CN107356562B - It is a kind of to regulate and control nano silver catalytically active surface plasmon absorption spectroscopic assay NH with tetraphenylboron sodium ligand4+Method - Google Patents
It is a kind of to regulate and control nano silver catalytically active surface plasmon absorption spectroscopic assay NH with tetraphenylboron sodium ligand4+Method Download PDFInfo
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Abstract
Regulate and control nano silver catalytically active surface plasmon absorption spectroscopic assay NH with tetraphenylboron sodium ligand the invention discloses a kind of4 +Method, characterized in that include the following steps: (1) preparation known concentration NH4 +Standard solution system;(2) placebo solution system is prepared;(3) Δ A=A-A is calculated0;(4) with Δ A to NH4 +Concentration relationship work curve;(5) sample solution is prepared, measuring its resonance scattering peak intensity angle value is ASample, calculate Δ ASample=ASample‑A0;(6) according to working curve, the NH in sample is calculated4 +Concentration.This method regulates and controls nanometer enzymatic activity, method simplicity, quick, high sensitivity using ligand.
Description
Technical field
It is specifically a kind of to regulate and control nano silver catalytically active surface with tetraphenylboron sodium ligand the present invention relates to analytical chemistry field
Plasmon absorption spectroscopic assay NH4 +Method.
Background technique
Nano enzyme is a kind of artificial enzyme, also known as nanometer analogue enztme, is proposed, is used for by Scrimin and Pasquato earliest
The golden cluster for having significant ribonuclease activity is described.Rapid development and nano material due to research in nanotechnology field is unique
Physicochemical properties, the influence of nano enzyme are popularized in countless fields and are come, comprising: bio-sensing, immunoassay, cancer are examined
Disconnected and treatment, neuroprotection, stem cell growth and pollutant removing etc..CeO2In there are two kinds of mixed valences of trivalent and quadrivalent cerium
And oxygen vacancy, thus fabulous catalytic performance is embodied in various applications, superoxides can be eliminated certainly in view of nano cerium
By base, its property for simulating superoxides oxidizing ferment is studied then very rationally, the study found that the nano cerium with oxygen vacancy can be with
It protects normal cell not have any effect from radiation injury but to tumour cell, is somebody's turn to do " protection " and has from nano cerium
The ability of free radical is eliminated, subsequent numerous studies confirm that nano cerium has a variety of enzymes (superoxides oxidizing ferment, catalase
And oxidizing ferment) property, superior elimination free radical property is widely used in internal and external biological applications.Due to closing
At the development of method simplicity and functionalization means, the gold nano grain of Citrate Buffer preparation is ground extensively in various applications
Study carefully, once has been reported that the catalytic activity for investigating nanogold.But when Rossi and his colleague have found that naked gold can be by dissolution
When oxygen oxidizing glucose, what academia still extremely shocked, this reaction and glucose oxidase (GOX) it is catalyzed similar, hint
Gold nano grain can be used as GOXAnalogies, the seminar also report relevant mechanism study.Based on obtained experiment knot
Fruit, they propose that Eley Rideal mechanism explains catalysis phenomenon: glucose is adsorbed onto first on the surface of gold nano grain;So
Oxygen is produced close to metal surface and with the glucose response of attachment into gluconic acid and hydrogen peroxide afterwards.The catalysis of gold nano enzyme is reacted
Also Michaelis Menten dynamics is deferred to, but the activity of native enzyme is 55 times higher than nano enzyme.Nanogold particle is not only
Enzymatic property is simulated with oxide, and can show Mimetic Peroxidase property.There is document report to synthesize ferritin
The Pt nanoparticle of package and the ability for testing material Scavenging active oxygen, under in vitro conditions, prepared material is shown
Preferable superoxide dismutase analogue enztme activity and there is long-term stability, the process mediated using ferritin, material into
Enter cell and increases cell viability under the action of external induced stress.Do not consider using the quality of nano particle as standard and poly- third
Olefin(e) acid (PAA) influence nanoparticle activated to Pt, the experimental results showed that, the superoxide dismutase of Pt nano particle simulates enzyme activity
Property will be lower than CeO2Nano particle, but there is no make explanations to the experimental phenomena from theoretical angle for article.Cetyl
The 10nm Pt nanocube of trimethylammonium bromide (CTAB) protection is also reported with Mimetic Peroxidase activity, catalysis
Reaction is Eley Rideal mechanism.Under conditions of hydrogen peroxide presence or absence, material can be demonstrate,proved with oxidation substrates OPD and TMB
It is real to pass through immunoassay using the simulation enzymatic property of material for the real property of its oxide analogue enztme and Mimetic Peroxidase
2 quantitative analysis of mouse interleukin is showed, then, they have found that Au@Pt nanometer rods equally have Ascorbic Acid Oxidation again
The activity of enzyme, this eliminates the interference of ascorbic acid when can be used for detecting glucose.
