Your search keyword '"Semiconductors -- Usage"' showing total 236 results

1. Foxconn Electronics: Hon Hai's use of AI to accelerate the development of silicon carbide power components was published in IEEE OJPEL

Subjects

Foxconn Electronics Inc. -- Technology application, Semiconductors -- Usage, Electronics industry -- Technology application -- Usage, Silicon carbide -- Usage, Silicon -- Usage, Technology application, Electronics industry

Abstract

Key Highlights: * Research conducted in the global market for developing a carbon dioxide power unit using AI accelerated by the Yangtze Sea. * Involvement of over 500 companies in [...]

Published

2024

2. Smart hat senses traffic light change

Author

Sparkes, Matthew

Subjects

Semiconductors -- Usage, Business, Science and technology

Abstract

FLEXIBLE conductive fibre has been used to make long-lasting smart clothes with embedded computers and sensors. Lei Wei at Nanyang Technological University, Singapore, and his colleagues placed semiconductor wire made [...]

Published

2024

3. THE USE OF THE HANKEL TRANSFORM TO SOLVE NONSTATIONARY DIFFUSION PROBLEM

Author

Turtin, D.V., Stepovich, M.A., Kalmanovich, V.V., and Seregina, E.V.

Subjects

Semiconductors -- Usage, Electrons -- Models -- Usage -- Analysis, Mathematics

Abstract

We use the integral Hankel transform to study a nonstationary diffusion problem caused by interaction of electrons and a semiconductor homogeneous target. We discuss the possibility of applying the Hankel transform to problems with a multilayer target. Bibliography: 10 titles., 1 Mathematical Model We continue the study of [1]-[3]. In this paper, we discuss the possibility of using the integral Hankel transform to solve a nonstationary diffusion problem caused by [...]

Published

2021

4. Unlocking the power of photosynthesis for clean energy production

Subjects

Bacteria -- Usage, Photocatalysis -- Usage, Semiconductors -- Usage, Photosynthesis -- Research, Alternative energy sources -- Usage, Aerospace and defense industries, Astronomy, High technology industry, Telecommunications industry, University of Rochester -- Research

Abstract

Rochester NY (SPX) May 11, 2023 As the world faces an increasing demand for clean and sustainable energy sources, scientists are turning to the power of photosynthesis for inspiration. With [...]

Published

2023

5. Research from Department of Mathematics Provides New Data on Mathematics (Elasto-Thermodiffusion Modeling Using Optoelectronic Microtemperature Processes for a Ramp-Type Heating Nano-Semiconductor Material)

Subjects

Optoelectronics industry -- Research -- Usage -- Models, Semiconductors -- Usage, Electronics

Abstract

2024 JUL 30 (VerticalNews) -- By a News Reporter-Staff News Editor at Electronics Newsweekly -- Current study results on mathematics have been published. According to news originating from the Department [...]

Published

2024

6. Raman Spectroscopy of Graphene-Based Materials

Author

Workman, Jerome, Jr.

Subjects

Raman spectroscopy -- Usage, Semiconductors -- Usage, Graphite -- Usage, Graphene -- Usage, Chemistry, Engineering and manufacturing industries, Physics, Science and technology

Abstract

Raman spectroscopy is a versatile tool to identify and characterize the chemical and physical properties of graphene-based materials (1-4), providing information on graphene structures for fundamental research and for practical device fabrication, as well as demonstrating the first-and second-order modes in intrinsic graphene, as well as the shear, layer-breathing, and the G and 2D modes of multilayer graphene. Professor Ping-Heng Tan from the State Key Laboratory of Superlattices and Microstructures at the Institute of Semiconductors at the Chinese Academy of Sciences is carrying out new research to advance the use of Raman analysis of these materials. We recently interviewed Tan about this work., You have described Raman techniques to determine the number of graphene layers, to probe resonance Raman spectra of monolayer and multilayer graphenes, and to obtain Raman images of graphene-based materials. [...]

Published

2020

7. Tesla's plan to slash its use of rare-earth metals in future vehicle production sends semiconductor stocks tumbling

Subjects

ON Semiconductor Corp. -- Planning, STMicroelectronics N.V. -- Planning, Magnets, Permanent -- Usage, Semiconductor industry -- Usage -- Planning, Semiconductors -- Usage, Rare earth metals -- Usage, Carbides -- Usage, Stocks -- Usage -- Prices and rates, Semiconductor industry, Company business planning, Consumer news and advice, General interest

Abstract

Tesla's plan to cut its use of silicon carbide sent some semiconductor stocks falling on Thursday. Wolfspeed, ON Semiconductor, and STMicroelectronics use the rare earth metal to produce semiconductors. Tesla [...]

Published

2023

8. New Photochromic Materials Used for High-Density Memory Purposes

Subjects

Semiconductors -- Usage, Computer storage devices -- Usage, Information storage and retrieval -- Optical properties -- Usage, Network switches -- Usage, Network switch, Data storage device, Business, Computers and office automation industries, High technology industry

Abstract

Includes erasable and rewritable capability, high resolution and high sensitivity Material changes color after being excited by a light source Ideal for optical switches, optical data storage devices, energy-conserving coatings, eye-protection glasses and [...]

Published

2022

9. Research Data from Jilin University Update Understanding of Liver Cancer (Monitoring Clinical-pathological Grading of Hepatocellular Carcinoma Using Microrna-guided Semiconducting Polymer Dots)

Subjects

Oncology, Experimental, Semiconductors -- Usage, Nanoparticles -- Usage, MicroRNA -- Research, Molecular diagnostic techniques -- Research, Polymers -- Usage, Cancer -- Research, Hepatoma -- Diagnosis -- Genetic aspects, Molecular probes -- Usage, Health

Abstract

2022 APR 2 (NewsRx) -- By a News Reporter-Staff News Editor at Obesity, Fitness & Wellness Week -- Investigators discuss new findings in Oncology - Liver Cancer. According to news [...]

Published

2022

10. Semiconductor spin qubits gain further credibility as leading platform for quantum computing

Subjects

Semiconductors -- Usage, Quantum computing -- Research, Aerospace and defense industries, Astronomy, High technology industry, Telecommunications industry, Delft University of Technology -- Research

Abstract

Delft, Netherlands (SPX) Jan 20, 2022 Researchers at QuTech-a collaboration between the Delft University of Technology and TNO-have taken an important step for semiconductor spin qubits by surpassing the 99% [...]

Published

2022

11. Photon recycling - The key to high-efficiency perovskite solar cells

Subjects

Perovskite -- Usage, Semiconductors -- Usage, Solar batteries -- Design and construction -- Materials, Solar cells -- Design and construction -- Materials, Energy efficiency -- Control, Aerospace and defense industries, Astronomy, High technology industry, Telecommunications industry

Abstract

Dresden, Germany (SPX) Jan 14, 2022 Metal halide perovskites are receiving great attention as next-generation semiconductors for solar energy conversion. Since the first demonstration of 3.8% efficiency in 2009, efficiencies [...]

