CN105424671B - A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement - Google Patents

A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement Download PDF

Info

Publication number
CN105424671B
CN105424671B CN201610014072.0A CN201610014072A CN105424671B CN 105424671 B CN105424671 B CN 105424671B CN 201610014072 A CN201610014072 A CN 201610014072A CN 105424671 B CN105424671 B CN 105424671B
Authority
CN
China
Prior art keywords
algae solution
sample
frond
algae
suspension
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201610014072.0A
Other languages
Chinese (zh)
Other versions
CN105424671A (en
Inventor
崔建升
樊琳琳
段莉丽
孙福江
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hebei University of Science and Technology
Original Assignee
Hebei University of Science and Technology
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hebei University of Science and Technology filed Critical Hebei University of Science and Technology
Priority to CN201610014072.0A priority Critical patent/CN105424671B/en
Publication of CN105424671A publication Critical patent/CN105424671A/en
Application granted granted Critical
Publication of CN105424671B publication Critical patent/CN105424671B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/62Systems in which the material investigated is excited whereby it emits light or causes a change in wavelength of the incident light
    • G01N21/63Systems in which the material investigated is excited whereby it emits light or causes a change in wavelength of the incident light optically excited
    • G01N21/64Fluorescence; Phosphorescence
    • G01N21/6486Measuring fluorescence of biological material, e.g. DNA, RNA, cells
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N1/00Sampling; Preparing specimens for investigation
    • G01N1/28Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q

Landscapes

  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Immunology (AREA)
  • Pathology (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Molecular Biology (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Investigating, Analyzing Materials By Fluorescence Or Luminescence (AREA)

Abstract

A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement, belong to the technical field of algae solution measure, first algae solution sample is prepared using for examination algae solution, then with the chlorophyll in fluorescence spectrometry algae solution sample, centrifugal treating first will be carried out for examination algae solution, then centrifugal treating is obtained into frond and is configured to algae solution sample with suspension stabilizer, wherein the suspension stabilizer is made of agar, xanthans and carragheen.The present invention is by the way that in fluorescence detection, suspension stabilizer is added by the algae solution of detection, and by each parameter of fluoremetry, the attenuation rate of fluorescent value is small, fluctuation is small, shows that the suspension stability of algae solution is high, algae solution stable system, more accurate to the measure of algae solution.