Ligand (ligand, also referred to as aglucon) is can to generate the atom of bond with central atom (metal or metalloid), divide
Son and ion, it is however generally that, ligand can at least provide an electronics when participating in bond, and ligand plays the part of the role of lewis base,
But ligand receives electronics in a few cases, serves as lewis acid.Using 4- mercaptobenzoic acid as regulatory molecule, control sulfydryl oneself
Alcohol regulates and controls the oligonucleotides self assembly of nanometer gold surface based on ligand exchange method, and characterized with gel electrophoresis
Method existing research;Copper ion is the potent agent that regulation prepares gold nanoparticle, with Cu2+Increase concentration from 0mmol/L to
The shape of 0.2mmol/L, gold nano grain become cube from stick, and concentration increases to 1.6mmol/L again, and shape becomes ten faces
Body, this method propose a kind of mechanism based on selectivity delay lateral growth rate;In addition, being based on Hg2+Ligand regulates and controls to rely ammonia
The aggregation of the nanogold of acid modification establishes the range of linearity in 5nmol/L between 100 nmol/L, and detection is limited to 3.6
The method of the simple aflatoxin Visual retrieval of nmol/L, this method can be applied to aflatoxins in the food samples such as rice
Quantitative detection.
Ammonium salt is a kind of common inorganic fertilizer, is commonly used in crops, excessive using ammonium fertilizer, to ambient water quality
Certain pollution is caused, the method for measuring ammonium root at present has titration, spectrophotometry, the chromatography of ions, fluorescence method etc..Titration
Method is to react to generate hexa and hydrogen ion with ammonium root based on formaldehyde, then titrated with NaOH, while to do hydrionic
To deduct the NaOH that hydrogen ion consumes, method is relatively complicated, can not be measured to micro ammonium root for titration;The chromatography of ions,
Have many advantages, such as that favorable reproducibility, accuracy are high, but it is time-consuming, vulnerable to the interference of other coexisting ions;Fluorescence analysis has operation
Easy, sensitive, quick feature, but disturbing factor is more, and analytic process is longer;Chromatography colleges and universities, but separating effect is unstable etc..
Surface plasma resonance (Surface Plasmon Resonance, abbreviation SPR) is according to incident light from critical angle
It is irradiated to the metal free electron resonance that the dielectric surface of different refractivity generates, the interaction obtained between biomolecule is special
Specific signal to carry out qualitative and quantitative analysis to molecular components.It has not yet to see and is urged using tetraphenylboron sodium ligand regulation nano enzyme
The report of the surface plasmon absorption spectrographic technique measurement ammonium ion of change.
Summary of the invention
The purpose of the present invention is for measurement NH4 +The deficiencies in the prior art, and a kind of tetraphenylboron sodium ligand regulation is provided
Nano silver catalytically active surface plasmon absorption spectroscopic assay NH4 +Method.This method is regulated and controled using ligand reaction
Nanometer enzymatic activity, method simplicity, quick, high sensitivity.
Realizing the technical solution of the object of the invention is:
It is a kind of to regulate and control nano silver catalytically active surface plasmon absorption spectroscopic assay NH with tetraphenylboron sodium ligand4 +'s
Method includes the following steps:
(1) NH of known concentration is prepared4 +Standard solution system: in Yu Duozhi scale test tube, 25 μ L-400 μ L are separately added into
The NH of 10 μm of ol/L4 +Standard solution, 10 μ L-50 μ L 0.1mmol/L nano silvers, 450 10 μm of ol/L of μ L-550 μ L tetraphenylboron
Sodium solution, the glucose of 30 μ L-100 μ L, 0.3 mol/L, 100 μ L-200 μ L, 1 mmol/L AgNO3With 10 μ L-50 μ L 0.5
Mol/L NaOH solution, in 60 DEG C water-bath 6 minutes, shake up, then ice water is cooled to room temperature, be added 80 μ L-150 μ L
1mol/L NaCl is settled to 2.0 mL with secondary distilled water;
(2) it prepares placebo solution system: NH is not added with the method for step (1)4 +It is molten that standard solution prepares blank control
Liquid system;
(3) K by step (1), (2) preparation is taken respectively+Standard solution system and placebo solution system are poured into colorimetric
In ware, on spectrophotometer, instrument parameter is set, scans the surface plasmon absorption spectrum of acquisition system, measurement
Absorbance value at 415nm is A, while the absorbance value for measuring placebo solution system is A0, calculate Δ A=A-A0;
(4) with Δ A to NH4 +Concentration relationship work curve;
(5) sample solution is prepared according to the method for step (1), wherein the NH being added4 +Standard solution replaces with sample solution,
And the absorbance value of sample solution is measured as A by the method for step (3)Sample, calculate Δ ASample= ASample- A0;
(6) working curve according to step (4), calculates sample solution NH4 +Content.