Published

2022

12. FLOSFIA and JSR progress toward practical use of the world's first P-type semiconductor, iridium gallium oxide: development of new iridium-based film formation materials for mass production creates a solution for realizing the ultimate SEMI ecology

Subjects

JSR Corp. -- Technology application, Raw materials -- Usage, Semiconductors -- Usage, Petroleum chemicals industry -- Technology application -- Usage, Aluminum oxide -- Usage, Technology application, Business, Chemicals, plastics and rubber industries

Abstract

FLOSFIA Inc (FLOSFIA) and JSR Corporation (JSR) announced on 15 Mar 2023 they have jointly developed a new iridium-based film deposition material as a solution for mass production of iridium gallium oxide [alpha-(IrGa)2O3]. This is the world's first P-type power semiconductor developed by FLOSFIA for use in combination with corundum-type gallium oxide (alpha-Ga2O3). The use of this material allows for mass production in industrial applications as well as the expression of P-type characteristics, which is the most important characteristic of iridium gallium oxide. Given the iridium element has never been mass-produced as a semiconductor and the raw materials available are limited, it was necessary to develop a completely new iridium-based film forming material. The newly developed material achieves a high-speed crystal growth rate of more than 10 times higher than the conventional material, improves coverage inside trenches, and reduces the use of iridium-based film deposition materials. As a result, the possibility of mass production application of iridium gallium oxide as a new P-type semiconductor in devices has dramatically increased, making significant progress toward the realization of FLOSFIA's goal of SEMI ecology. Iridium gallium oxide used in combination with gallium oxide was successfully demonstrated in a JBS structure. Iridium gallium oxide is an ultra-wide bandgap semiconductor with an extremely large bandgap of approximately 5 eV and a high hole concentration of 1 x 1019 cm-3, expecting its applicability to a wide-range of device designs assuming high-electric fields. This provides a solution for mass producibility by enabling early application to a wide range of power converters, including inverters used in the frequency range below 100 kHz. The results of the study are as follows: They aimed to apply iridium gallium oxide to a JBS structure that is supposed to be embedded in a trench structure. After fabricating a trench structure in part of the gallium oxide n- layer, it embedded the iridium gallium oxide. At this time, they used FLOSFIA's proprietary MIST DRY method for crystal growth but used a new iridium-based film formation material that it jointly developed as an iridium source in the solution. By using this new material, it confirmed the growth rate is more than 10 times higher than the conventional one. Cross-sectional observation of this trench structure by SEM confirmed the film thickness distribution of iridium gallium oxide was uniform and the film was formed with good coverage. The JBS structure based on the results of this research will be applied from the second-generation diode of FLOSFIA's GaO series of corundum-type gallium oxide (alpha-Ga2O3) power devices. In addition to inverters and a wide range of other power converters used in the frequency range below 100 kHz, iridium gallium oxide will be applied to transistors such as MOSFET and IGBT. Original source: JSR, website: http://www.jsr.co.jp/, Copyright JSR Corporation 2023., joint venture; new material; patents and technical know-how; research and development; gallium oxide; iridium; iridium gallium oxide; semiconductors; FLOSFIA; [...]

Published

2023

13. The Use of Semiconductors in Solar Energy Technology

Subjects

Semiconductors -- Usage, Solar energy -- Usage, Petroleum, energy and mining industries

Abstract

The Function of Semiconductors in Solar Cells PV cells are primarily composed of semiconductor materials that have a higher conductivity than insulators. However, these materials are not good conductors of [...]

Published

2023

14. Intrinsically stretchable and healable semiconducting polymer for organic transistors

Author

Oh, Jin Young, Rondeau-Gagn, Simon, Chiu, Yu-Cheng, Chortos, Alex, Lissel, Franziska, Wang, Ging-Ji Nathan, Schroeder, Bob C., Kurosawa, Tadanori, Lopez, Jeffrey, Katsumata, Toru, Xu, Jie, Zhu, Chenxin, Gu, Xiaodan, Bae, Won-Gyu, Kim, Yeongin, Jin, Lihua, Chung, Jong Won, Tok, Jeffrey B.-H., and Bao, Zhenan

Subjects

Semiconductors -- Usage, Conducting polymers -- Usage, Field-effect transistors -- Production processes, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Jin Young Oh [1]; Simon Rondeau-Gagn [1]; Yu-Cheng Chiu [1]; Alex Chortos [1]; Franziska Lissel [1]; Ging-Ji Nathan Wang [1]; Bob C. Schroeder [1]; Tadanori Kurosawa [1]; Jeffrey Lopez [...]

Published

2016

15. Vitesco Tech to use Rohm's silicon carbide tech for EV power electronics

Subjects

Batteries -- Usage, Semiconductors -- Usage, Semiconductor industry -- Usage, Electric vehicles -- Usage, Silicon carbide -- Usage, Energy efficiency -- Usage, Silicon -- Usage, Power electronics -- Usage, Energy management systems -- Usage, Semiconductor industry, Automobiles

Abstract

Byline: Autocar Pro News Desk The powertrain business area of Continental, Vitesco Technologies, a leading supplier in the field of vehicle electrification, and Rohm Semiconductor, a leading company in SiC [...]

Published

2020

16. Nanjing University Researchers Publish New Data on Electrochemistry (High spatial resolution imaging of the charge injection yield at hematite using scanning electrochemical cell microscopy)

Subjects

Semiconductors -- Usage, Electrochemical reactions -- Usage, Microscope and microscopy -- Usage, Hematite -- Usage, Electrochemistry -- Usage, Biotechnology industry, Pharmaceuticals and cosmetics industries, Nanjing University

Abstract

2022 OCT 5 (NewsRx) -- By a News Reporter-Staff News Editor at Biotech Week -- Current study results on electrochemistry have been published. According to news originating from Nanjing, People's [...]

Published

2022

17. Use of semiconductor oxide films for the detection of volatile organic compounds in the gas phase

Author

Povarov, V.G., Lopatnikov, A.I., Geibo, D.S., Bulatova, A.V., and Razgonyaev, A.O.

Subjects

Volatile organic compounds -- Chemical properties -- Identification and classification, Gas chromatography -- Methods -- Equipment and supplies, Semiconductors -- Usage, Chemistry

Abstract

A new type of flow--sensitive detectors of volatile organic compounds based on tin dioxide films modified by transition metal oxides has been proposed. The change on the film electric conductivity upon its contact with a flow of carrier gas containing a detectable compound has been used as an analytical signal. Dependences of analytical signals for some organic compounds on the temperature and film composition have been studied. Gas-chromatographic separation of model mixtures using a thermal catalytic detector has been performed. The possibility of the identification of organic compounds by the relationship between the analytical signals of two films of different compositions has been demonstrated. Keywords: volatile organic compounds, identification, gas chromatography, detection, thermal catalysis DOI: 10.1134/S1061934813040084, The operating principle of a detector is based on heterogenic catalytic reactions that occur on the solid--gas interface. The character of conversion of organic substances depends on the nature of [...]

Published

2013

18. Inkjet printing of single-crystal films

Author

Minemawari, Hiromi, Yamada, Toshikazu, Matsui, Hiroyuki, Tsutsumi, Jun'ya, Haas, Simon, Chiba, Ryosuke, Kumai, Reiji, and Hasegawa, Tatsuo

Subjects

Transistors -- Usage, Thin films -- Analysis, Printers (Computers) -- Usage, Semiconductors -- Usage, Dielectric films -- Analysis, Digital printing system, Monochrome printer, Printer accessory, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The use of single crystals has been fundamental to the development of semiconductor microelectronics and solid-state science (1). Whether based on inorganic (2-5) or organic (6-8) materials, the devices that show the highest performance rely on single-crystal interfaces, with their nearly perfect translational symmetry and exceptionally high chemical purity. Attention has recently been focused on developing simple ways of producing electronic devices by means of printing technologies. 'Printed electronics' is being explored for the manufacture of large-area and flexible electronic devices by the patterned application of functional inks containing soluble or dispersed semiconducting materials (9-11). However, because of the strong self-organizing tendency of the deposited materials (12,13), the production of semiconducting thin films of high crystallinity (indispensable for realizing high carrier mobility) may be incompatible with conventional printing processes. Here we develop a method that combines the technique of antisolvent crystallization (14) with inkjet printing to produce organic semiconducting thin films of high crystallinity. Specifically, we show that mixing fine droplets of an antisolvent and a solution of an active semiconducting component within a confined area on an amorphous substrate can trigger the controlled formation of exceptionally uniform single-crystal or polycrystalline thin films that grow at the liquidair interfaces. Using this approach, we have printed single crystals of the organic semiconductor 2,7-dioctyl[1]benzothieno[3,2-b][1] benzothiophene (C8-BTBT) (ref. 15), yielding thin-film transistors with average carrier mobilities as high as 16.4 [cm.sup.2] [V.sup.-1] [s.sup.-1]. This printing technique constitutes a major step towards the use of high-performance single-crystal semiconductor devices for large-area and flexible electronics applications., Antisolvent crystallization is recognized as the best method of achieving controlled and scalable solidification, which is useful in pharmaceutical science (14), for example. To achieve this, an 'antisolvent' (a liquid [...]