Description

A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement
Technical field
The invention belongs to the technical fields of water sample measuring chlorophyll content, are related to a kind of fluorescence spectrometry water sample chlorophyll and contain The method of amount is more specifically a kind of preparation method of the suspending stabilized sample of the frond for fluorescence measurement, and this method increases The suspension of algae solution, stability obtain finely dispersed algae solution sample.
Background technology
Water body Determination of Chlorophyll a contents are routine monitoring projects in water quality environmental monitoring, are that body eutrophication refers to One of mark reacts amount of algae and water quality condition in water body to a certain extent.Chlorophyll-a Content accurately measures particularly important. Fluorescence spectrophotometry is easy to operate due to high sensitivity, can continuously in real time, monitoring, and realize the reality of water body Determination of Chlorophyll When in-situ study, be that experimental determination chlorophyll a realizes the most commonly used method to the quantitative determination of phytoplankton.
There is frustules during actual sample chlorophyll measuring to disperse uneven, free settling, suspension stability The problems such as difference cause fluoroscopic examination Chlorophyll-a Content accuracy of measurement not high, and fluorescent value accurate response algae solution can not be used dense Degree, this is always a problem of water sample chlorophyll measuring.Find that prior art fluorescence detection directly measures in experimentation When algae solution sample and actual water sample, frustule sedimentation is apparent, measured value changes over time larger obtained data inaccuracy, can not Correctly judge aquatic environment, therefore correct measurement aquatic environment is most important.Therefore, the sedimentation of frustule disperseed is reduced Speed increases the suspension of algae solution, stability obtains emphasis of the finely dispersed algae solution sample as research.
Invention content
When the present invention is solves prior art fluorescence spectrometry water body sample chlorophyll content, since frustule is in water body The problem of uneven, free settling, suspension system are unstable, and measurement result is inaccurate, error is big provides a kind of for fluorescence survey The preparation method of the suspending stabilized sample of frond of amount, efficiently solves the above problem.
The present invention for realize its purpose the technical solution adopted is that:
A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement prepares algae solution using for examination algae solution first Then sample is measured chlorophyll with fluorescence method, first centrifugal treating will be carried out for examination algae solution, then by centrifugal treating It obtains frond and is configured to algae solution sample with suspension stabilizer, wherein the suspension stabilizer is by agar, xanthans and carragheen Composition.
It takes and is placed in a centrifuge for examination algae solution, 15-20min is centrifuged with the rotating speed of 3500-4500r/min, is then outwelled Clear liquid obtains frond.
Agar in the suspension stabilizer:Xanthans:The content ratio of carragheen is (2-10):(10-30):(30-50), And in sample algae solution agar a concentration of 0.06%.
Agar in the suspension stabilizer:Xanthans:The content ratio of carragheen is 3:7.5:17.5, and in sample algae solution A concentration of the 0.06% of agar.
Described for examination algae solution is chlorella pyrenoidosa algae solution, as laboratory cultures algae solution sample, centrifugal treating it Before, first chlorella pyrenoidosa in chlorella pyrenoidosa algae solution is seeded in the conical flask for filling sterilizing BG-11 culture solutions and carried out Culture.
Described is derived from man-made lake water sample for examination algae solution, is for examination algae solution when being derived from man-made lake water sample as actual water sample When, it to be immediately available for preparing algae solution sample after sampling or the suspension of 1mL1% magnesium carbonate is added in then every liter of water sample if you need to place Liquid is kept in dark place with preventing chlorophyllin in 4 DEG C of refrigerators.
The beneficial effects of the invention are as follows:The present invention is creative to add the algae solution of detection by fluorescence detection Suspension stabilizer is entered, by each parameter of fluoremetry, the attenuation rate of fluorescent value is small, fluctuation is small, shows the suspending stabilized of algae solution Property high, algae solution stable system, it is more accurate to the measure of algae solution.
By long-term creative research, between inventor has found different suspension stabilizers, even if the viscosity phase of solution Same or close, liquid suspension stability also differs or even difference is with big, but related notable between suspension and stability, algae The suspension stability of liquid has significant effect the measure of algae solution, and agar, Huang are selected by the long-term creative research present invention Virgin rubber, carragheen are suspension stabilizer and auxiliary rheological agents, are mainly used for improving and increase the viscosity of liquid, so as to change The physical behavior of solution keeps the stability of fluid, has the function of emulsification, homogeneous, stabilization and suspended state is presented.It is and existing Suspension stability is not considered to the measure of algae solution in technology, is all considering the problems of impurity and absorbance, Yi Jitong substantially The precision of measuring apparatus is crossed to carry out, the problem of without any algae solution suspension.
Specific embodiment
When the present invention is solves prior art fluorescence spectrometry water body chlorophyll, since frustule is uneven in water body The problem of even, free settling, suspension system are unstable, and measurement result is inaccurate, error is big provides a kind of for fluorescence measurement The preparation method of the suspending stabilized sample of frond, efficiently solves the above problem, the present invention is made with reference to specific embodiment into One step explanation.
