TH17569A3 - Liquid paraffin immersed paper base micro-fluid measurement device for analyzing parquat content in fruits and vegetables. - Google Patents

Abstract

A summary of the invention which will appear on the ReadFile announcement page: ------ 12/02/2020 ------ (OCR) Page 1 of the number 1 page Conclusion of the invention of the basal micro-fluid measuring device. This paper for analyzing the paraquat content of fruits and vegetables consists of a microfluid measuring device, a custom made and cost-effective paper base. 5 re-tests can be performed per drop of the sample solution using the reagent. Reaction and coloring with three microliter volumes of paraquat were sodium hydroxide, sodium dithionide and ethylene diamine tetracetic acid disodium. Reading the concentration of paraquat in mg / l at the level of 0.50-20.0 mg / l, which solved the problem of the determination of paraquat leaf in the use of chemicals in the micro-test, take the reading time. The test results for not more than 10 minutes per sample can be used to test the concentration of paraquat contaminants in samples in the form of a photographic solution and to read the red intensity readings from the photographs using a computer program. The wter looked for the image J (ImageJ) and used it to create a standard graph to quantify or contrast The standard color swatch is given a low cost per sample and can be used for portable testing in the field. ------------ page 1 of the number 1 Page Summary of Invention This paper-based microfluid measuring device for paraquat analysis consists of a custom-made and cost-effective paper base micro-fluid measuring device. 5 reps of the test can be performed per drop. One sample solution using 3 microliter volumes of paraquat-reactive chemicals: sodium hydroxide, sodium dithionite and ethylene diamine solution. Tracetic acid disodium was able to read the concentration of paraquat in mg / l at the level of 0.50-20.0 mg / l, which solved the problem of the analysis of paraquat in terms of use of the substance. The micro-volume test chemistry takes no more than 10 minutes to read the test results per sample, and can be used to test the concentration of paraquat contaminants in samples in solution form by photographic and readings. The color intensity of the redness from the photograph by the computer program ImageJ color calibration and use to create a standard graph for comparison Quantify or compare the concentration from a given standard color spectrum with low cost per sample and can be used for portable testing in the field.

Claims (3)

Disclaimer (all) which will not appear on the advertisement page: ------ 12/02/2020 ------ (OCR) Page 1 of the number 2 Claims. 1. A paper-based microstructure dipped in liquid paraffin measuring device for analyzing parquat content in fruits and vegetables consists of part 1. A custom-built paper base microswitching device with liquid paraffin dip technique, which consists of a procedure. Construction of the device as follows: a) Design the shape of the paper-base micro-fluid measuring device with 1 sample area and 5 test areas to allow for 5 repetitions of the test for a single drop of the sample on a single sheet. Cut the steel according to the shape of the paper base micro-fluid measuring device to create a steel template (Ironmould) b) Cut the chromatographypapers (WhatmanNo.1) size 5x5 cm, then take the template. The iron is attached to both sides of the paper and clamped with paper clips so that both pieces of steel template are attached to the end of the paper.There is no gap for external substances to flow into the area of the template. C) Put paraffin on it. In the beaker to be heated to 80 ° C with the oven, the paraffin is finished liquid, then the iron template attached to the paper from the b) is dipped over the entire area and taken immediately, and then set aside. Let it cool and then unwrap the template A paper-based micro-fluid measuring device is used for determining the required amount of paraquat. Part 2. Chemicals reacting and coloring with three types of paraquat: - Concentrated sodium hydroxide solution. 0.5-3 mol / L is a hydrolysis agent of paraquat - sodium dithionite solution at a concentration of 2.0-6.0% by weight by volume. As a colored compound - 3-7% ethylenediaminetetraacetic acid (EDTA) solution by wt. By volume. It reduces the interference from the disturbing ions present in the sample. 2. A paper-based microstructure dipped in liquid paraffin for analyzing the parquat content of fruit and vegetables according to claim 1, where there is a test procedure and a response to prepare the sample of fruit and vegetable juices for paraffin content analysis. In the example below, a) pipette 50-100 μl of a sample solution onto a paper-base micro-fluid measuring device in the center of the sample area (Samplezone); b) a 2-10 μL mixed solution pipette. Which consisted of 0.5-3.0 mol / l sodium hydroxide solution, 0.5-1.0 ml volume and 3.0-6.0% sodium dithionite solution by weight / volume 0.75-2.0 ml, applied to the test site (Testzone ) Of the micro-fluid measuring device on the paper base, then take a picture of the device with a phone (iPhone 7 model), 325 lux light intensity after 30 seconds, and the red intensity is measured by a computer program for the color value of the image J ( ImageJ) by determining the parquat content in the sample by calibrating the standard curves generated from the paraquat standard solution at a concentration of 1.0-40.0 mg / l, or by comparing the parquat content from the standard colored band attached to the measuring device. Type of This paper base micro flow, page 2 of the number 2 pages, water sample preparation process for testing water sample preparation, including tap water, surface water and underground water samples by applying a large amount of water with a No. 1 filter paper (Whatman) to a volume of 100. Then add a 3-7% ethylenediaminetetraacetic acid (EDTA) solution of 1 ml by volume to remove metal ions that may interfere with the analysis prior to analysis. Microcirculation device, paper base, sample preparation process, fruits and vegetables for testing, take fruits or vegetables, cut into small pieces, weigh 20 g, grind them thoroughly with crushed hardener, add 250 ml of deionized water and take it. Filtered by vacuum filtration system, analyzed by micro-fluid measuring device, paper base ------------ page 1 of amount 2 pages. 1. The paper base microstructure dipped in liquid paraffin microstructure for analyzing the parquat content in environmental samples consists of a custom paper base microswitching device with liquid paraffin dipping technique which has a procedure. As follows: a) Design the shape of the (symbol) PAD with 1 sample area and 5 test areas to allow for 5 re-testing for only one drop of sample on a single sheet. Of (symbol) PAD to create a steel template (Ironmould) b) Cut chromatographypapers (WhatmanNo.1) size 5x5 cm, then take a steel template to cover both sides of the paper and clip it with c. The paper clip so that the two template steels adhere to the paper until there are no gaps to allow external substances to flow into the template area c) Paraffin paraffin is placed in the beaker to heat it to 80. Degree Celsius with the oven until the paraffin is liquid, then dip the steel template attached to the paper from the (2) dipped over the entire area and take it up immediately after that, let it cool and remove the iron template as shown. The second is a device (symbol) PAD that is used to quantify Parac. What you want 2. A paper-based micro-fluid measuring device with liquid paraffin immersed in the analysis of parquat content in environmental samples according to claim 1, where there are 3 types of parquate-reactive and coloring chemicals: - sodium hydroxide solution. Oxide, 0.5-3 mol / l, is a hydrolysis agent of paraquat - sodium dithionide solution at a concentration of 2.0-6.0% by weight by volume as a transforming agent. Paraquat to form a colored compound - 3-7% ethylene diamine tetracetic acid (EDTA) solution by wt. By volume. In the example 3. A paper-based micro-fluid measuring device with liquid paraffin for analyzing the parquat content in environmental samples according to claim 1, where there is a test procedure and an answer to the preparation of water and vegetable samples for analyzing the parquat content in the sample. 1) Pipette 50-100 μl of a sample solution onto the instrument (symbol) PAD in the center of the sample area (Samplezone) b) a 2-10 μL mixed solution pipette containing anhydrous sodium hydroxide solution. 0.5-3.0 mL of oxides of concentrations of 0.5-3.0 mol / l, volume of 0.5-1.0 ml and a solution of sodium dithionite concentration of 3.0-6.0% by volume wt. 0.75-2.0 ml into the test area of the (symbol) PAD. The device was then photographed with a phone (iPhone 7), 325 lux light intensity over 30 seconds, and the redness intensity was measured using a computer program for Imagej color calibration by determining the parquat content in the water sample by graph comparison. The standard is made from a standard solution of paraquat at a concentration of 1.0-40.0 mg / l or taken to be calibrated for the parquat content from the standard color band attached to this paper-based microstructure measurement kit. Water samples for testing the preparation of water samples, such as tap water, surface water and groundwater by taking a large sample of water with a No. 1 (Whatman) filter paper to a volume of 100 ml and then adding a solution of ethylene diamine. 3-7% by wt. 1 ml by volume for page 2 of 2 pages. Eliminate metal ions that may interfere with analysis prior to analysis with a paper-based micro-fluid measuring device. The sample preparation process for testing vegetables was chopped into small pieces weighing 20 grams, ground with crushed solid, add 250 ml of deionized water and filtered by a vacuum filter system and analyzed with a measuring device. Paper base comma fluid