رسالة على الانترنت
المزيد من المعلومات
2018-10-10 Agilent, formerly Cobalt Light Systems, develops innovative products and technologies for non-invasive, through-barrier chemical analysis, for applications in airport security, hazardous chemical ID and pharmaceutical QC.
Read More
Cobalt's proprietary technologies use novel variants of Raman spectroscopy. Cobalt's instruments can rapidly and accurately identify materials hidden inside objects or through opaque barriers such as plastic, colored glass, paper and skin, or can measure the
Read More
Cobalt Light Systems develops innovative products and technologies – based on novel variants of Raman spectroscopy – for non-invasive, through barrier chemical analysis in pharmaceutical, security and research applications. Products. RapID – Raw Materials ID Verification Through Unopened Containers
Read More
2014-7-7 Cobalt Light Systems provides new and proprietary analysis techniques using Raman spectroscopy for high throughput non-invasive pharmaceutical analysis of tablets, capsules, powders etc. including chemical and polymorph/amorphous content. A second technique involves the rapid non-invasive analysis of materials below layers e.g. materials characterisation through coloured and
Read More
"Cobalt’s proprietary technologies use novel variants of Raman spectroscopy. Our instruments can rapidly and accurately identify materials hidden inside objects or through opaque barriers such as plastic, coloured glass, paper and skin, or can measure the concentrations of materials in mixtures, with a high degree of accuracy.
Read More
2017-7-7 Agilent Technologies has acquired Cobalt Light Systems, a provider of Raman spectroscopic instruments for the pharmaceutical industry, applied markets and public safety for £40 million in cash. Cobalt’s benchtop and handheld/portable Raman spectroscopic
Read More
2017-7-10 I n a bid to expand its presence in Raman Spectroscopy market, Agilent Technologies Inc. A has acquired privately held Cobalt Light Systems. The deal was valued at
Read More
2017-7-10 Cobalt Light Systems' CEO Paul Loeffen will remain with Agilent as the director of Raman Spectroscopy. The former Cobalt Light Systems headquarters, loacted on the rapidly growing Harwell Science and Innovation Campus in Oxfordshire UK, will become Agilent’s global centre for Raman spectroscopy.
Read More
2017-9-7 Agilent Acquires Cobalt Light Systems Agilent and Raman Spectroscopy September 7, 2017 by Russell Lee Earlier this summer, Agilent closed its acquisition of UK-based Cobalt Light Systems, a leader in Raman spectroscopy.
Read More2020-2-1 The effect of cobalt doping into g-C 3 N 4 lattice and the N deficiency on the light absorption was explored. The role of metal cobalt, the size-dependent effect of cobalt cluster, and the effect of N deficiency on the H 2 evolution rate in photocatalytic reactions has been investigated.
Read MoreCobalt Light Systems develops innovative products and technologies – based on novel variants of Raman spectroscopy – for non-invasive, through barrier chemical analysis in pharmaceutical, security and research applications. Products. RapID – Raw Materials ID Verification Through Unopened Containers
Read More
2021-6-2 Cobalt Light Systems Ltd (Agilent) Contact details Cobalt Light Systems Ltd (Agilent) (Raman Spectroscopy Products ) 174 Brook Drive, Milton Park, Abingdon, Oxfordshire OX14 4SD. United Kingdom. Return to Directory. Register for your free subscription. Home; Sitemap; Submit Article;
Read More"Cobalt’s proprietary technologies use novel variants of Raman spectroscopy. Our instruments can rapidly and accurately identify materials hidden inside objects or through opaque barriers such as plastic, coloured glass, paper and skin, or can measure the concentrations of materials in mixtures, with a high degree of accuracy.
Read More2017-7-10 I n a bid to expand its presence in Raman Spectroscopy market, Agilent Technologies Inc. A has acquired privately held Cobalt Light Systems. The deal was valued at
Read More
2017-7-7 Agilent Technologies has acquired Cobalt Light Systems, a provider of Raman spectroscopic instruments for the pharmaceutical industry, applied markets and public safety for £40 million in cash. Cobalt’s benchtop and handheld/portable Raman spectroscopic instruments are based on proprietary technologies that enable through-barrier ...
Read More
2021-6-13 Cobalt Light Systems uses a method invented at the CLF for identifying the chemical composition underneath the surface of materials, including beneath the skin and liquids in bottles. Spinout company Cobalt Light Systems (founded in 2008) is marketing technology using Spatially Offset Raman Spectroscopy (SORS), a technique invented at the CLF.
Read More
2017-9-7 Agilent and Raman Spectroscopy. September 7, 2017 by Russell Lee. Earlier this summer, Agilent closed its acquisition of UK-based Cobalt Light Systems, a leader in Raman spectroscopy.. What is Raman spectroscopy? Optical spectroscopy analyzes a material by studying its interaction with light. By measuring the amount of light absorbed or emitted by a sample, we can determine what it’s made
Read More
Visible light photocatalysis offers a unique opportunity to sustainably perform these reactions in a single-step, without the need for caustic reagents, and under ambient operating conditions. We utilize non-noble metals in the form of hybrid cobalt-based zeolitic imidazole frameworks, for the first time, to explore the structure–property ...
