CN104558677B - A kind of preparation method of nano-cellulose/chitosan composite foam - Google Patents

Abstract

A kind of preparation method of nano-cellulose/chitosan composite foam, the present invention relates to cellulose composite material field, and it is low in order to solve the problems, such as the Biocompatibilities such as conventional foam, aeroge difference and Chitosan Composites heat endurance.The preparation method of composite foam：First, the biomass material containing cellulose is chemically treated and machinery solution fibre is handled, prepare nano-cellulose aqueous suspension；2nd, add chitosan to glacial acetic acid solution and prepare chitosan mixed solution；3rd, nano-cellulose aqueous suspension is mixed with chitosan mixed solution, obtains nano-cellulose/chitosan composite solution；4th, cryogenic freezing processing is carried out to composite solution；5th, processing is dried to the mixed solution freezed, obtains nano-cellulose/chitosan composite foam.The raw materials used present invention is natural macromolecular material, and good biocompatibility, hot cubical contraction is low, good thermal stability.

Description

A kind of preparation method of nano-cellulose/chitosan composite foam

Technical field

The present invention relates to cellulose composite material field, and in particular to a kind of nano-cellulose/chitosan composite foam Preparation method.

Background technology

At present, conventional foamed material mainly has benzene plate (EPS), polyurethane foam, pearl cotton etc., and foamed material is due to tool There is light, insulation, absorb sound, be shockproof, so as to be widely used in insulation material, acoustic material, packaging material, car and boat housing Deng field.Although these foamed materials have many advantages, such as, because non-renewable raw material, poor biocompatibility and not be present in it The problems such as degradable so that existing foamed material it is more or less manufacture with application process or it is discarded after to natural environment Affect, and then application of the material in some fields is restricted.Cellulose and chitosan are the world respectively Upper first and second big natural reproducible resource, has the advantages that environment-friendly, nontoxic, degradable, and its product can be extensive Applied to fields such as medicine, packaging for foodstuff, biological supports.Nano-cellulose is that the one kind isolated from cellulose resource has Wire, needle-like or the club-shaped material of nanoscale, there is high Young's modulus, high intensity, high-specific surface area and low-thermal-expansion system The advantages that number, can be carried out with some polymer it is compound be prepared into foam or aerogel material, and applied to packing heat-insulated, mistake The fields such as filter.Chitosan has positively charged amino group as a kind of environmental type polymer, can be with nano-cellulose Generation electrostatic adsorption forms Hydrogenbond.

The content of the invention

The Biocompatibilities such as conventional foam, aeroge are poor, quality is more crisp the invention aims to solving and The problem of Chitosan Composites heat endurance is low, and a kind of preparation method of nano-cellulose/chitosan composite foam is provided.

The preparation method of nano-cellulose of the present invention/chitosan composite foam is realized according to the following steps：

First, the biomass material containing cellulose is chemically treated, purifying cellulose is obtained, then to cleaning cellulose Element carries out the fine processing of machinery solution, prepares nano-cellulose aqueous suspension；

2nd, glacial acetic acid and distilled water are mixed, obtains glacial acetic acid solution, then add chitosan, magnetic agitation is uniform, obtains To chitosan mixed solution；

3rd, the nano-cellulose aqueous suspension that step 1 obtains is mixed with the chitosan mixed solution that step 2 obtains, Nano-cellulose/chitosan composite solution is obtained after stirring；

4th, cryogenic freezing processing is carried out at -20 DEG C to nano-cellulose/chitosan composite solution, that is freezed is mixed Close solution；

5th, processing is dried to the mixed solution freezed, obtains nano-cellulose/chitosan composite foam；

The concentration of glacial acetic acid solution wherein described in step 2 is 0.1wt%~4.0wt%, shell in chitosan mixed solution The concentration of glycan is 0.1wt%~5.0wt%.

The present invention prepares nano-cellulose/chitosan composite foam using the methods of freeze-drying, and the nano-cellulose/ Chitosan composite foam is a kind of composite with sheet and tridimensional network, has biocompatibility and larger Porosity, it can be used in Medical rack, sound-absorbing material, while this nano-cellulose/chitosan composite foam is also with less Thermal conductivity and thermal coefficient of expansion, it can be used as heat preserving and insulating material and packaging material for food.

