670 pages. Available in PDF, EPUB and Kindle. Book excerpt: Exhibiting both homogeneous and heterogeneous catalytic properties, nanocatalysts allow for rapid and selective chemical transformations, with the benefits of excellent product yield and ease of catalyst separation and recovery. This book reviews the catalytic performance and the synthesis and characterization of nanocatalysts, examining the current state of the art and pointing the way towards new avenues of research. Moreover, the authors discuss new and emerging applications of nanocatalysts and nanocatalysis, from pharmaceuticals to fine chemicals to renewable energy to biotransformations. Nanocatalysis features contributions from leading research groups around the world. These contributions reflect a thorough review of the current literature as well as the authors’ first-hand experience designing and synthesizing nanocatalysts and developing new applications for them. The book’s nineteen chapters offer a broad perspective, covering: Nanocatalysis for carbon-carbon and carbon-heteroatom coupling reactions Nanocatalysis for various organic transformations in fine chemical synthesis Nanocatalysis for oxidation, hydrogenation, and other related reactions Nanomaterial-based photocatalysis and biocatalysis Nanocatalysts to produce non-conventional energy such as hydrogen and biofuels Nanocatalysts and nano-biocatalysts in the chemical industry Readers will also learn about the latest spectroscopic and microscopy tools used in advanced characterization methods that shed new light on nanocatalysts and nanocatalysis. Moreover, the authors offer expert advice to help readers develop strategies to improve catalytic performance. Summarizing and reviewing all the most important advances in nanocatalysis over the last two decades, this book explains the many advantages of nanocatalysts over conventional homogeneous and heterogeneous catalysts, providing the information and guidance needed for designing green, sustainable catalytic processes.
Book Synopsis Optical Properties of Copper Doped Zinc Sulphidenanoparticles by : Sakshi Sahare
Download or read book Optical Properties of Copper Doped Zinc Sulphidenanoparticles written by Sakshi Sahare and published by LAP Lambert Academic Publishing. This book was released on 2014-03 with total page 224 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nanotechnology is the application of nanoscience to useful devices. Nanoscience can be explained as the study and manufacture of structure and devices with dimension about the size of few molecules. It is the branch of science which deals with the object with at least one dimension between one to one hundred nanometer in length, a size scale of atom molecules and super molecular structure. The nanometer sized semiconductor particles are representative of a different state of matter. This new class of material explores many properties such as size quantization, surface effect, lattice contraction, unusual fluorescence and enhanced oscillator strength, which are smaller than the diameter of their corresponding bulk excitons strongly depend on the size of the particles due to quantum confinement of the excited states. For nanoparticles, the size and surface effect are both importan. By controlling the size and surface effect, it is possible to design materials of required optical, magnetic, elastic and chemical properties. The combination of polymer with semiconducting nanoparticles allows the fabrication of thin film light emitting devices.
Book Synopsis Observation and Mechanism of Direct-current Quenching of Alternating-current Electroluminescence in Typical Zinc Sulfide Phosphors by : Edmund J. Conway
Download or read book Observation and Mechanism of Direct-current Quenching of Alternating-current Electroluminescence in Typical Zinc Sulfide Phosphors written by Edmund J. Conway and published by . This book was released on 1970 with total page 44 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Zinc Oxide Based Nano Materials and Devices by : , Prof. Dr. Ahmed Nahhas
Download or read book Zinc Oxide Based Nano Materials and Devices written by , Prof. Dr. Ahmed Nahhas and published by BoD – Books on Demand. This book was released on 2019-10-09 with total page 148 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book presents a review of recent advances in ZnO-based nanomaterials and devices. ZnO as a nanomaterial has gained substantial interest in the research area of wide bandgap semiconductors and is considered to be one of the major candidates for electronic and photonic applications. ZnO has distinguished and interesting electrical and optical properties and is considered to be a potential material in optoelectronic applications such as solar cells, surface acoustic wave devices, and UV emitters. ZnO's unique properties have attracted several researchers to study its electrical and optical properties. As a nanostructured material, ZnO exhibits many advantages for nanodevices. Moreover, it has the ability to absorb the UV radiation.