The preparation method of nano silver described in step (1) is: 44mL second distillation being added in a 50m L conical flask
Water is sequentially added into 2mL 10mmol/L AgNO3, 3mL 60mmol/L citric acid three sodium solution, 600 μ L, 30% H2O2, 600 μ
L 0.1mol/L NaBH4Solution mixes, and is stirred with glass bar to solution colour and becomes blue, stood, and blue nano-silver colloid is made, stands
It is transferred in micro-wave oven, with 800W power microwave 90s, obtains red rod-like nano elargol, be settled to secondary distilled water
50mL, concentration are calculated as 0.4mmol/L with Ag, are diluted to 0.1mmol/L with secondary distilled water with preceding, the system of rod-like nano silver
Preparation Method is the prior art.
Under the conditions of the technical program, nano silver is to glucose-AgNO3Generating this reaction of Nano silver grain has relatively by force
Catalytic action, when tetraphenylboron sodium is wrapped in nano silver nano enzyme surface, it is suppressed that glucose-AgNO3Generate nano grain of silver
This sub reaction, when NH is added in system4 +When, NH4 +Generation (C is reacted with tetraphenylboron sodium6H5)4BNH4And from nano silver nano enzyme table
Emaciated face is from nano silver catalytic activity is restored, with NH in system4 +The increase of concentration, the enhancing of nano silver catalytic activity, the silver of generation
Nanoparticle increases, NH4 +The light absorption value of concentration and system is in certain linear relationship, establishes measurement NH accordingly4 +Tetraphenylboron sodium
Regulate and control nano silver active surface plasmon absorption spectrographic technique.
The advantages of this method is: compared with the existing methods, this measuring method is living using ligand regulation nanometer enzymatic
Property, method simplicity, quick, high sensitivity.
Detailed description of the invention
Fig. 1 is the surface plasmon absorption spectrogram in embodiment.
In figure, a.0.75 μm ol/L Ag+2.5 μm ol/L (C6H5)4+ 75 μm of ol/L of BNa+7.5mmol/L glucose
AgNO3+6.25mmol/L NaOH +50 mmol/L NaCl b.a+0.125µmol/L NH4 + c.a+0.50µmol/L NH4 +
d.a+ 0.75µmol/L NH4 + e.a+ 1.25µnmol/L NH4 + f.a+2.0µmol/L NH4 +。
Specific embodiment
The content of present invention is further elaborated below with reference to embodiment and attached drawing, but is not limitation of the invention.
Embodiment:
It is a kind of to regulate and control nano silver catalytically active surface plasmon absorption spectroscopic assay NH with tetraphenylboron sodium ligand4 +'s
Method includes the following steps:
(1) NH of known concentration is prepared4 +Standard solution system: in 5 scale test tubes, be separately added into 25 μ L, 100 μ L,
The NH of 150 μ L, 250 μ L, 400 10 μm of ol/L of μ L4 +Then standard solution sequentially adds 15 μ L 0.1 in every scale test tube
Mmol/L nano silver, the sodium tetraphenylborate solution of 500 10 μm of ol/L of μ L, the glucose of 50 μ L, 0.3 mol/L, 150 μ L 1
mmol/L AgNO3With 25 μ L, 0.5 mol/L NaOH solution, in 60 DEG C water-bath 6 minutes, shake up, then ice water is cooled to
Room temperature is added 100 μ L 1mol/L NaCl, is settled to 2.0 mL with secondary distilled water;
(2) it prepares placebo solution system: NH is not added with the method for step (1)4 +It is molten that standard solution prepares blank control
Liquid system;
(3) NH by step (1), (2) preparation is taken respectively4 +Standard solution system and placebo solution system are poured into quartz
In cuvette, on UV-1901 type spectrophotometric spectra meter, instrument parameter slit is set as 2 nm, scans the surface etc. of acquisition system
Gas ions resonance absorbance spectrum such as Fig. 1, the absorbance value measured at 415nm is A, while measuring the suction of placebo solution system
Shading value is A0, calculate Δ A=A-A0;
(4) with Δ A to NH4 +Concentration relationship work curve, acquisition equation of linear regression is ΔA= 0.202C+
0.006, wherein NH4 +ConcentrationCUnit be μm ol/L, the measurement range of linearity be 0.125-2.0 μm of ol/L, detect be limited to 0.042
µmol/L;
(5) sample measures: the waste water for taking certain ammonium hydroxide factory nearby to discharge is filtered with filter paper, appropriate filtrate is measured, according to step
(1) method prepares sample, wherein the NH being added4 +Standard solution replaces with sample, operates by step (2)-(4),
Calculate the Δ of sampleA Sample= A Sample- A 0;
(6) working curve according to step (4), calculates sample NH4 +Content be 0.263 μm of ol/L.