To sum up, nano-cellulose/chitosan composite foam that the present invention is prepared includes advantages below：

1st, it is pure natural boiomacromolecule that the present invention, which prepares cellulose used in composite foam and chitosan, without thin Cellular toxicity and possesses biocompatibility；

2nd, nano-cellulose/chitosan composite foam has low-density (0.006~0.014g/cm^-3), high-specific surface area etc. Feature；

3rd, the thermal conductivity of nano-cellulose of the present invention/chitosan composite foam is 0.03~0.032w/ (mk), heat Cubical contraction is low, and cubical contraction is 3%~10%, can be as a kind of new heat-insulating heat-preserving material；

4th, the obtained nano-cellulose/chitosan composite foam of the present invention be a kind of no cytotoxicity, cell growth without The green compounds of negative interaction, packaging material for food and Biodegradable scaffold can be used as；

Brief description of the drawings

Fig. 1 is the scanning electron microscope (SEM) photograph for nano-cellulose/chitosan composite foam that embodiment one obtains；

Fig. 2 be different quality than nano-cellulose/chitosan composite foam thermal conductivity block diagram.

Embodiment

Embodiment one：The preparation method of present embodiment nano-cellulose/chitosan composite foam presses following step It is rapid to implement：

First, the biomass material containing cellulose is chemically treated, purifying cellulose is obtained, then to cleaning cellulose Element carries out the fine processing of machinery solution, prepares nano-cellulose aqueous suspension；

2nd, glacial acetic acid and distilled water are mixed, obtains glacial acetic acid solution, then add chitosan, magnetic agitation is uniform, obtains To chitosan mixed solution；

3rd, the nano-cellulose aqueous suspension that step 1 obtains is mixed with the chitosan mixed solution that step 2 obtains, Nano-cellulose/chitosan composite solution is obtained after stirring；

4th, cryogenic freezing processing is carried out at -20 DEG C to nano-cellulose/chitosan composite solution, that is freezed is mixed Close solution；

5th, processing is dried to the mixed solution freezed, obtains nano-cellulose/chitosan composite foam；

The concentration of glacial acetic acid solution wherein described in step 2 is 0.1wt%~4.0wt%, shell in chitosan mixed solution The concentration of glycan is 0.1wt%~5.0wt%.

The nano-cellulose that present embodiment obtains after drying process/chitosan composite foam has three-dimensional netted knot Structure, unique fine structure can further improve mechanics, the thermal property of nano-cellulose/chitosan composite foam.Simultaneously The features such as due to possessed green non-poisonous, lightweight, heat-insulated, sound absorption, good biocompatibility, in biological support, insulation material The fields such as material, sound-absorbing material, degradable package material are applied.

Embodiment two：Present embodiment contains fiber from described in step 1 unlike embodiment one The biomass material of element is timber, bamboo wood, cotton, fiber crops, bacteria cellulose or ascidian cellulose.Other steps and parameter with it is specific Embodiment one is identical.

Embodiment three：Present embodiment step 1 unlike embodiment one or two is chemically treated Successively using sodium chlorite solution's processing and alkaline solution treatment.Other steps and parameter are identical with embodiment one or two.

Embodiment four：Described in step 1 unlike one of present embodiment and embodiment one to three The mechanical fine processing of solution is supersound process, high-speed stirred processing, speed lapping processing or high pressure homogenization processing.Other steps and parameter It is identical with one of embodiment one to three.

Embodiment five：Present embodiment supersound process described unlike embodiment four be with 400~2000W 30~40min of Power Processing.Other steps and parameter are identical with embodiment four.

Embodiment six：Step 3 Nanowire unlike one of present embodiment and embodiment one to five It is 0.1%~10.0% to tie up the total mass concentration of nano-cellulose and chitosan in element/chitosan mixed solution.Other steps and Parameter is identical with one of embodiment one to five.

Embodiment seven：Present embodiment and step 3 nano-cellulose/shell unlike embodiment six The total mass concentration of nano-cellulose and chitosan is 4%~8% in glycan mixed solution.Other steps and parameter and specific reality It is identical to apply mode six.

Embodiment eight：Unlike one of present embodiment and embodiment one to seven described in step 5 Drying process be freeze-drying, supercritical drying or critical point drying.Other steps and parameter and embodiment one to One of seven is identical.

Embodiment nine：Step 1 Nanowire unlike one of present embodiment and embodiment one to eight The weight/mass percentage composition for tieing up cellulose in plain aqueous suspension is 0.1%~5%.Other steps and parameter and embodiment one It is identical to one of eight.

