原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2013年
12期
2380-2383
,共4页
水热碳化技术%炭球%葡萄糖
水熱碳化技術%炭毬%葡萄糖
수열탄화기술%탄구%포도당
hydrothermal carbonization process%carbon sphere%glucose
以葡萄糖为原料,采用水热碳化技术,制备了富含含氧官能团的水热炭球,并采用SEM 和 FTIR等技术手段对产物的表面形貌和表面官能团结构进行了表征。结果表明:水热炭球的尺寸受葡萄糖溶液浓度、反应温度和有机单体的掺杂等因素影响较大,制得的炭球表面存在丰富的含氧官能团,使其具有良好的亲水性和化学活性。
以葡萄糖為原料,採用水熱碳化技術,製備瞭富含含氧官能糰的水熱炭毬,併採用SEM 和 FTIR等技術手段對產物的錶麵形貌和錶麵官能糰結構進行瞭錶徵。結果錶明:水熱炭毬的呎吋受葡萄糖溶液濃度、反應溫度和有機單體的摻雜等因素影響較大,製得的炭毬錶麵存在豐富的含氧官能糰,使其具有良好的親水性和化學活性。
이포도당위원료,채용수열탄화기술,제비료부함함양관능단적수열탄구,병채용SEM 화 FTIR등기술수단대산물적표면형모화표면관능단결구진행료표정。결과표명:수열탄구적척촌수포도당용액농도、반응온도화유궤단체적참잡등인소영향교대,제득적탄구표면존재봉부적함양관능단,사기구유량호적친수성화화학활성。
With glucose as starting material ,hydrocarbon sphere which was rich in oxygen containing functional groups was synthesized by hydrothermal carbonization process ,and characterized by SEM and FTIR techniques .The results show that the size and dispersion of carbon spheres depend on many factors ,including the concentration of glucose ,the reaction temperature and the adulterated organic monomer .The obtained hydrocarbon spheres contain rich functional groups w hich can greatly improve the hydrophilicity and chemical reactivity .
