原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2014年
2期
228-233
,共6页
杨桂霞%伍晓利%俞祥忠%李宗军%安友%李晓燕%孙国芳
楊桂霞%伍曉利%俞祥忠%李宗軍%安友%李曉燕%孫國芳
양계하%오효리%유상충%리종군%안우%리효연%손국방
天然高分子%水凝胶%交联%溶胀率%Cr(Ⅵ)
天然高分子%水凝膠%交聯%溶脹率%Cr(Ⅵ)
천연고분자%수응효%교련%용창솔%Cr(Ⅵ)
nature polymer%hydrogel%cross-linking%swelling ratio%Cr(Ⅵ)
采用辐射法合成了明胶/羧甲基纤维素钠(CMC-Na)/聚乙烯吡咯烷酮(PVP)水凝胶,利用索氏提取器、紫外-可见分光光度计以及原子光谱仪分别对其溶胀性、pH值敏感性、凝胶含量及其对Cr(Ⅵ)的吸附性能进行了测试分析。在剂量率约为83 Gy/min ,吸收剂量为15、25、35和45 kGy条件下,明胶/CMC-Na/PVP质量比为4∶1∶2、4∶1∶5和2∶1∶5的明胶/CMC-Na/PVP水溶液经辐照均能交联合成水凝胶。在高纯水中,该类水凝胶溶胀率分布于11~56之间;在p H=1的高氯酸溶液中,所有凝胶的溶胀率较之水溶液中均有所下降,说明这类水凝胶对pH值敏感。不同原料比例生成的水凝胶,其溶胀率并未随吸收剂量的增大而呈现出明显的增加。比例为4∶1∶5的水凝胶溶胀性能最为优良,其溶胀率最大值为56。合成的明胶/CMC-Na/PVP水凝胶可在1个月内完全腐化分解,说明在PVP中添加明胶和CMC-Na后,引入了天然高分子材料优良的降解性能,加速了凝胶分解,缩短了降解时间。同时,发现该类凝胶具有极强的吸C r (Ⅵ)能力,可达0.539 g/g。
採用輻射法閤成瞭明膠/羧甲基纖維素鈉(CMC-Na)/聚乙烯吡咯烷酮(PVP)水凝膠,利用索氏提取器、紫外-可見分光光度計以及原子光譜儀分彆對其溶脹性、pH值敏感性、凝膠含量及其對Cr(Ⅵ)的吸附性能進行瞭測試分析。在劑量率約為83 Gy/min ,吸收劑量為15、25、35和45 kGy條件下,明膠/CMC-Na/PVP質量比為4∶1∶2、4∶1∶5和2∶1∶5的明膠/CMC-Na/PVP水溶液經輻照均能交聯閤成水凝膠。在高純水中,該類水凝膠溶脹率分佈于11~56之間;在p H=1的高氯痠溶液中,所有凝膠的溶脹率較之水溶液中均有所下降,說明這類水凝膠對pH值敏感。不同原料比例生成的水凝膠,其溶脹率併未隨吸收劑量的增大而呈現齣明顯的增加。比例為4∶1∶5的水凝膠溶脹性能最為優良,其溶脹率最大值為56。閤成的明膠/CMC-Na/PVP水凝膠可在1箇月內完全腐化分解,說明在PVP中添加明膠和CMC-Na後,引入瞭天然高分子材料優良的降解性能,加速瞭凝膠分解,縮短瞭降解時間。同時,髮現該類凝膠具有極彊的吸C r (Ⅵ)能力,可達0.539 g/g。
채용복사법합성료명효/최갑기섬유소납(CMC-Na)/취을희필각완동(PVP)수응효,이용색씨제취기、자외-가견분광광도계이급원자광보의분별대기용창성、pH치민감성、응효함량급기대Cr(Ⅵ)적흡부성능진행료측시분석。재제량솔약위83 Gy/min ,흡수제량위15、25、35화45 kGy조건하,명효/CMC-Na/PVP질량비위4∶1∶2、4∶1∶5화2∶1∶5적명효/CMC-Na/PVP수용액경복조균능교연합성수응효。재고순수중,해류수응효용창솔분포우11~56지간;재p H=1적고록산용액중,소유응효적용창솔교지수용액중균유소하강,설명저류수응효대pH치민감。불동원료비례생성적수응효,기용창솔병미수흡수제량적증대이정현출명현적증가。비례위4∶1∶5적수응효용창성능최위우량,기용창솔최대치위56。합성적명효/CMC-Na/PVP수응효가재1개월내완전부화분해,설명재PVP중첨가명효화CMC-Na후,인입료천연고분자재료우량적강해성능,가속료응효분해,축단료강해시간。동시,발현해류응효구유겁강적흡C r (Ⅵ)능력,가체0.539 g/g。
The hydrogels based on gelatine cross-linked with sodium carboxymethyl cellulose (CMC-Na) and polyvinylpyrrolidone (PVP) were synthesized through 60 Co γ-ray irradiation , and the swelling ability , pH-sensitivity , gelatine fraction and the absorbing ability of Cr were measured by the Soxhlet extraction device , Uv-vis spectrophotometer and atomic absorption spectrometer , respectively . The result indicates that it is easy to synthesize hydrogels of gelatine/CMC-Na/PVP with monomer mass proportions of 4∶1∶2 ,4∶1∶5 and 2∶1∶5 at the absorbed doses of 15 ,25 ,35 and 45 kGy at the dose rate of 83 Gy/min ,respectively .It shows that the swelling behavior of hydrogels becomes different w hen either the monomer proportion of raw materials or the absorbed doses vary .The swelling ratio (SR) of hydrogels can be up to 56 at pH= 7 ,w hile the minimal value is 7 at pH =1 ,w hich indicates that the SR of hydrogel is sensitive to pH . The hydrogel of PVP will not be degraded after many years ,but the hydrogels of gelatine/CMC-Na/PVP will be degraded within one month . It indicates that the degradation of hydrogels can be accelerated as the nature polymer can be degraded into the hydrogels .The adsorptive capacity of Cr (Ⅵ) is up to 0.539 g/g .