Embodiment one：The preparation method of the present embodiment nano-cellulose/chitosan composite foam is implemented according to the following steps：

First, 15g China fir wood powders are chemically treated by sodium chlorite solution and potassium hydroxide solution, obtain pure chemical fiber Dimension element, purifying cellulose is configured to after the aqueous solution to carry out supersound process 30min with 1200W power, preparing mass concentration is 1.0wt% nano-cellulose aqueous suspension；

2nd, glacial acetic acid and distilled water are mixed, obtain the glacial acetic acid solution that concentration is 1.0wt%, then add chitosan, Magnetic agitation is uniform, obtains chitosan mixed solution；

3rd, the nano-cellulose aqueous suspension that step 1 obtains is mixed with the chitosan mixed solution that step 2 obtains, Nano-cellulose/chitosan composite solution that mass concentration is 1.0wt% is obtained after stirring；

4th, cryogenic freezing processing is carried out at -20 DEG C to nano-cellulose/chitosan composite solution, that is freezed is mixed Close solution；

5th, freeze-drying process is carried out to the mixed solution freezed, condenser temperature is -40 DEG C, vacuum 1pa, is dried Time is 50h, obtains nano-cellulose/chitosan composite foam.

The present embodiment step 1 is as follows to the chemical treating process of China fir wood powder：

A, 15g China fir wood powder is added in 1500g distilled water, 15g sodium chlorites and 2mL glacial acetic acid is added, with guarantor Fresh membrane cover upper container, 1h is heated in 75 DEG C of waters bath with thermostatic control, then proceedes to add 15g sodium chlorites and 2ml glacial acetic acid, repeats to add Enter sodium chlorite and glacial acetic acid 5 times, cleaning sample；B, 800g, 5wt% potassium hydroxide are added in the sample after being cleaned to step a Solution, 10h is stood at room temperature, sample 2h is then heated at 90 DEG C；C, clean and drain the material after step b processing, use Weighting method after dried surveys the mass concentration of purifying cellulose.

The concentration of chitosan is 1.0wt% in the chitosan mixed solution of this implementation steps two, step 3 nano-cellulose/shell The solid masses of nano-cellulose and chitosan ratio is 10 in glycan composite solution:90.

The density of the nano-cellulose that the present embodiment obtains/chitosan composite foam is 0.0135g/cm^-3, thermal conductivity is 0.032w/ (mk), hot cubical contraction are 10%, and biocompatibility test cell culture photo shows that cell growth is good, receives Rice Cellulose/Chitosan composite foam no cytotoxicity.

Embodiment two：The present embodiment is carried out from step 1 purifying cellulose unlike embodiment one with 1200W power High pressure homogenization processing is carried out again after being ultrasonically treated 30min, and first class pressure is 80bar and secondary pressure is 400bar, processing 30min。

Embodiment three：The solid matter of the present embodiment and nano-cellulose in step 3 unlike embodiment one and chitosan Amount is than being 45:55.

The density of the nano-cellulose that the present embodiment obtains/chitosan composite foam is 0.0130g/cm^-3, thermal conductivity is 0.031w/ (mk), hot cubical contraction are 8.2%, and biocompatibility test cell culture photo shows that cell growth is good, receives Rice Cellulose/Chitosan composite foam no cytotoxicity.

Example IV：The solid matter of the present embodiment and nano-cellulose in step 3 unlike embodiment one and chitosan Amount is than being 30:70.

The density of the nano-cellulose that the present embodiment obtains/chitosan composite foam is 0.0128g/cm^-3, thermal conductivity is 0.030w/ (mk), hot cubical contraction are 3.7%, and biocompatibility test cell culture photo shows that cell growth is good, receives Rice Cellulose/Chitosan composite foam no cytotoxicity.

Embodiment five：The present embodiment carries out supercritical drying from step 5 unlike embodiment one to the mixed solution freezed Dry processing, the mixed solution freezed is placed in autoclave, CO is passed through at 40 DEG C₂, reach 12MPa to pressure, and 1h is kept, Afterwards under conditions of keeping temperature and pressure, with low discharge Sc CO₂Sample 4h is persistently purged, it is remaining in gel to remove Solvent, pressure is finally released slowly to normal pressure, obtains nano-cellulose/chitosan composite foam.

Embodiment six：The preparation method of the present embodiment nano-cellulose/chitosan composite foam is implemented according to the following steps：

First, China fir wood powder is chemically treated by sodium chlorite solution and potassium hydroxide solution, obtains cleaning cellulose Element, it is configured to carry out supersound process 30min to purifying cellulose with 1200W power after the aqueous solution, preparing mass concentration is 0.5wt% nano-cellulose aqueous suspension；

2nd, glacial acetic acid and distilled water are mixed, obtain the glacial acetic acid solution that concentration is 0.5wt%, then add chitosan, Magnetic agitation is uniform, obtains the chitosan mixed solution that chitosan concentration is 0.5wt%；

3rd, the nano-cellulose aqueous suspension that step 1 obtains is mixed with the chitosan mixed solution that step 2 obtains, Nano-cellulose/chitosan composite solution that mass concentration is 0.5wt% is obtained after stirring；

4th, cryogenic freezing processing is carried out at -20 DEG C to nano-cellulose/chitosan composite solution, that is freezed is mixed Close solution；

5th, freeze-drying process is carried out to the mixed solution freezed, condenser temperature is -40 DEG C, vacuum 1pa, is dried Time is 50h, obtains nano-cellulose/chitosan composite foam.

The solid masses of nano-cellulose and chitosan ratio is 10 in the present embodiment step 3:90.

The density of the nano-cellulose that the present embodiment obtains/chitosan composite foam is 0.0078g/cm^-3, hot volume contraction Rate is 6.5%, and biocompatibility test cell culture photo shows that cell growth is good, nano-cellulose/chitosan compound vacuole Foam no cytotoxicity.

Claims (9)

1. the preparation method of a kind of nano-cellulose/chitosan composite foam, it is characterised in that be to follow these steps to realize：

First, the biomass material containing cellulose is chemically treated, obtains purifying cellulose, then purifying cellulose is entered The fine processing of row machinery solution, prepares nano-cellulose aqueous suspension；

2nd, glacial acetic acid and distilled water are mixed, obtains glacial acetic acid solution, then add chitosan, magnetic agitation is uniform, obtains shell Glycan mixed solution；

3rd, the nano-cellulose aqueous suspension that step 1 obtains is mixed with the chitosan mixed solution that step 2 obtains, stirred Nano-cellulose/chitosan composite solution is obtained after uniformly；

4th, cryogenic freezing processing is carried out at -20 DEG C to nano-cellulose/chitosan composite solution, the mixing freezed is molten Liquid；

5th, processing is dried to the mixed solution freezed, obtains nano-cellulose/chitosan composite foam；

The concentration of glacial acetic acid solution wherein described in step 2 is 0.1wt%~4.0wt%, chitosan in chitosan mixed solution Concentration be 0.1wt%~5.0wt%.

A kind of 2. preparation method of nano-cellulose/chitosan composite foam according to claim 1, it is characterised in that step The biomass material containing cellulose described in rapid one is timber, bamboo wood, cotton, fiber crops, bacteria cellulose or ascidian cellulose.

A kind of 3. preparation method of nano-cellulose/chitosan composite foam according to claim 1, it is characterised in that step A rapid chemical treatment is successively using sodium chlorite solution's processing and alkaline solution treatment.

A kind of 4. preparation method of nano-cellulose/chitosan composite foam according to claim 1, it is characterised in that step The fine processing of mechanical solution described in rapid one is supersound process, high-speed stirred processing, speed lapping processing or high pressure homogenization processing.

A kind of 5. preparation method of nano-cellulose/chitosan composite foam according to claim 4, it is characterised in that institute The supersound process stated is 30~40min of Power Processing with 400~2000W.

A kind of 6. preparation method of nano-cellulose/chitosan composite foam according to claim 1, it is characterised in that step The total mass concentration of nano-cellulose and chitosan is 0.1%~10.0% in rapid three nano-celluloses/chitosan mixed solution.

A kind of 7. preparation method of nano-cellulose/chitosan composite foam according to claim 6, it is characterised in that step The total mass concentration of nano-cellulose and chitosan is 4%~8% in rapid three nano-celluloses/chitosan mixed solution.

A kind of 8. preparation method of nano-cellulose/chitosan composite foam according to claim 1, it is characterised in that step Drying process described in rapid five is freeze-drying, supercritical drying or critical point drying.

A kind of 9. preparation method of nano-cellulose/chitosan composite foam according to claim 1, it is characterised in that step The weight/mass percentage composition of cellulose is 0.1%~5% in rapid nano-cellulose aqueous suspension.