DE4212910A1 - Coating sensor for chemical or medical analysis - has selectively permeable polymer membrane of adjustable thickness, solubility and diffusion properties or pore properties, giving specified cut=off mol.wt. - Google Patents

Abstract

In coating sensors with selectively permeable polymer membranes, a firmly bonded layer of at least one organic polymer is applied to a solid sensor surface, and predetermined cut-off properties are achieved by adjusting the thickness of the polymer layer and/or the solubility/diffusion properties and/or the pore properties. Pref. the polymer is applied in soln. Substances with solubility properties different from those of the polymer may be added to the polymer, and be (partly) dissolved out with a solvent after application of the firmly bonded layer. Structures may be formed in the layer which allow access of previously non-permeating small molecules to the sensor surface and which retain only slightly larger molecules. The additives are water-soluble substances, e.g. proteins, salts or polyethylene glycols of differing chain length. USE/ADVANTAGE - The cut-off level of the polymer layers can be below a mol. wt. of 500, and the cut-off level can be adjusted. Polymer-coated sensors and esp. semiconductor sensors, are used in determn. of chemicals, esp. in chemical and medical analysis, in biotechnology, in environmental protection and in sanitation.

Description

The invention relates to a method for loading Layering sensors with selectively permeable Polymer membranes.

Layers of polymer materials for under different substances different solubility on. This is used both for polymer membranes - so-called sol diffusion membrane - as well as for selective Sensors exploited.  

Sensors coated with polymers and in particular accordingly coated semiconductor sensors can be found in the measurement of chemical substances and in particular in chemical and medical analysis applications dung.

In the previously proposed sensors with polymer layers that we selectively permeable membrane ken, are used as a diffusion barrier for disruptive parties separate polymer membranes.

Separate polymeric membrane filters, such as those from Bio sensors are used have a cut-off limit Molecular weights of approx. 500 D; with that is ge means that molecules with a molecular weight of more than 500 D with a statistically defined certainty be held back.

Sensor coatings with significant separation properties for organic molecules with a molecular weight below 500 D have so far not become known.

The invention has for its object a method for coating sensors with selectively permeable gene to specify polymer membranes through which u. a. Polymer layers with separation properties for molecules with one Molecular weight of less than 500 D are generated can, and in particular an attitude of Separation limit allowed.

An inventive solution to this problem is in Claim 1 specified. Developments of the invention are the subject of the subclaims.  

The invention is based on the knowledge that only through a haf on a solid sensor surface layer of at least one organic polymer the defined relationships can be created, the separation properties defined for the realization required are.

It is also used according to the invention that the pro Time and area diffusing through the polymer layer Number of molecules except by the thickness of the polymer Film can only be influenced by the polymer properties is. For those directly coated with polymers This is because sensors determine the material properties the polymer used, d. H. its pore structure and the charge distribution on the surfaces, the separation egg properties of the system.

According to the invention are therefore by setting the Thickness of the polymer layer and / or the solubility / Diffusion properties and / or their pore properties the specified separation properties reali siert.

In other words, the features of the invention exist in it, a sensor surface with a firmly adhering to coat polymeric film and by removing it suitable molecules structures defined in the way to produce and / or the thickness of the film appropriately to deliver that only those intended for the measuring process Molecules can get to the active sensor surface.

The thickness of the polymer film can be particularly precise be made when the polymer or polymers in one  Solvent dissolved on the sensor surface are brought (claim 2).

To influence the solution / diffusion behavior it is particularly advantageous if according to claim 3 or the polymer (s) chemical substances used are mixed in, one of the polymer or polymers have different solution behavior. After this Application of the firmly adhering layer can all or part of the added substances with a solvent be detached wisely (claim 4), so that additionally defined pores result.

It is also advantageous if in the Layer structures are created that are small molecules, that previously could not pass through to the sensor let surface get and only slightly larger moles Selectively hold back the cooler (claim 5).

The inventive method for coating Sensors with selectively permeable polymer membranes allows the production of sensors for measuring chemical substances, in particular for the chemi cal analytics and process control on different Areas such as biotechnology, environmental protection, healthy security systems can be used.