Published

2011

19. An integrated semiconductor device enabling non-optical genome sequencing

Subjects

Nucleotide sequencing -- Research -- Physiological aspects -- Usage, DNA -- Physiological aspects -- Research -- Usage, Semiconductors -- Usage, DNA sequencing -- Research -- Physiological aspects -- Usage, Genomes -- Research -- Usage -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The seminal importance of DNA sequencing to the life sciences, biotechnology and medicine has driven the search for more scalable and lower-cost solutions. Here we describe a DNA sequencing technology in which scalable, low-cost semiconductor manufacturing techniques are used to make an integrated circuit able to directly perform non-optical DNA sequencing of genomes. Sequence data are obtained by directly sensing the ions produced by template-directed DNA polymerase synthesis using all-natural nucleotides on this massively parallel semiconductor-sensing device or ion chip. The ion chip contains ion-sensitive, field-effect transistor-based sensors in perfect register with 1.2 million wells, which provide confinement and allow parallel, simultaneous detection of independent sequencing reactions. Use of the most widely used technology for constructing integrated circuits, the complementary metal-oxide semiconductor (CMOS) process, allows for low-cost, large-scale production and scaling of the device to higher densities and larger array sizes. We show the performance of the system by sequencing three bacterial genomes, its robustness and scalability by producing ion chips with up to 10 times as many sensors and sequencing a human genome., DNA sequencing and, more recently, massively parallel DNA sequencing (1-4) has had a profound impact on research and medicine. The reductions in cost and time for generating DNA sequence have [...]

Published

2011

20. New Findings from Autonomous University of Baja California in Nanoparticles Provides New Insights (Study of Optical and Morphological Properties of Nanoparticles Semiconductors of Zinc Oxide Synthesized Using Mimosa Tenuiflora Extract for ...)

Subjects

Semiconductors -- Usage, Zinc oxide -- Usage -- Research, Nanoparticles -- Analysis -- Research -- Usage, Nanotechnology -- Analysis -- Usage -- Research, Electronics, Autonomous University of Baja California

Abstract

2022 JUL 5 (VerticalNews) -- By a News Reporter-Staff News Editor at Electronics Newsweekly -- Investigators discuss new findings in Nanotechnology - Nanoparticles. According to news reporting out of Baja [...]

Published

2022

21. CdSe-ZnS quantum dots for selective and sensitive detection and quantification of hypochlorite

Author

Yan, Yan, Wang, Suhua, Liu, Zhongwei, Wang, Hongyu, and Huang, Dejian

Subjects

Semiconductors -- Usage, Semiconductors -- Composition, Semiconductors -- Chemical properties, Chemistry

Abstract

Four types of water-soluble quantum dots (QDs) grafted with different organic coating layers were fabricated, and their sensitivities for hypochlorite/hypochlorous acid (HClO) were examined. It was found that QDs with HClO reactive (methylamino and sulphide groups) coating layers exhibited a protective effect on HClO quenching of QD fluorescence, whereas QDs with hydrocarbon and carboxylate coating layers showed least protection to QD fluorescence quenching by HClO and, thus, has the highest sensitivity for the detection of HClO. The QDs with carboxylate coating layers (QDs-poly-C[O.sub.2.sup.-]) was successfully applied to the quantification of HClO in tap water. The excellent selectivity of the QDs-poly-C[O.sub.2.sup.-] toward hypochlorite against other reactive oxygen species allowed us to monitor myeloperoxidase activity. Finally, the QDs-poly-C[O.sub.2.sup.-] was also used for the detection of hypochlorite in HL60 cells by fluorescent imaging. Hence, QD-poly-C[O.sub.2.sup.-] exhibits great promise as a selective and sensitive HClO probe in chemical and biological systems. 10.1021/ac101929q

Published

2010

22. Sensitive discrimination and detection of prion disease-associated isoform with a dual-aptamer strategy by developing a sandwich structure of magnetic microparticles and quantum dots

Author

Xiao, Sai Jin, Hu, Ping Ping, Wu, Xiao Dong, Zou, Yan Li, Chen, Li Qiang, Peng, Li, Ling, Jian, Zhen, Shu Jun, Zhan, Lei, Li, Yuan Fang, and Huang, Cheng Zhi

Subjects

Sandwich construction -- Research, Prion diseases -- Research, Proteins -- Chemical properties, Proteins -- Identification and classification, Proteins -- Health aspects, Nanoparticles -- Usage, Nanoparticles -- Magnetic properties, Semiconductors -- Usage, Chemistry

Abstract

The major challenge of prion disease diagnosis at the presymptomatic stage is how to sensitively or selectively discriminate and detect the minute quantity of disease-associated prion protein isoform ([PrP.sup.Res]) in complex biological systems such as serum and brain homogenate. In this contribution, we developed a dual-aptamer strategy by taking the advantages of aptamers, the excellent separation ability of magnetic microparticles (MMPs), and the high fluorescence emission features of quantum dots (QDs). Two aptamers (Apt1 and Apt2), which can recognize their two corresponding distinct epitopes of prion proteins (PrP), were coupled to the surfaces of MMPs and QDs, respectively, to make MMPs-Aptl and QDs-Apt2 ready at first, which then could be coassociated together through the specific recognitions of the two aptamers with their two corresponding distinct epitopes of PrP, forming a sandwich structure of MMPs-Apt1-PrP-Apt2-QDs and displaying the strong fluorescence of QDs. Owing to the different binding affinities of the two aptamers with [PrP.sup.Res] and cellular prion protein ([PrP.sup.C]), both of which have distinct denaturing detergent resistance, our dual-aptamer strategy could be applied to discriminate [PrP.sup.Res] and [PrP.sup.C] successfully in serum. Further identifications showed that the present dual-aptamer assay could be successfully applied to the detection of PrP in 0.01% brain homogenate, about 1000-fold lower than that of commonly applied antibody-mediated assays, which can detect PrP just in 10% brain homogenate, indicating that the present designed dual-aptamer assay is highly sensitive and adequate for clinical diagnosis without isolation of target protein prior to assay. 10.1021/ac101865s

Published

2010

23. Ligand replacement-induced fluorescence switch of quantum dots for ultrasensitive detection of organophosphorothioate pesticides

Author

Zhang, Kui, Mei, Qingsong, Guan, Guijian, Liu, Bianhua, Wang, Suhua, and Zhang, Zhongping

Subjects

Fluorescence -- Research, Pesticides -- Chemical properties, Pesticides -- Identification and classification, Pesticides -- Composition, Ligands -- Chemical properties, Semiconductors -- Chemical properties, Semiconductors -- Usage, Chemistry

Abstract

The development of a simple and on-site assay for the detection of organophosphorus pesticed residues is very important for food safety and exosystem protection. This paper reports the surface coordination-originated fluorescence resonance energy transfer (FRET) of CdTe quantum dots (QDs) and a simple ligand-replacement turn-on mechanism for the highly sensitive and selective detection of organophosphorothioate pesticides. It has been demonstrated that coordination of dithizone at the surface of CdTe QDs in basic media can strongly quench the green emission of CdTe QDs by a FRET mechanism. Upon the addition of organophosphorothioate pesticides, the dithizone ligands at the CdTe QD surface are replaced by the hydrolyzate of the organophosphorothioate, and hence the fluorescence is turned on. The fluorescence turn on is immediate, and the limit of detection for chlorpyrifos is as low as ~0.1 nM. Two consecutive linear ranges allow a wide determination of chlorpyrifos concentrations from 0.1 nM to 10 [micro]M. Importantly, the fluorescence turn-on chemosensor can directly detect chlorpyrifos residues in apples at a limit of 5.5 ppb, which is under the maximum residue limit allowed by the U.S. Environmental Protection Agency. The very simple strategy reported here should facilitate the development of fluorescence turn-on chemesensors for chemo/biedetection. 10.1021/ac102531z

Published

2010

24. Analytical nanosphere sensors using quantum dot--enzyme conjugates for urea and creatinine

Author

Ruedas-Rama, Maria J. and Hall, Elizabeth A.H.