First, laboratory apparatus and reagent
Instrument:Illumination box (E-30B0 U.S. Percival);Visible spectrophotometer (722 type Shanghai spectral instruments Co., Ltd);Centrifuge (Z323 type Hermle);Ultraviolet specrophotometer (the limited public affairs of the U.S. scientific instrument in UV-2600 Shanghai day Department);Sepectrophotofluorometer (Shimadzu Corporation of RF-5301 Japan).
Reagent:Hydrochloric acid 1mol.L-1;Culture medium is sterilizing BG-11 culture solutions;10g.L-1Magnesium carbonate suspension.
Suspending agent:Agar, food-grade;Xanthans, food-grade;Carragheen, food-grade.
Sepectrophotofluorometer fluoremetry parameter setting:Excitation wavelength is 436.0nm;Launch wavelength is 672.0nm;Swash Hair and transmite slit width are 5.0nm;Sensitivity:high;Response time:Auto.
Embodiment 1. is using chlorella pyrenoidosa as trying algae
The chlorella pyrenoidosa (buy from Chinese Academy of Sciences's wildlife matter library --- fresh water algae library) of selection is algae, Algae is seeded in the conical flask for filling sterilizing BG-11 culture solutions, then conical flask is placed in E-30B0 illumination boxs Culture, condition of culture are:25 DEG C, illumination condition 2000lx of cultivation temperature, the time is set as 12h daytimes/12h nights, damp condition 75%RH, algae quiescent culture is daily to shake conical flask 2 times while change conical flask position, is taken out simultaneously as confession after ten days Try algae solution;
25mL is taken to be placed in a centrifuge for examination algae solution, 15min is centrifuged with the rotating speed of 4000r/min, then outwells supernatant, Frond is obtained, obtained frond and suspension stabilizer, water are then configured to algae solution sample, configured 100mL algae solutions sample is Example, wherein a concentration of the 0.06% of agar, a concentration of the 0.2% of xanthans, a concentration of the 0.4% of carragheen;Then fluorescence is used Method is measured algae solution.
2nd, the foundation of chlorella pyrenoidosa algae solution standard curve
It is 436nm in excitation wavelength according to the molecular absorption spectrum of substance and fluorescence spectrum transition principle, chlorophyll a The fluorescence of 672nm is sent out, fluorescence intensity only has correlativity with the concentration of algae solution when exciting light is stablized, can be in the excitation and transmitting The concentration of algae solution is measured under wavelength.But there are error is non-negligible, algae solution during measurement smaller due to the too low fluorescent value of algae solution concentration Fluorescent value, which even declines in slow ascendant trend when concentration quenching has occurred, during excessive concentration causes numerical value inaccurate.Therefore Its corresponding optimal D (663nm) range and corresponding fluorescence intensity level model are determined according to the standard curve of chlorella pyrenoidosa It encloses.
It takes the logarithm the chlorella pyrenoidosa algae solution in growth period, is diluted with the BG-11 culture mediums of sterilizing, extension rate is 1-20 measures the extinction of algae sample series with 722 type visible spectrophotometers at the chlorophyll a characteristic absorption wavelength of 663nm Angle value;The fluorescence intensity of algae sample series is measured under the fluoremetry parameter set with RF5301 sepectrophotofluorometers Value draws the fluorescence intensity level of chlorella pyrenoidosa with its concentration (being reacted with the absorbance value of chlorophyll a characteristic wave strong point) Situation of change.
Existed using 722 type spectrophotometers and Shimadzu RF5301 fluorescent spectrophotometer assay various concentration live body algae samples The relationship of absorbance value and fluorescence intensity at optimal absorption wavelength has shown that the D (663nm) of chlorella pyrenoidosa sample exists With fluorescence intensity level in good positive correlation, corresponding fluorescence intensity ranging from 40~77 when in the range of 0.3~0.8.
3rd, the characteristic absorption of suspension stabilizer is determined
0.1% agar solution, 0.3% xanthans are scanned at room temperature using the types of UV -2600 ultraviolet-uisible spectrophotometer Solution and 0.5% carrageenan solutions, the absorbance value in 220~900nm wave-length coverages are determined without characteristic absorption.Therefore fine jade The addition of fat, xanthans and carragheen is on frond spectrodensitometry result without influence.
4th, the influence that time of repose measures fluorescent value
The purpose of this experiment is:See whether frustule precipitates within a certain period of time, and whether suspension effect is good:Take 25mL albumen Core chlorella algae solution is settled to 100mL with the BG-11 culture mediums of sterilizing, and the BG-11 culture mediums of sterilizing make as blank reference With Shimadzu RF5301 sepectrophotofluorometers under the fluoremetry parameter set, initial fluorescent intensity value F is measured0= 89.383, measure the fluorescence intensity of an algae stoste every 1min.Establish the pass between interval time of measurement (T) and fluorescent value (F) It is curve, establishes the relation table between interval time of measurement and fluorescent value, be shown in Table 1
Relationship between 1 interval time of measurement of table and fluorescent value
As shown in Table 1, fluorescent value is changed greatly with interval time of measurement, and during T=1min, the attenuation rate of fluorescent value reaches △ F/ F0=8.75%, there are large errors for measured value.This is because frustule sedimentation in standing 1min is very fast, algae stoste after 5min System tends towards stability substantially, therefore it is required that being required when must shake up, measure before determination sample quickly, to reduce because frustule is because heavy Error caused by drop.
5th, the algae solution sample stability research of suspension stabilizer