This gives membranes with previously unachieved Selectivity that is permeable to analysis, disturbing and only slightly larger molecules but signifi Keep the edge away from the active sensor surface.  

The invention is described below with reference to an embodiment Example with reference to the single figure The drawing is described in more detail by way of example:

In the embodiment described below for chemical sensors with planar solid surface in liquid media become thin-film platinum electrodes Trodes in silicon technology as a carrier for selective permeable polymer membranes used.

On the active surfaces of the electrode chips (Pt; SiO ₂ ) an adhesive polymer layer is created by dropping or spinning on a solution of organic polymers (e.g. cellulose triacetate in acetone). The thickness of this layer is gradually increased by the concentration of the polymer solution to such an extent that it becomes impermeable to the analyte and the interfering substances. A typical thickness for this is between approx. 20 and 40 μm, but can vary significantly in individual cases.

If you mix the polymer solution found in this way before Layer formation of water-soluble substances such as protein ne, salts, polyethylene glycols of various chain lengths gen or similar substances, you can get these from the dried waterproof polymer film with what remove it again. This creates pores or Ka nal structures that partially restore the polymer film make permeable.

The selectivity or separation property of the polymer film is both of the material properties of the Polymers as well as the type of admixed and then dependent molecules depend.  

The only figure in the drawing shows that one can by a suitable choice of the admixture to a given polymer can achieve that polymer film selectively preferred by the smallest molecules can be penetrated while for the larger than Diffusion barrier works.

In particular, the drawing shows the influence of cellulose coatings with defined pores on thin-film platinum electrodes with an area of 7 mm ² in Si technology on the amperometric detection of water peroxide and ascorbic acid.

The signals from uncoated sensors, sensors coated with a pure cellulose-2.5-acetate film and sensors with a cellulose-2.5-acetate film are shown
10% by weight of HSA (human serum albinum),
- TEABF (tetraethylammonium boron trifluoride),
- PEG (polyethylene glycol) with an average molecular weight of 1500,
8000.
20,000
have been coated.

In this way you can apply it in practice to a Blood glucose CHIP biosensor as an electrode active Strongly suppress substance-interfering ascorbic acid, while that to be measured as the product of an enzyme reaction Hydrogen peroxide is preferably detected.  

The film can also be used as a filter-like intermediate layer can be used by z. B. with immobilized organic components is overlaid.

In a practical embodiment, is on an 8 × 8 mm Si chip with one or more Pt elec 40 µl of a solution of 2% cellulose-2,5-acetate in Acetone with 10 wt.% (Based on solid polymer in the Solution) polyethylene glycol with a medium molecule drop weight of 8,000 D.

The solution is allowed to dry to film for two hours. Before the analytical use, the chip with the Polymer film for 10-24 hours in a 0.1 mol / l aq phosphate buffer solution. After that he is closed selective electrochemical measurements of hydrogen peroxide can be used or with other coatings, e.g. B. biocomponents.

Claims (6)

1. A method for coating sensors with selectively permeable polymer membranes, characterized in that a firmly adhering layer of at least one organic polymer is applied to a solid sensor surface, and that by adjusting the thickness of the polymer layer and / or the solubility / diffusion Properties and / or their pore properties the specified separation properties are realized. 2. The method according to claim 1, characterized in that the polymer or polymers in a solvent dissolved on the sensor surface be applied. 3. The method according to claim 1 or 2, characterized in that the or the used Polymer (s) chemical substances are mixed in a Lö different from the polymer or polymers exhibit behavior. 4. The method according to claim 3, characterized in that after the application of the firmly adhere to the layer or substances added partially or completely dissolved out a solvent the. 5. The method according to any one of claims 1 to 4, characterized in that structures in the layer generated, the previously not permeable small    Let molecules get to the sensor surface and selectively retain only a few larger molecules. 6. The method according to any one of claims 3 to 5, characterized in that the additives are water soluble substances, such as proteins, salts or polyethylene are lenglycols of different chain lengths.