Read More
2020-12-6 Visible Spectroscopy Revised 11/21/14 1 VISIBLE SPECTROSCOPY Visible spectroscopy is the study of the interaction of radiation from the visible part (λ = 380 - 720 nm) of the electromagnetic spectrum with a chemical species. Quantifying the interaction of visible light with a chemical sample allows for the determination of an unknown solution
Read More
2013-11-11 New narrow band gap semiconductor cobalt titanate (CoTiO 3) nanorods are fabricated via an ethylene glycol-mediated route and further calcination in air.The glycolate precursors and porous CoTiO 3 nanorods are investigated in detail by using SEM, TEM, XRD, thermogravimetric, FTIR, and UV/Vis spectroscopy and N 2 adsorption–desorption isotherm. The effect of calcining temperature is
Read More2014-7-7 Cobalt Light Systems provides new and proprietary analysis techniques using Raman spectroscopy for high throughput non-invasive pharmaceutical analysis of tablets, capsules, powders etc. including chemical and polymorph/amorphous content. A second technique involves the rapid non-invasive analysis of materials below layers e.g. materials characterisation through coloured and
Read More"Cobalt’s proprietary technologies use novel variants of Raman spectroscopy. Our instruments can rapidly and accurately identify materials hidden inside objects or through opaque barriers such as plastic, coloured glass, paper and skin, or can measure the concentrations of materials in mixtures, with a high degree of accuracy.
Read More2017-7-10 Cobalt Light Systems' CEO Paul Loeffen will remain with Agilent as the director of Raman Spectroscopy. The former Cobalt Light Systems headquarters, loacted on the rapidly growing Harwell Science and Innovation Campus in Oxfordshire UK, will become Agilent’s global centre for Raman spectroscopy.
Read More
2016-4-20 Identification of Cobalt Oxides with Raman Scattering and Fourier Transform Infrared Spectroscopy Yang Li,† Wenlan Qiu,‡ Fan Qin,‡ Hui Fang,§ Viktor G. Hadjiev,∥ Dmitri Litvinov,†,‡ and Jiming Bao*,†,‡ †Department of Electrical and Computer Engineering and ‡Materials Science and Engineering, University of Houston, Houston, Texas 77204, United States
Read More
2016-3-7 Cobalt Light Systems this week announced the launch of Resolve, a ruggedized handheld system that identifies hazardous materials through sealed containers, reducing the risk to hazmat personnel, military and civilian law enforcement and border security.. Resolve uses Cobalt’s proprietary spatially offset Raman spectroscopy (SORS) technology to detect and identify chemicals through
Read MoreVisible light photocatalysis offers a unique opportunity to sustainably perform these reactions in a single-step, without the need for caustic reagents, and under ambient operating conditions. We utilize non-noble metals in the form of hybrid cobalt-based zeolitic imidazole frameworks, for the first time, to explore the structure–property ...
Read More
2021-1-20 The Co-doped molybdenum carbides are considered promising catalytic materials. These materials have been employed in photocatalytic degradation reactions, which is the emission of radiation from sunlight or artificial light for the activation of the material to occur. In this work, we have studied the behavior of the Mo2C and Co-doped Mo2C, with Co concentration of 5% and 10%, through the ...
Read More
2020-6-28 The activity of the cobalt-loaded polymer photocatalysts (50 mg in 100 mL water)for water oxidation was measured under broadband (full arc, 300 W Xe light source) and visible (λ>420 nm, 300 W Xe light source) irradiation in the presence of AgNO 3, which acts as the electron scavenger, and La 2 O 3 as a pH buffer.The photophysics of the best-performing photocatalyst, P10, were also studied by ...
Read More
2020-2-6 Visible-light excitation of metal complexes, which can act as a catalytic single electron reductant, single electron oxidant or an energy transfer agent, has transformed the field of organic synthesis in the last decades. 1, 2 These modes of action mean that the vast majority of reactions reside in the area of radical transformations. However, interest in the direct visible-light promotion of ...
Read More
2021-1-27 An introduction to circular dichroism spectroscopy Circular dichroism (CD) is the difference in the absorption of left‐handed circularly polarised light (L‐CPL) and right‐handed circularly polarised light (R‐CPL) and occurs when a molecule contains one or more chiral chromophores (light‐absorbing groups).
Read More
المزيد من المعلومات
حقوق حقوق التأليف والنشر: رقم التدوين Development Buide 10200540 -22. خط الخدمة: 0371-86549132. E-mail:[email protected] العنوان: الرقم البريدي رقم 169 Second Avenue Avenue New Avenue: Chengzhou الصين: إحصاءات الموقع الشبكي 450001.
