THERMO ELECTRON MANUFACTURING LIMITED Patent applications |
Patent application number | Title | Published |
20150224473 | CHROMATOGRAPHIC MATERIAL AND METHODS FOR THE SYNTHESIS THEREOF - A particulate material for chromatographic use comprising silica particles is provided having a skeleton structure containing silsesquioxane cage moieties. The material is useful as a chromatographic material, for example in HPLC. The silica particles may be hybrid organo-silica particles wherein the silsesquioxane moieties comprise a cage structure having silicon atoms positioned at corners of the cage wherein one or more silicon atoms positioned at the corners of the cage carry an organic group. A preferred method of preparing the particulate material comprises hydrolysing a silsesquioxane as a co-component of a hydrolysis mixture, especially in a Stöber or modified Stöber process. | 08-13-2015 |
20140329673 | POROUS PARTICLES FOR LIQUID CHROMATOGRAPHY AND PROCESSES FOR THE PREPARATION THEREOF - Superficially porous silica particles are provided as well as a one-pot process for making the superficially porous particles, the process comprising hydrolyzing and condensing a silica precursor comprising a functional group to form superficially porous particles, the superficially porous particles comprising silica microparticles having silica nanoparticles bound to the surface of the microparticles. The nanoparticles provide a porous outer layer on the microparticles. The superficially porous particles are useful as a stationary phase in liquid chromatography and allow for fast mass transfer and separation of samples | 11-06-2014 |
20140283628 | APPARATUS AND METHOD FOR LIQUID SAMPLE INTRODUCTION - A method and apparatus for mixing droplets of liquid sample and droplets of a diluent and/or a standard produced by droplet-on-demand generators for use with an analysis device. Two different liquids may be introduced to an analysis device for simultaneous analysis. The method preferably comprises using a first droplet-on-demand generator to provide a first stream of droplets of a first liquid; using a second droplet-on-demand generator to provide a second stream of droplets of a second liquid; and combining the first and second streams of droplets before they enter the analysis device | 09-25-2014 |
20140283627 | APPARATUS AND METHOD FOR LIQUID SAMPLE INTRODUCTION - A method and apparatus for introducing droplets of liquid sample into an analysis device using a gas stream, the droplets being produced by the application of acoustic energy to a quantity of liquid sample. Acoustic energy may be applied to a quantity of liquid sample located on a solid surface of a sample support so as to eject a droplet of sample from the quantity of sample; the droplet of sample may be entrained in a gas stream; and the droplet of sample may be transported into the analysis device using the gas stream. | 09-25-2014 |
20140264000 | METHOD AND APPARATUS FOR CONTROL OF A PLASMA FOR SPECTROMETRY - A method of and apparatus for controlling the temperature of an inductively coupled or microwave induced plasma for optical emission spectrometry or mass spectrometry in which the intensities of two spectral lines of radiation emitted by the plasma are measured, and the power provided to sustain the plasma is adjusted so that the ratio of the intensities remains substantially constant. | 09-18-2014 |
20140256054 | METHODS FOR ELEMENTAL ANALYSIS BY COMBUSTING A SAMPLE IN A COMBUSTION TUBE - Methods are provided for conducting chemical analyses by combusting a sample in a combustion tube. A primary combustion chamber receives and combusts a sample to form first combustion products. A secondary combustion chamber receives and combusts the first combustion products to form second combustion products. The secondary chamber is disposed around the primary chamber and comprises a plurality of—preferably, three—combustion compartments. Each successive compartment is disposed around the preceding compartment and defines a respective gas flow channel having an inlet opening and an outlet opening at opposite ends. Each successive gas flow channel shares its inlet opening with the outlet opening of the preceding channel. The plurality of combustion compartments define a substantially continuous gas flow conduit from the inlet opening of the innermost compartment to the outlet opening of the outermost compartment. Static gas mixers may be employed to enhance mixing of the combustion products. | 09-11-2014 |