The preparation method of nano silver described in this example step (1) is: being added 44mL bis- times in a 50m L conical flask
Distilled water is sequentially added into 2mL 10mmol/L AgNO3, 3mL 60mmol/L citric acid three sodium solution, 600 μ L, 30% H2O2,
600µL 0.1mol/L NaBH4Solution mixes, and is stirred with glass bar to solution colour and becomes blue, stood, and blue nano silver is made
Glue is transferred in micro-wave oven immediately, with 800W power microwave 90s, obtains red rod-like nano elargol, fixed with secondary distilled water
Hold to 50mL, concentration is calculated as 0.4mmol/L with Ag, is diluted to 0.1mmol/L with secondary distilled water with preceding.
The verifying of the technical program detection method:
Three parts of waste water sample in above-described embodiment step (5) are taken, the NH that concentration is 0.25 μm of ol/L is added4 +Standard solution,
Recovery testu is carried out, acquiring the rate of recovery is respectively 99.2%, 98.7%, 97.5%, relative standard deviation 3.9%.
Illustrate that the technical solution method is accurate and reliable.
Claims (1)
1. a kind of regulate and control nano silver catalytically active surface plasmon absorption spectroscopic assay NH with tetraphenylboron sodium ligand4 +Side
Method, characterized in that include the following steps:
(1) NH of known concentration is prepared4 +Standard solution system: in Yu Duozhi scale test tube, it is separately added into 25 μ L-400 μ L, 10 μ
The NH of mol/L4 +Standard solution, 10 μ L-50 μ L 0.1mmol/L nano silvers, the tetraphenylboron sodium of 450 10 μm of ol/L of μ L-550 μ L are molten
Liquid, the glucose of 30 μ L-100 μ L, 0.3 mol/L, 100 μ L-200 μ L, 1 mmol/L AgNO3With 10 μ L-50 μ L 0.5
Mol/L NaOH solution, in 60 DEG C water-bath 6 minutes, shake up, then ice water is cooled to room temperature, be added 80 μ L-150 μ L
1mol/L NaCl is settled to 2.0 mL with secondary distilled water;
(2) it prepares placebo solution system: NH is not added with the method for step (1)4 +Standard solution prepares placebo solution body
System;
(3) K by step (1), (2) preparation is taken respectively+Standard solution system and placebo solution system are poured into cuvette,
On spectrophotometer, instrument parameter is set, scans the surface plasmon absorption spectrum of acquisition system, measures 415nm
The absorbance value at place is A, while the absorbance value for measuring placebo solution system is A0, calculate Δ A=A-A0;
(4) with Δ A to NH4 +Concentration relationship work curve;
(5) sample solution is prepared according to the method for step (1), wherein the NH being added4 +Standard solution replaces with sample solution, and presses
The absorbance value of the method measurement sample solution of step (3) is ASample, calculate Δ ASample= ASample- A0;
(6) working curve according to step (4), calculates sample solution NH4 +Content.
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CN104597035A (en) * | 2015-02-04 | 2015-05-06 | 吉林大学 | Method for detecting potassium ions by using SERS technology |
CN105116083A (en) * | 2015-07-08 | 2015-12-02 | 北京中海诚达科贸有限公司 | Method for simultaneously determining content of ethylene glycol phenyl ether and quaternary ammonium salt in disinfectant |
CN105136695A (en) * | 2015-08-14 | 2015-12-09 | 桂林电子科技大学 | OPA-NH4 <+> -SO3<2-> reaction-based sulfite ion spectroscopic measurement method and application |
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CN104597035A (en) * | 2015-02-04 | 2015-05-06 | 吉林大学 | Method for detecting potassium ions by using SERS technology |
CN105116083A (en) * | 2015-07-08 | 2015-12-02 | 北京中海诚达科贸有限公司 | Method for simultaneously determining content of ethylene glycol phenyl ether and quaternary ammonium salt in disinfectant |
CN105136695A (en) * | 2015-08-14 | 2015-12-09 | 桂林电子科技大学 | OPA-NH4 <+> -SO3<2-> reaction-based sulfite ion spectroscopic measurement method and application |
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