3 kinds of suspension stabilizers are chosen, are tested first with single suspension stabilizer, agar powder (0.02-0.10g/ 100mL), xanthans (0.10-0.30g/100mL) and carragheen (0.30-0.50g/100mL).According to the algae in algae solution sample The dosage standard of cell content and related suspension stabilizer chooses various concentration gradient and carries out parallel laboratory test.It primarily determines After being suitble to the stabilizer of chlorella pyrenoidosa, then refinement experiment is carried out, each stabilizer additive amount and suspension effect are determined, such as table 2- Shown in table 4.
Research of 5.1 agar to algae solution sample stability
The chlorella pyrenoidosa liquid for taking 5 parts of upgrowth situations identical, every part of 25mL are centrifuged under 4000r/min rotating speeds 15min then takes out the agar solution A that frond uses various concentration respectively1 #、A2 #、A3 #、A4 #、A5 #100mL is settled to, as algae Liquid sample.Using Shimadzu RF5301 sepectrophotofluorometers a sample is measured every 1min under determining fluoremetry parameter The fluorescence intensity level of product, and its attenuation rate is sought, and record the time that attenuation rate reaches 5%.
Influence of 2 agar of table to algae solution sample suspension stability
As shown in Table 2, suspension stabilizer is made with agar powder, makes its additive amount in the range of 0.08-0.10g/100mL, it can Chlorella pyrenoidosa is made to suspend uniform, the stability of algae suspension system is good.
Research of 5.2 xanthans to algae solution sample stability
The chlorella pyrenoidosa liquid for taking 5 parts of upgrowth situations identical, every part of 25mL, in 4000r.min-1It is centrifuged under rotating speed 15min then takes out the xanthan gum solution C that frond uses various concentration respectively1 #、C2 #、C3 #、C4 #、C5 #100mL is settled to, is used Shimadzu RF5301 sepectrophotofluorometers measure the fluorescence intensity of a sample under determining fluoremetry parameter every 1min Value, and its attenuation rate is sought, and record the time that attenuation rate reaches 5%.
Influence of 3 xanthans of table to algae solution sample suspension stability
As shown in Table 3, suspension stabilizer is made with xanthans, makes its additive amount that can make albumen for 0.25-0.30g/100mL Core chlorella suspends uniformly, and algae suspension system stability is good.
Research of 5.3 carragheens to algae solution sample stability
The chlorella pyrenoidosa liquid for taking 5 parts of upgrowth situations identical, every part of 25mL, in 4000r.min-1It is centrifuged under rotating speed 15min then takes out the carrageenan solutions D that frond uses various concentration respectively1 #、D2 #、D3 #、D4 #、D5 #100mL is settled to, is used Shimadzu RF5301 sepectrophotofluorometers measure the fluorescence intensity of a sample under determining fluoremetry parameter every 1min Value, and its attenuation rate is sought, and record the time that attenuation rate reaches 5%.
Influence of 4 carragheen of table to algae solution sample suspension stability
As shown in Table 4, suspension stabilizer is made with carragheen, makes its additive amount that can make albumen for 0.45-0.50g/100mL Core chlorella suspends uniformly, and algae suspension system stability is good, and transparency is good.
The algae solution sample stability research of 5.4 composite suspension stabilizers
On the basis of experiment of single factor, comprehensive study is carried out to three kinds of agar, xanthans, carragheen suspension stabilizers. Its mobility is combined with xanthans with agar and suspending stabilized ability is strong, but is long placed in and will appear supernatant.Composite suspension agent is configured, I.e. agar, xanthans, carragheen carry out comprehensive study, optimize algae solution sample stabilising system.
5 composite suspension agent orthogonal test factor of table and level
6 composite suspension agent orthogonal experiments of table
According to table 5,6 orthogonal test of table as a result, by range analysis R1> R2> R3It is it is found that compound outstanding in trial stretch To algae solution, the descending factor of suspending stabilized influential effect is followed successively by floating agent:Agar > xanthans > carragheens, formula A3B2C2For optimum combination, i.e. agar 0.06%, xanthans 0.15%, carragheen 0.35%, at this time the change rate of fluorescent value for- 1.16%.
2. actual water sample of embodiment is for examination algae
The artificial lake water 4L of Hebei University of Science and Technology is acquired as actual water sample, 4 parts is equally divided into, obtains water sample 1, water sample 2, water Sample 3, water sample 4, are placed in a centrifuge and are centrifuged, and outwell supernatant and obtain frond, and frond and suspension stabilizer, water are matched It puts, constant volume to 100mL is sufficiently stirred, frustule is made to be evenly distributed in suspension liquid, obtains algae solution sample.It is glimmering with RF5301 The fluorescence intensity level of light spectrophotometric determination algae solution sample, by algae content in its fluorescent value intensity reaction water body, and according to The change rate of fluorescence intensity level and the relative standard deviation of measured value reflect the suspension stability of algae solution sample solution.
The measure of actual water sample
The actual water sample 0 of suspension stabilizer is not added the water sample 1-4 for adding suspension stabilizer and by fluorescence spectrophotometry Method is measured, and studies the stability of suspension system, as shown in table 7 below.
Relationship between 7 actual water sample interval time of measurement of table and fluorescent value
It can be obtained from table 7, with the stability of the fluctuation situation reaction suspension system of fluorescent value, in the experiment of 1h time stabilities Obtain, do not add that the fluctuation of the actual water sample of suspension stabilizer its fluorescent value is larger, and add suspension stabilizer actual water sample its The change rate of fluorescent value is in ± 3.5%, precision is higher within 1.5%, and the addition of suspension stabilizer can hang frustule It is floating uniform.

