Low-temperature microscopic differential scanning calorimetry system body apparatus

A differential scanning calorimetry and low-temperature technology, applied in measurement devices, material thermal analysis, and microbial determination/inspection, etc., can solve problems such as misjudgment, low test result accuracy, and unification of result time and space. To achieve the effect of convenient use, consistent thermodynamic dynamic characteristics, and small size

Inactive Publication Date: 2008-12-31
UNIV OF SHANGHAI FOR SCI & TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] In order to overcome the shortcomings in the prior art that the DSC test and the low-temperature microscope test are performed separately, the results cannot be unified in time and space, and the test results

Method used

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  • Low-temperature microscopic differential scanning calorimetry system body apparatus
  • Low-temperature microscopic differential scanning calorimetry system body apparatus
  • Low-temperature microscopic differential scanning calorimetry system body apparatus

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Embodiment Construction

[0021] The main device of the cryogenic micro-differential scanning calorimetry system, such as figure 1 As shown, it includes a low-temperature platform 1, which is made of brass material, a sample holder 7 and a reference holder 5. An annular nitrogen channel 2 is arranged in the low-temperature platform. A cold nitrogen inlet 9 and a cold nitrogen outlet 3 are provided on the annular nitrogen channel. There are two symmetrical cavities in the symmetrical position of the central axis of the cryogenic platform. The upper part is a cylindrical cavity 4, and the lower part is a rectangular cavity 8. The sample holder 7 and the reference holder 5 are respectively placed in the two rectangular cavities. Then use a rectangular brass ring 6 to fix the sample holder 7 and the reference holder 5 .

[0022] Both the sample holder and the reference holder use quartz glass as the substrate of the holder, such as figure 2 Shown, above the quartz substrate 12, sputter grid-shaped thin-f...

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Abstract

The invention discloses a main device of a cryogenic micro-differential scanning calorimetry system which comprises a cryostage, a sample support and a reference support; the cryostage is a cylinder, an annular nitrogen channel is arranged inside the cryostage, and the cyrostage is provided with a cold nitrogen inlet and a cold nitrogen outlet; two symmetrical cavities are opened along the central axis line of the cryostage, the upper half part of each cavity is cylindrical, the lower half part of each is rectangular, the sample support or the reference support is arranged in the rectangular cavities and fixed by a rectangular brass ring; cold nitrogen carries out the heat exchange with the cryostage after entering the annular channel, the cold energy is transferred to the sample and the reference support, thereby completing the cooling of the sample and a reference substance; the sample and the reference support adopt quartz glass as substrates, grid-shaped thin-film thermocouples are sputtered on the quartz substrates; the back surfaces of the quartz substrates are plated with transparent tin oxide heating thin films; the outsides of the thin-film thermocouples and the tin oxide heating thin films are respectively plated with SiO2 protective layers; the sample and the reference support are geometrically symmetrical and same in weight. The main device of the cryogenic micro-differential scanning calorimetry system can simultaneously obtain micro-images of the sample and various physical and chemical parameters during the temperature increase and the temperature decrease processes.

Description

technical field [0001] The invention relates to a main device of a combined test system of a cryogenic biological microscope and a differential scanning calorimetry (Differential scanning calorimetry, DSC). Background technique [0002] Low temperature biological microscope and differential scanning calorimetry (DSC) are two very important tools in low temperature biology and food research. Low-temperature biological microscope can directly observe and record the morphological changes of organisms in the process of heating and cooling; while DSC can obtain physical and chemical data in this process. The real-time morphological and physicochemical data analysis of organisms is very important for cryobiology, but the usual DSC test and cryomicroscope test are done separately, although the test parameters can be set to the same value, but because they are not "the same event ", unable to unify the results in time and space; especially with the development of food and biomateri...

Claims

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Application Information

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IPC IPC(8): G01N33/48G01N21/84G01N25/00C12Q1/04
Inventor 刘宝林华泽钊王刚袁曙明邬申义
Owner UNIV OF SHANGHAI FOR SCI & TECH
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