Subjects

Urea -- Identification and classification, Urea -- Chemical properties, Enzymes -- Usage, Chemical detectors -- Usage, Chemical detectors -- Materials, Chemical detectors -- Composition, Semiconductors -- Usage, Creatinine -- Chemical properties, Creatinine -- Identification and classification, Chemistry

Abstract

An enzyme-linked analytical nanosphere sensor (ANSor) is described, responding to enzyme--substrate turnover in the vicinity of a quantum dot (QD) due to coimmobilized enzyme and pH sensitive ligand. QD capping by mercapto-alkanoic acids were rejected as a pH sensitive ligand, but with the use of a layer-by-layer assembly on mercaptopropionie capped QDs and an intermediate poly(allylamine hydrochloride) layer, anthraquinone sulfonate (calcium red, CaR) was introduced to modify the [pK.sub.a] in the immobilized system > 8. QD--CaR absorption shows spectral overlap with [QD.sub.530] emission at all pHs and gives a complex pH dependent fluorescence resonance energy transfer (FRET) efficiency, due to excited state proton transfer ([[lambda].sub.ex] = 540 nm; [[lambda].sub.em] = 585 nm). In contrast [QD.sub.615]--CaR with spectral overlap between the QD and CaR gave a strong and reproducible pH response. QD--urease and QD--creatinine deiminase conjugates could be linked with pH changes produced by enzyme degradation of urea and creatinine, respectively. Close coupling between the pH sensitive QD and enzyme conjugate maximized signal compared with solution based assays: QD--urease and QD--CD bioconjugates were tested in model biological media (Dulbecco's modified Eagle's Medium and fetal calf serum) and in urine, showing a response in 3-4 min. 10.1021/ac101838n

Published

2010

25. Toward a photoconducting semiconductor RF optical fiber antenna array

Author

Davis, R., Rice, R., Ballato, A., Hawkins, T., Foy, P., and Ballato, J.

Subjects

Antennas (Electronics) -- Design and construction, Antennas (Electronics) -- Materials, Antennas (Electronics) -- Technology application, Antennas (Electronics) -- Electric properties, Fiber optics -- Usage, Semiconductors -- Usage, Engineering design -- Methods, Photoconductivity -- Research, Fiber optics, Technology application, Astronomy, Physics

Abstract

Recently, optical fibers comprising a crystalline semiconductor core in a silica cladding have been successfully drawn by a conventional drawing process. These fibers are expected to exhibit a photoconductive response when illuminated by photons more energetic than the band gap of the core. In the photoconducting state, such a fiber can be expected to support driven RF currents so as to function as an antenna element, much as a plasma antenna. In this paper, we report the first device-related results on a crystalline semiconductor core optical fiber potentially useful in a photoconducting optical fiber antenna array; namely, optically induced changes to the electrical conductivity of a glass-clad germanium-core optical fiber. Since DC photoconduction measurements were masked by a photovoltaic effect, RF measurements at 5 MHz were used to determine the magnitude of the induced photoconductive effect. The observed photoconductivity, though not large in the present experiment, was comparable to that measured for the bulk crystals from which the fibers were drawn. The absorbed pumping light generated photo-carriers, thereby transforming the core from a dielectric material to a conductor. This technology could thus enable a class of transient antenna elements useful in low observable and reconfigurable antenna array applications. OCIS codes: 160.2290, 160.6000, 060.2290, 060.2310, 160.5140, 260.5150.

Published

2010

26. Quantum dots based electrochemiluminescent immunosensor by coupling enzymatic amplification with self-produced coreactant from oxygen reduction

Author

Liu, Xuan, Zhang, Yangyang, Lei, Jianping, Xue, Yadong, Cheng, Lingxiao, and Ju, Huangxian

Subjects

Semiconductors -- Usage, Semiconductors -- Chemical properties, Semiconductors -- Electric properties, Chemiluminescence -- Research, Electrochemistry -- Research, Chemical detectors -- Production processes, Chemical detectors -- Technology application, Chemical detectors -- Materials, Technology application, Chemistry

Abstract

A highly sensitive competitive immunosensor based on the electrochemiluminescence (ECL) of quantum dots (QDs) was proposed by coupling with an enzymatic amplification. The fabrication process of the immunosensor was traced with atomic force microscopic images and electrochemical impedance spectra. The strong cathodic ECL emission of the immobilized QDs could be detected at a relatively low emission potential. The reduction of dissolved oxygen during the cathodic process provided a self-produced coreactant, [H.sub.2][O.sub.2], for the ECL emission. Using human IgG (HIgG) as a model protein, upon the immuno-recognition of the immobilized HIgG to its antibody labeled simply with horseradish peroxidase, the ECL intensity decreased due to the steric hindrance of the proteins to electron Iransfer. The decrease could be greatly amplified by an enzymatic cycle to consume the self-produced coreactant, leading to a wide calibration range of 0.05 ng [mL.sup.-1] ~ 5 [micro]g [mL.sup.-1] and a low limit of detection for the competitive immunoassay of HIgG. This immunosensor showed good stability and fabrication reproducibility. The immunoassays of practical samples showed acceptable results. This facile immunosensing strategy opened a new avenue for detection of proteins and application of QDs in ECL biosensing. 10.1021/ac1013942

Published

2010

27. CdSe/ZnS quantum dots-G-quadruplex/hemin hybrids as optical DNA sensors and aptasensors

Author

Sharon, Etery, Freeman, Ronit, and Willner, Itamar

Subjects

Chemical detectors -- Composition, Chemical detectors -- Materials, Semiconductors -- Usage, Semiconductors -- Composition, Semiconductors -- Chemical properties, Luminescence -- Research, DNA -- Research, Chemistry

Abstract

The luminescence of CdSe/ZnS QDs is quenched via electron transfer by hemin/G-quadruplex associated with the particles. This phenomenon is implemented to develop DNA sensors or aptasensers by tailoring hairpin-functionalized QDs that generate the hemin/G-quadruplex quenchers upon sensing of the respective analytes. 10.1021/ac101456x

Published

2010

28. Versatile immunosensor using a quantum dot coated silica nanosphere as a label for signal amplification

Author

Qian, Jing, Zhang, Chunyan, Cao, Xiaodong, and Liu, Songqin

Subjects

Silica -- Usage, Semiconductors -- Usage, Semiconductors -- Composition, Nanoparticles -- Usage, Nanoparticles -- Composition, Biological markers -- Chemical properties, Chemistry

Abstract

A versatile immunosensor using a CdTe quantum dots (QDs) coated silica nanosphere (Si/QD) as a label was proposed for ultrasensitive detection of a biomarker. In this approach, silica nanospheres with good monodispersity and uniform structure were employed as the carrier for immobilization of QDs and antibodies. Rabit IgG served as a model protein to demonstrate the performance of the immunosensor. Goat antirabbit IgG antibody was covalently bound to CdTe QDs on the surface of silica nanospheres. CdTe QDs coated with a silica nanosphere label (Si/QD/Ab2) were attached onto the gold electrode surface through a subsequent 'sandwich' immunoreaction. This reaction was confirmed by scanning electron microscopic (SEM) and fluorescence microscopic images. Due to signal amplification from the high loading of CdTe QDs, 6.6- and 5.9-fold enhancements in electrochemiluminescent (ECL) and square-wave voltammetric (SWV) signals for IgG detection were achieved compared to the unamplified method. The detection limits for IgG were 1.3 and 0.6 pg [mL.sup.-l] for ECL and SWV measurements, respectively. The resulting versatile immunosensor possesses high sensitivity, satisfactory reproducibility and regeneration, and good precision. This simple and specific strategy has vast potential to be used in other biological assays. 10.1021/ac100558t

Published

2010

29. Multiplexed detection and characterization of rare tumor cells in Hodgkin's lymphoma with multicolor quantum dots

Author

Liu, Jian, Lau, Stephen K., Varma, Vijay A., Kairdolf, Brad A., and Nie, Shuming

Subjects

Semiconductors -- Usage, Hodgkin's disease -- Health aspects, Tumors -- Identification and classification, Tumors -- Chemical properties, Chemistry

Abstract

The multicolor and multiplexing capabilities of semiconductor quantum dots (QDs) are most promising for improving the sensitivity and specificity of in vitro molecular and cellular diagnostics. Here, we report the use of multiplexed QDs and wavelength-resolved imaging to detect and characterize a class of low-abundant tumor cells in Hodgkin's lymphoma. Known as the Hodgkin's and Reed-Sternberg (HRS) cells, this class of malignant cells is a pathological hallmark in clinical diagnosis, but it comprises only about 1% of the heterogeneous infiltrating cells in lymph node tissues. To overcome this cellular heterogeneity and rarity problem, we have developed multicolor QD--antibody conjugates to simultaneously detect a panel of four protein biomarkers (CD 15, CD30, CD45, and Pax5) directly on human tissue biopsies. This multiplexing approach allows rapid detection and differentiation of rare HRS cells from infiltrating immune cells such as T and B lymphocytes. We have also carded out clinical translation studies involving six confirmed Hodgkin's lymphoma patients, two suspicious lymphoma cases, and two patients with reactive lymph nodes (but not lymphoma). The results indicate that a distinct QD staining pattern (CD15 positive, CD30 positive, CD45 negative, and Pax5 positive) can be used to not only detect Hodgkin's lymphoma but also differentiate it from benign lymphoid hyperplasia. 10.1021/ac101065b

Published

2010

30. Low-potential electrochemiluminescent sensing based on surface unpassivation of CdTe quantum dots and competition of analyte cation to stabilizer

Author

Cheng, Lingxiao, Liu, Xuan, Lei, Jianping, and Ju, Huangxian

Subjects

Chemiluminescence -- Research, Electrochemistry -- Research, Remote sensing -- Methods, Remote sensing -- Technology application, Remote sensing -- Equipment and supplies, Semiconductors -- Chemical properties, Semiconductors -- Composition, Semiconductors -- Usage, Cations -- Chemical properties, Technology application, Chemistry

Abstract

A novel electrocbemiluminescent (ECL) sensing system was constructed for low-potential detection of metal ion by immobilizing surface-unpassivated CdTe quantum dots (QDs) on a glassy carbon electrode. The surface-unpassivated CdTe QDs were prepared using meso-2,3-dimercaptosuccinic acid (DMSA) as a stabilizer to cap CdTe QDs and characterized with scanning electron micrograph and X-ray photoelectron spectroscopy. The immobilized QDs showed a strong cathodic ECL emission peak at -0.87 V with an onset potential at -0.64 V (vs Ag/AgCl/ saturated KCl) in air-saturated, pH 9.0 HC1--Tris buffer. On the basis of the competition of metal ion to the stabilizer, the quenching effect of metal ion on ECL emission was observed, which led to a sensitive chemical sensing application. Using cupric cation as a model analyte, the sensor showed a linear range from 5.0 nM to 7.0 [micro]M with a detection limit of 3.0 nM and had been successfully applied in the detection of copper in human hair. It could be extended to detect other metal ions with stronger metal--S interaction than with the Cd--S bond. As an example, the sensor could be used to detect [Hg.sup.2+] down to 1.4 nM. The bidentate chelate QD-basod sensor exhibited a promising platform for rapid detection of cations with strong metal--S interaction and could be further applied for development of other low-potential electrochemical sensing systems. 10.1021/ac100315a

Published

2010

31. Cascade signal amplification strategy for subattomolar protein detection by rolling circle amplification and quantum dots tagging

Author

Cheng, Wei, Yan, Feng, Ding, Lin, Ju, Huangxian, and Yin, Yibing

Subjects

Proteins -- Chemical properties, Proteins -- Identification and classification, Semiconductors -- Usage, Chemistry, Analytic -- Quantitative, Chemistry, Analytic -- Methods, Chemistry, Analytic -- Technology application, Chemistry, Analytic -- Equipment and supplies, Technology application, Chemistry

Abstract

A cascade signal amplification strategy was proposed for detection of protein target at ultralow concentration by combining the rolling circle amplification (RCA) technique with oligonucleotide functionalized quantum dots (QDs), multiplex binding of the biotin--strepavidin system, and anodic stripping voltammetric detection. The RCA product containing tandem-repeat sequences could serve as excellent template for periodic assembly of QDs, which presented per protein recognition event to numerous quantum dot tags for electrochemical readout. Both the RCA and the multiplex binding system showed remarkable amplification efficiency, very little nonspecific adsorption, and low background signal. Using human vascular endothelial growth factor as a model protein, the designed strategy could quantitatively detect protein down to 16 molecules in a 100 [micro]L sample with a linear calibration range from 1 aM to 1 pM and was amenable to quantification of protein target in complex biological matrixes. The proposed cascade signal amplification strategy would become a powerful tool for proteomics research and clinical diagnostics. 10.1021/ac100144g

Published

2010

32. Flow cytometric detection of Bacillus spoOA gene in biofilm using quantum dot labeling

Author

Lee, Jinwook, Kim, In.S., and Yu, Hye-Weon

Subjects

Bacillus (Bacteria) -- Identification and classification, Bacillus (Bacteria) -- Chemical properties, Flow cytometry -- Methods, Flow cytometry -- Equipment and supplies, Semiconductors -- Usage, Microbial mats -- Chemical properties, Chemistry

Abstract

Quantum dot (QD)-induced fluorescence detection of bead-based DNA sandwich hybridization was studied for rapid analysis of the Bacillus spoOA gene in biofilms. Hybridization between two DNA probes and target DNA occurred and the hybridization signal was detected in a flow cytometer. To prepare the bead--DNA capture and QD-DNA detection probes, the coupling or bioconjugation reactions were carefully controlled, it was successfully demonstrated that the fluorescence response of the hybrid complex was linear in the range of 3.2-1000 nM of synthetic target DNA ([R.sup.2] = 0.97) and that the detection limit was 0.02 nM. An optimized labeling method and bead-based DNA hybridization were then applied to real PCR products from a biofilm sample with satisfactory results ([R.sup.2] = 0.94), thereby confirming that the proposed assay provides a rapid, sensitive, and specific method fur Bacillus spoOA gene detection in bofilms. This approach enables multiple target detection using multicolor QD-DNA probes in a shorter time. 10.1021/ac902807n

Published

2010

33. Single quantum dot-based nanosensor for multiple DNA detection

Author

Zhang, Chunoyang and Hu, Juan

Subjects

DNA -- Chemical properties, DNA -- Identification and classification, Chemical detectors -- Design and construction, Chemical detectors -- Materials, Chemical detectors -- Technology application, Nanotechnology -- Research, Engineering design -- Methods, Engineering design -- Technology application, Semiconductors -- Usage, Semiconductors -- Optical properties, Technology application, Chemistry

Abstract

Owing to their unique optical properties, quantum dots (QDs) with different colors have been applied for simultaneous detection of multiple analytes. However, the use of single QD for multiplex detection of analytes with single-molecule detection has not been explored. Here we report a single QD-based nanosensor for multiplex detection of HIV-1 and HIV-2 at single-molecule level in a homogeneous format. In this single QD-based nanosensor, the QD functions not only as a fluorescence pair for coincidence detection and as a fluorescence-resonance-energy-transfer (FRET) donor for FRET detection but also as a local nanoconcentrator which significantly amplifies the coincidence-related fluorescence signals and the FRET signals. This single-QD-based nanosensor takes advantage of a simple 'mix and detection' assay with extremely low sample consumption, high sensitivity, and short analysis time and has the potential to be applied for rapid point-of-care testing, gene expression studies, high-throughput screening, and clinical diagnostics. 10.1021/ac9026675

Published

2010

34. Random numbers, UK 'DARPA' and a COVID-ravaged city

Subjects

Manaus, Brazil -- Health aspects, Administrative agencies -- Aims and objectives -- Planning, Epidemics -- Distribution -- Forecasts and trends -- United Kingdom -- Brazil, Numbers, Random -- Research, Semiconductors -- Usage, Lasers -- Usage, Company business planning, Market trend/market analysis, Laser, Company distribution practices, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The latest science news, in brief. The latest science news, in brief., Author Affiliations: Random numbers, UK 'DARPA' and a COVID-ravaged city A bow-tie-shaped semiconductor (scanning electron microscope image) produces a laser beam with randomly fluctuating intensity. Credit: Kyungduk Kim A yellow [...]

Published

2021

35. CdTe quantum dots (QDs) based kinetic discrimination of [Fe.sup.2+] and [Fe.sup.3+], and CdTe QDs-Fenton hybrid system for sensitive photoluminescent detection of [Fe.sup.2+]

Author

Wu, Peng, Li, Yan, and Yan, Xiu-Ping

Subjects

Iron -- Identification and classification, Iron -- Measurement, Semiconductors -- Usage, Chemistry

Abstract

A method based on the quenching kinetics for the fluorescence of glutathione capped CdTe quantum dots (GSH-CdTe QDs) was developed for discriminating [Fe.sup.2+] and [Fe.sup.3+], and a GSH-CdTe QDs-Fenton hybrid system was constructed for sensitive and selective determination of trace [Fe.sup.2+]. Although both [Fe.sup.2+] and [Fe.sup.3+] could quench the fluorescence of GSH-CdTe QDs, the quenching kinetics was quite different for [Fe.sup.2+] and [Fe.sup.3+]. The fluorescence of the GSH-CdTe QDs (30 nM) was quenched by about 18% in 1 min after the addition of [Fe.sup.3+] (10 [micro]M), and remained unchanged with further increase of reaction time. In contrast, the fluorescence intensity of the GSH-CdTe QDs decreased by about 65% in the first 5 min after the addition of [Fe.sup.2+] (10 [micro]M), then slowly decreased by 15% in the next 25 minutes. Other transition metal ions like [Cu.sup.2+], [Ni.sup.2+] and [Co.sup.2+], [Zn.sup.2+], and [Mn.sup.2+] also gave very different quenching kinetics of the GSH-CdTe QDs from [Fe.sup.2+]. No significant effect of the capping agents (GSH, thioglycolic acid, and mereaptopropionic acid) for the QDs on the pattern of the time course of the fluorescence of the QDs for [Fe.sup.2+] or [Fe.sup.3+] was observed. To achieve selective determination of [Fe.sup.2+] in the presence of [Fe.sup.3+], trace [H.sub.2][O.sub.2] was introduced to establish a QDs-Fenton hybrid system. The Fenton reaction between [Fe.sup.2+] and [H.sub.2][O.sub.2] resulted in hydroxyl radicals which can effectively quench the fluorescence of the QDs through electron transfer from the conduction band of the QDs to the single occupied molecular orbit of hydroxyl radicals. The high redox potential of hydroxyl radicals (2.8 V) permits more effective quenching of the fluorescence of the QDs than [Fe.sup.2+]. The detection limit of the developed method was 5 nM for [Fe.sup.2+]. The recovery of [Fe.sup.2+] spiked in water samples ranged from 90% to 105%.

Published

2009

36. Sensitive and selective sensor for biothiols in the cell based on the recovered fluorescence of the CdTe quantum dots-Hg(II) system

Author

Bingyan, Han, Jipei, Yuan, and Erkang, Wang

Subjects

Thiols -- Identification and classification, Thiols -- Measurement, Chemical detectors -- Design and construction, Chemical detectors -- Materials, Nanoparticles -- Usage, Semiconductors -- Usage, Chemistry

Abstract

Herein, a sensitive and selective sensor for biothiols based on the recovered fluorescence of the CdTe quantum dots (QDs)-Hg(II) system is reported. Fluorescence of QDs could be quenched greatly by Hg(II). In the presence of biothiols, such as glutathione (GSH), homocysteine (Hcy), and cysteine (Cys), however, Hg(II) preferred to react with them to form the Hg(II)--S bond because of the strong affinity with the thiols of biothiols rather than quenching the fluorescence of the QDs. Thus, the fluorescence of CdTe QDs was recovered. The restoration ability followed the order GSH > Hcy > Cys due to the decreased steric hindrance effect. A good linear relationship was obtained from 0.6 to 20.0 [micro]mol [L.sup.-1] for GSH and from 2.0 to 20.0 [micro]mol [L.sup.-1] for Cys, respectively. The detection limits of GSH and Cys were 0.1 and 0.6 [micro]mol [L.sup.-1], respectively. In addition, the method showed a high selectivity for Cys among the other 19 amino acids. Furthermore, it succeeded in detecting biothiols in the Hela cell.

Published

2009

37. Photoactivated cdTe/cdSe quantum dots as a near infrared fluorescent probe for detecting biothiols in biological fluids

Author

Zhang, Yi, Li, Yan, and Yan, Xiu-Ping

Subjects

Thiols -- Identification and classification, Thiols -- Measurement, Semiconductors -- Usage, Fluorescence spectroscopy -- Methods, Chemistry

Abstract

The important roles of biothiols in biological systems have attracted great interest in the determination of biothiols. Although great progress has been made in fluorescent biothiol probes, near-infrared (NIR) fluorescent probes for biothiols are rather few even such NIR probes can avoid interference from biological media such as tissue autofluorescence and scattering light, and thereby facilitate relatively interference-free sensing. Herein, we report photoactivated CdTe/CdSe quantum dots (QDs) as a novel NIR fluorescent probe for biothiols. The photoactivated CdTe/CdSe QDs based NIR fluorescent probe offers good sensitivity and selectivity for detecting cysteine (Cys), homocysteine (Hcy), and glutathione (GSH) in the presence of 20 other amino acids, main relevant metal ions, and some other molecules in biological fluids. The recovery of spiked 5.0 [micro]M thiols in human urine, plasma, and cell extracts ranges from 90% to 109%. The precision for nine replicate measurements of the thiols at 5.0 [micro]M is in the range from 1.6% to 1.8%. The detection limits for Cys, Hcy, and GSH are 131, 26, and 20 nM, respectively. This assay is based on both the superior photoactivity of CdTe/ CdSe QDs and the strong affinity of thiols to photoactivated CdTe/CdSe QDs. The addition of thiols into the photoactivated CdTe/CdSe Q Ds improves the passivation of the illumination-induced traps, meanwhile reduces most of Se(IV) and Te(IV) on the surface of photoactivated CdTe/CdSe QDs so as to improve the fluorescence property.

Published

2009

38. Toward a multiplexed solid-phase nucleic acid hybridization assay using quantum dots as donors in fluorescence resonance energy transfer

Author

Algar, W. Russ and Krull, Ulrich J.

Subjects

Digital multiplexing -- Methods, Multichannel communication -- Methods, Multiplexing -- Methods, Nucleic acid hybridization -- Methods, Semiconductors -- Usage, Semiconductors -- Properties, Fluorescence -- Research, Resonance -- Research, Energy transformation -- Research, Chemistry

Abstract

Solid-phase assays using immobilized quantum dots (QDs) as donors in fluorescence resonance energy transfer (FRET) have been developed for the selective detection of nucleic acids. QDs were immobilized on optical fibers and conjugated with probe oligonucleotides. Hybridization with acceptor labeled target oligonucleotides generated FRET-sensitized acceptor fluorescence that was used as the analytical signal. A sandwich assay was also introduced and avoided the need for target labeling. Green and red emitting CdSe/ZnS QDs were used as donors with Cy3 and Alexa Fluor 647 acceptors, respectively. Quantitative measurements were made via spectrofluorimetry or fluorescence microscopy. Detection limits as low as 1 nM were obtained, and the discrimination of single nucleotide polymorphisms (SNPs) with contrast ratios as high as 31:1 was possible. The assays retained their selectivity and at least 50% of their signal when tested in bovine serum and against a large background of noncomplementary genomic DNA. Mixed films of the two colors of QD and two probe oligonucleotide sequences were prepared for multiplexed solid-phase hybridization assays. It was possible to simultaneously detect two target sequences with retention of selectivity, including SNP discrimination. This research provides an important precedent and framework for the future development of QD-based bioassays and biosensors.

Published

2009

39. Quantum dot--ruthenium complex dyads: recognition of double-strand DNA through dual-color fluorescence detection

Author

Zhao, Dan, Chan, W.H., He, Zhike, and Qiu, Ting

Subjects

Ruthenium -- Properties, Ruthenium -- Usage, DNA -- Properties, Fluorescence -- Research, Semiconductors -- Properties, Semiconductors -- Usage, DNA probes -- Design and construction, DNA probes -- Properties, Biological assay -- Methods, Chemistry

Abstract

We have developed a new fluorescent ensemble probe comprising an ionic conjugate between water-soluble thioglycolic acid (TGA) capped CdTe quantum dots (QDs) and [Ru(bpy).sub.2][(dppx).sup.2+] for the dual-color detection of complementary double-stranded DNAs (dsDNA). To provide the platform for DNA detection, the Rucomplex was first employed as an effective fluorescence quencher to TGA capped QDs via photoinduced electron transfer process. Because of its strong binding affinity with [Ru(bpy).sub.2][(dppx).sup.2+], complementary dsDNA can break up the low fluoresced ionic ensemble, set free the luminescent QDs, and concomitantly generate the [Ru(bpy).sub.2][(dppx).sup.2+] intercalated DNA complex. Thus, the recognition of dsDNA by [Ru(bpy).sub.2][(dppx).sup.2+] can be realized via both the restoration of QDs fluorescence and the emergence of a new fluorescence emission signal of the quencher--substrate at 609 nm, while single-stranded DNA, ribonucleic acid, bovine albumin serum, and biological relevant metal ions cannot produce the similar results. Therefore, a simple, fast, sensitive, and highly selective assay for dsDNA has been realized.

Published

2009

40. Single quantum-dot-based aptameric nanosensor for cocaine

Author

Zhang, Chun-yang and Johnson, Lawrence W.

Subjects

Nanotechnology -- Research, Semiconductors -- Properties, Semiconductors -- Usage, Cocaine -- Properties, Fluorescence -- Research, Resonance -- Research, Energy transformation -- Research, Biosensors -- Design and construction, Biosensors -- Properties, Biosensors -- Usage, Chemistry

Abstract

Recent advances in single-molecule detection, nanotechnology, and aptameric sensors hold exciting promise for many potential applications. By functionalizing the surface of a quantum dot (QD) with aptamers which can recognize cocaine, and taking advantage of single-molecule detection and fluorescence resonance energy transfer (FRET) between 605QD and Cy5 and Iowa Black RQ, we develop a single-QD-based aptameric sensor that is capable of sensing the presence of cocaine through both signal-off and signal-on modes. In comparison with the established aptameric sensors, this single-QD-based aptameric sensor has the significant advantages of simple sample preparation, high sensitivity, and extremely low sample consumption. With the advances in the development of varieties of aptamers for small molecules, nucleic acids, metal ions, and proteins, this single-QD-based aptameric sensor might find wide application in forensic analysis, environmental monitoring, and clinic diagnostics.

Published

2009

41. Deactivation induced within wafer nonuniformity during nonmelt laser annealing of arsenic and phosphorus implanted silicon

Author

Poon, Chyiu Hyia, See, Alex, Zhou, Meisheng, and Wong, Chee Wah

Subjects

Annealing -- Analysis, Ion implantation -- Analysis, P-N junctions -- Analysis, Semiconductors -- Usage, Business, Computers, Electronics, Electronics and electrical industries

Abstract

In the setup for nonmelt laser spike anneal (LSA), the wafer is mounted with the front-side facing the laser beam and backside facing the heated hotplate. When arsenic or phosphorus-implanted silicon is subjected to LSA, sheet resistance degradation, indicative of dopant deactivation, is observed when the post-LSA thermal budget provided by the heated chuck (hotplate) is increased. This additional thermal budget is associated with the chuck temperature and duration a wafer is left on the chuck after LSA. The deactivation is believed to occur due to the ineffective removal of implantation damage by LSA, giving rise to the release of point defects during the post-LSA thermal cycle that aids inactive clusters formation. The observed phenomena severely degrades the within wafer uniformity since LSA is a localized heating process that relies on scanning the laser beam across the whole wafer. As such, different portions of the implanted silicon wafer will remain on the hotplate for varying durations depending on when the laser beam scans through a particular spot. By adopting a dual step source/drain anneal scheme that incorporates a spike rapid thermal annealing condition sufficient to anneal out the implantation damage prior to LSA, the within wafer nonuniformity issue can be rectified. Index Terms--Ion implantation, laser annealing, p-n junctions, resistance, semiconductor materials.

Published

2009

42. Anticancer drug-DNA interactions measured using a photoinduced electron-transfer mechanism based on luminescent quantum dots

Author

Yuan, Jipei, Guo, Weiwei, Yang, Xiurong, and Wang, Erkang

Subjects

Antimitotic agents -- Properties, Antimitotic agents -- Genetic aspects, Antineoplastic agents -- Properties, Antineoplastic agents -- Genetic aspects, Drug interactions -- Research, DNA -- Properties, DNA -- Health aspects, Electron transport -- Research, Luminescence -- Research, Semiconductors -- Properties, Semiconductors -- Usage, Chemistry

Abstract

A sensing system based on the photoinduced electron transfer of quantum dots (QDs) was designed to measure the interaction of anticancer drug and DNA, taking mitoxantrone (MTX) as a model drug. MTX adsorbed on the surface of QDs can quench the photoluminescence (PL) of QDs through the photoinduced electron-transfer process; and then the addition of DNA will bring the restoration of QDs PL intensity, as DNA can bind with MTX and remove it from QDs. Sensitive detection of MTX with the detection limit of 10 nmol [L.sup.-1] and a linear detection range from 10 nmol [L.sup.-1] to 4.5 [micro]mol [L.sup.-1] was achieved. The dependence of PL intensity on DNA amount was successfully utilized to investigate the interactions between MTX and DNA. Both the binding constants and the sizes of binding site of MTX-DNA interactions were calculated based on the equations deduced for the PL recovery process. The binding constant obtained in our experiment was generally consistent with previous reports. The sensitive and speedy detection of MTX as well as the avoidance of modification or immobilization process made this system suitable and promising in the drug-DNA interaction studies.

Published

2009

43. Comparison of ZnS semiconductor nanoparticles capped with various functional groups as the matrix and affinity probes for rapid analysis of cyclodextrins and proteins in surface-assisted laser desorption/ionization time-of-flight mass spectrometry

Author

Kailasa, Suresh Kumar, Kiran, Kamatam, and Wu, Hui-Fen

Subjects

Cyclodextrins -- Properties, Ubiquitin -- Properties, Nanoparticles -- Properties, Nanoparticles -- Usage, Zinc compounds -- Properties, Sulfides -- Properties, Semiconductors -- Properties, Semiconductors -- Usage, Chemical affinity -- Research, Proteins -- Properties, Ionization -- Methods, Time-of-flight mass spectrometry -- Methods, Insulin -- Properties, Chemistry

Abstract

Zinc sulfide (ZnS) semiconductor nanoparticles (NPs) capped with a variety of functional groups including bare ZnS NPs, 3-mercaptopropanoic acid (ZnS-3-MPA), sodium citrate (ZnS-citrate), cysteamine (ZnS-Cys), and 2-mercaptoethane sulfonate (ZnS-2-MES) have been investigated as the matrix and affinity probes for analysis of [alpha]-, [beta]-, and [gamma]-cyclodextrins (CDs), ubiquitin, and insulin in biological samples by using surface-assisted laser desorption/ionization time-of-flight mass spectrometry (SALDI-TOF-MS). Various parameters that would influence the ionization efficiency and sensitivity of these ZnS NPs in SALDI-TOF-MS were examined including the effect of capping agents, sample pH, ion abundance, and concentration of ZnS NPs. Among these ZnS NPs, our results have demonstrated that ZnS-3-MPA exhibited the highest efficiency toward CDs, ubiquitin, and insulin for high-sensitivity detection in SALDI-TOF-MS. The detection limits were 20-55 nM for CDs, 91 nM for ubiquitin, and 85 nM for insulin. The applicability of the present method is demonstrated by detection of ubiquitin-like proteins in oyster mushroom and also in the analysis of analytes in biological samples such as human urine and plasma. To our best knowledge, this is the first time semiconductor NPs were used as the matrix and affinity probes for high-sensitivity detection of organic and biomolecules in SALDI-TOF-MS. This approach exhibits the advantages of being simple, rapid, efficient, and straightforward for direct analysis of organic and biological samples in SALDI-TOF-MS without the need for time-consuming separation processes, tedious washing steps, or further laborious purification. In addition, it also can provide a sensitive and reliable quantitative assay for small- and large-molecule analysis with the detectable mass up to 8500 Da. We believe that this novel ZnS nanoprobe is simple, efficient, lower cost (compared with Au, Ag, and Pt NPs), fast, and with the potential for high-throughput analysis in SALDI-TOF-MS.

Published

2008

44. Energy transfer-based multiplexed assay of proteases by using gold nanoparticle and quantum dot conjugates on a surface

Author

Kim, Young-Pil, Oh, Young-Hee, Oh, Eunkeu, Ko, Sungho, Han, Min.Kyu, and Kim, Hak-Sung

Subjects

Proteases -- Properties, Energy transformation -- Research, Nanoparticles -- Properties, Nanoparticles -- Usage, Biological assay -- Research, Diagnosis -- Research, Protease inhibitors -- Properties, Semiconductors -- Properties, Semiconductors -- Usage, Chemistry

Abstract

Rapid and sensitive assay of proteases and their inhibition in a high-throughput manner is of great significance in the diagnostic and pharmaceutical fields. We developed a multiplexed assay system of proteases and their inhibition by measuring the energy transfer between quantum dots (QDs) and gold nanoparticles (AuNPs) on a glass slide. In this system, while the photoluminescence (PL) of donor QDs immobilized on a surface was quenched due to the presence of AuNPs (energy acceptor) in close proximity, the protease activity caused modulation in the efficiency of the energy transfer between the acceptor and donor, thus enabling the protease assay. In comparison to the QD-dye system, the conjugate of the QD-AuNP gave rise to higher energy transfer efficiency, resulting in quantitative assay of proteases with more sensitivity. When matrix metalloproteinase, caspase, and thrombin were tested, a multiplexed assay was successfully achieved since the AuNP could be used as a common energy acceptor in conjunction with QDs having different colors. Our system is anticipated to find applications in the diagnosis of protease-related diseases and screening of potential drugs with high sensitivity in a high-throughput way.

Published

2008

45. Controlled phase shifts with a single quantum dot

Author

Fushman, Ilya, Englund, Dirk, Faraon, Andrei, Stoltz, Nick, Petroff, Pierre, and Vuckovic, Jelena

Subjects

Phase shift (Nuclear physics) -- Research, Semiconductors -- Usage

Published

2008

46. Design of efficient organic tandem cells: on the interplay between molecular absorption and layer sequence

Author

Dennler, Gilles, Forberich, Karen, Ameri, Tayebeh, Waldauf, Christoph, Denk, Patrick, Brabec, Christoph J., Hingerl, Kurt, and Heeger, Alan J.

Subjects

Solar batteries -- Research, Solar batteries -- Usage, Solar cells -- Research, Solar cells -- Usage, Semiconductors -- Research, Semiconductors -- Properties, Semiconductors -- Usage, Physics

Abstract

Optical simulations of tandem solar cells are carried out based on the organic semiconductors. The calculations have predicted the maximum optimized short-circuit current density achievable in tandem cells and they have ensured balanced absorption in the top and bottom cells.

Published

2007

47. High-repetition rate Q-switched Nd:YV[O.sub.4] laser with a composite semiconductor absorber

Author

Wang, Yong-Gang, Ma, Xiao-Yu, Peng, Ji-Ying, Tan, Hui-Ming, and Qian, Long-Sheng

Subjects

Semiconductors -- Usage, Astronomy, Physics

Abstract

A diode-pumped Nd:YVO4 laser passively Q switched by a semiconductor absorber is demonstrated. The Q-switched operation of the laser has an average output power of 135 mW with a 1.6 W incident pump power. The minimum pulse width is measured to be about 8.3 ns with a repetition rate of 2 MHz. To our knowledge, this is the first demonstration of a solid-state laser passively Q-switched by such a composite semiconductor absorber. OCIS codes: 140.3580, 140.3540, 140.3480.

Published

2006

48. Honda to use Renesas Electronics semiconductors for advanced driver-assistance systems in new Legend

Subjects

Transportation equipment industry -- Technology application -- Usage, Semiconductors -- Usage, Embedded systems -- Usage, Motor vehicles -- Equipment and supplies, Embedded system, System on a chip, Technology application, Business

Abstract

M2 EQUITYBITES-March 4, 2022--Honda to use Renesas Electronics semiconductors for advanced driver-assistance systems in new Legend (C)2022 M2 COMMUNICATIONS http://www.m2.com Auto Business News - 04 March 2022 Honda Motor Company [...]

Published

2022

49. Optimization of alloy composition for high-performance strained-Si-SiGe n-channel MOSFETs

Author

Olsen, Sarah H., O'Neill, Anthony G., Driscoll, Luke S., Chattopadhyay, Sanatan, Kwa, Kelvin S.K., Waite, Andrew M., Yue T. Tang, Evans, Alan G.R., and Jing Zhang

Subjects

Semiconductors -- Analysis, Semiconductors -- Usage, Metal oxide semiconductor field effect transistors -- Analysis, Metal oxide semiconductor field effect transistors -- Design and construction, Business, Electronics, Electronics and electrical industries

Abstract

On-state and off-state performance of strained-Si-SiGe n-channel MOSFETs are investigated as a function of SiGe (silicon-germanium) virtual substrate alloy composition. Off-state characteristics are found to be more sensitive to strain relaxation than on-state characteristics.

Published

2004

50. Genotyping on a complementary metal oxide semiconductor silicon polymerase chain reaction chip with integrated DNA microarray

Author

Trau, Dieter, Lee, Thomas M.H., Lao, Alex I.K., Lenigk, Ralf, Hsing, I-Ming, Ip, Nancy Y., Carles, Maria C., and Sucher, Nikolaus J.

Subjects

Chemistry, Analytic -- Research, Genotype -- Research, Semiconductors -- Usage, Medicinal plants -- Analysis, Chemistry

Abstract

A novel method for the fast identification of genetic material utilizing a micro-DNA amplification and analysis device ([micro]-DAAD) consisting of multiple PCR microreactors with integrated DNA microarrays was developed. The device was fabricated in Si-technology and used for the genotyping of Chinese medicinal plants on the basis of differences in the noncoding region of the 5S-rRNA gene. Successful amplification of the genetic material and the consecutive analysis of the fluorescent-labeled amplicons in the [micro]-DAAD by the integrated oligonucleotide probes were demonstrated. Parallel analysis was performed by loading the four PCR reactors of the [micro]-DAAD with different samples of 3-[micro]L volume. Temperature sensors and heating elements of the [micro]-DAAD enable precise temperature control and fast cycling, allowing the rapid completion of a combined amplification and analysis (hybridization) experiment.

Published

2002