Claims (5)

1. a kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement prepares algae solution sample using for examination algae solution first Then product are measured chlorophyll with fluorescence method, it is characterised in that:First centrifugal treating will be carried out for examination algae solution, then Centrifugal treating is obtained into frond and is configured to algae solution sample with suspension stabilizer, wherein the suspension stabilizer is by agar, xanthan Glue and carragheen form, agar in the suspension stabilizer:Xanthans:The content ratio of carragheen is (2-10):(10-30): (30-50), and in sample algae solution agar a concentration of 0.06%.
2. a kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement according to claim 1, feature It is:It takes and is placed in a centrifuge for examination algae solution, 15-20min is centrifuged with the rotating speed of 3500-4500r/min, then outwells supernatant Liquid obtains frond.
3. a kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement according to claim 1, feature It is:Agar in the suspension stabilizer:Xanthans:The content ratio of carragheen is 3:7.5:17.5, and fine jade in sample algae solution A concentration of the 0.06% of fat.
4. a kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement according to claim 1, feature It is:Described for examination algae solution is chlorella pyrenoidosa algae solution, as laboratory cultures algae solution sample, before centrifugal treating, First chlorella pyrenoidosa in chlorella pyrenoidosa algae solution is seeded in the conical flask for filling sterilizing BG-11 culture solutions and trained It supports.
5. a kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement according to claim 1, feature It is:It is described to be derived from man-made lake water sample for examination algae solution, as actual water sample, when it is for examination algae solution to be derived from man-made lake water sample, It to be immediately available for preparing algae solution sample or if you need to place addition 1mL1% magnesium carbonate suspension in then every liter of water sample after sampling, And it is kept in dark place in 4 DEG C of refrigerators.
CN201610014072.0A 2016-01-11 2016-01-11 A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement Active CN105424671B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201610014072.0A CN105424671B (en) 2016-01-11 2016-01-11 A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201610014072.0A CN105424671B (en) 2016-01-11 2016-01-11 A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement

Publications (2)

Publication Number Publication Date
CN105424671A CN105424671A (en) 2016-03-23
CN105424671B true CN105424671B (en) 2018-06-19

Family

ID=55503020

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201610014072.0A Active CN105424671B (en) 2016-01-11 2016-01-11 A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement

Country Status (1)

Country Link
CN (1) CN105424671B (en)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101570785A (en) * 2009-06-10 2009-11-04 南京大学 Method for detecting potential inherent toxicity of organic pollutants in water body
CN103076297A (en) * 2012-12-27 2013-05-01 河北科技大学 Method for quickly and real-timely measuring water chlorophyll through replacing chlorophyll standard substance with microcystis aeruginosa
CN105044065A (en) * 2015-08-07 2015-11-11 河北科技大学 Preparation method for algae solution used for determining chlorophyll content through fluorescence method

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101570785A (en) * 2009-06-10 2009-11-04 南京大学 Method for detecting potential inherent toxicity of organic pollutants in water body
CN103076297A (en) * 2012-12-27 2013-05-01 河北科技大学 Method for quickly and real-timely measuring water chlorophyll through replacing chlorophyll standard substance with microcystis aeruginosa
CN105044065A (en) * 2015-08-07 2015-11-11 河北科技大学 Preparation method for algae solution used for determining chlorophyll content through fluorescence method

Also Published As

Publication number Publication date
CN105424671A (en) 2016-03-23

Similar Documents

Publication Publication Date Title
CN104833671B (en) A kind of assay method of the absolute amylose content of rice
Yurova et al. Functional electrospun nanofibers for multimodal sensitive detection of biogenic amines in food via a simple dipstick assay
CN103257127B (en) It is a kind of that to improve fluorescent indicator molecule dispersed and prepare the method for oxygen sensitive fluorescent screen in organic silica gel
CN105021605B (en) A kind of product and method for dissolved oxygen detection
CN103558214B (en) Lack the assay method of polyphenol content in luxuriant arrow bamboo
CN106198594B (en) A kind of characterizing method of polymer molecular weight
Nielsen et al. Evaluation of the robustness of optical density as a tool for estimation of biomass in microalgal cultivation: The effects of growth conditions and physiological state
CN107290329A (en) A kind of preparation method and application of sulfydryl beta cyclodextrin functionalization SERS paper substrates
Guembe-García et al. Why is the sensory response of organic probes within a polymer film different in solution and in the solid-state? Evidence and application to the detection of amino acids in human chronic wounds
Voskoboynikova et al. Optical pH sensing in milk: A small puzzle of indicator concentrations and the best detection method
CN105044065B (en) A kind of preparation method of algae solution for fluorescence spectrometry chlorophyll content
CN105424671B (en) A kind of preparation method of the suspending stabilized sample of frond for fluorescence measurement
Koch et al. In vivo determination of carotenoid resonance excitation profiles of Chlorella vulgaris, Haematococcus pluvialis, and Porphyridium purpureum
Langer et al. On culture artefacts in coccolith morphology
Li et al. A “turn-on” inverse opal photonic crystal fluorescent sensing film for detection of cysteine and its bioimaging of living cells
Zhiltsova et al. Fluorescence of chlorosomal bacteriochlorophylls extracted by organic solvents applied for pigment quantification in natural water samples
CN102830098A (en) Fluorescent sensor for measuring picric acid content and preparation method thereof
CN102507466A (en) Improved spectrophotometry method for determining proteins by using Coomassie brilliant blue
CN111024689B (en) White spirit alcoholic strength detection method based on color-changing nano material
CN105241876A (en) Detection method of sulfur dioxide in wine
CN105277542B (en) A kind of water nitrite field fast detection method for eliminating reagent blank influence
Tucker et al. Polycyclic Aromatic Hydrocarbon Solute Probes. Part III: Fluorescence Emission Spectra of Pyrene, Ovalene, Benzo [ghi] perylene, and Coronene Dissolved in Liquid Tetrabutylammonium Sulfonate Salts
Magnaghi et al. Quick and easy covalent grafting of sulfonated dyes to CMC: from synthesis to colorimetric sensing applications
US20160202220A1 (en) Liquid phase phenol analysis
CN107957403B (en) Method for measuring chitosan content by using carmine as probe through ultraviolet spectrophotometry

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant