功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
9期
9038-9042
,共5页
林俭锋%苏叶%肖静%夏启斌%赵祯霞%李忠
林儉鋒%囌葉%肖靜%夏啟斌%趙禎霞%李忠
림검봉%소협%초정%하계빈%조정하%리충
CO2 吸附%水蒸气%吸附性%Mg-MOF-74%改性%氨水
CO2 吸附%水蒸氣%吸附性%Mg-MOF-74%改性%氨水
CO2 흡부%수증기%흡부성%Mg-MOF-74%개성%안수
CO2%water vapor%adsorption%Mg-MOF-74%modification%ammonia
采取了水热法合成 Mg-MOF-74晶体,然后提出应用氨水对Mg-MOF-74晶体材料进行表面改性制得NH3@Mg-MOF-74,并对改性后的材料进行了表征以及吸附CO2和水蒸气性能测定.结果表明,与原始的Mg-MOF-74晶体相比,改性后的 NH3@Mg-MOF-74材料其比表面积变小了,但其单位比表面积对 CO2的吸附容量却增加了.尤其是在 P/P0<0.0010压力范围内,其 CO2吸附容量明显提高.在低压条件下它对CO2的吸附容量达到0.66 mmol/g,比原始的Mg-MOF-74晶体材料的吸附量提高了65%.水蒸气吸附实验结果表明,NH3@Mg-MOF-74的水蒸气吸附量明显低于 Mg-MOF-74的吸附量,在相对湿度RH=10%时,NH3@Mg-MOF-74对水蒸气的吸附容量降低了50%.表明它的憎水性能得到提高.
採取瞭水熱法閤成 Mg-MOF-74晶體,然後提齣應用氨水對Mg-MOF-74晶體材料進行錶麵改性製得NH3@Mg-MOF-74,併對改性後的材料進行瞭錶徵以及吸附CO2和水蒸氣性能測定.結果錶明,與原始的Mg-MOF-74晶體相比,改性後的 NH3@Mg-MOF-74材料其比錶麵積變小瞭,但其單位比錶麵積對 CO2的吸附容量卻增加瞭.尤其是在 P/P0<0.0010壓力範圍內,其 CO2吸附容量明顯提高.在低壓條件下它對CO2的吸附容量達到0.66 mmol/g,比原始的Mg-MOF-74晶體材料的吸附量提高瞭65%.水蒸氣吸附實驗結果錶明,NH3@Mg-MOF-74的水蒸氣吸附量明顯低于 Mg-MOF-74的吸附量,在相對濕度RH=10%時,NH3@Mg-MOF-74對水蒸氣的吸附容量降低瞭50%.錶明它的憎水性能得到提高.
채취료수열법합성 Mg-MOF-74정체,연후제출응용안수대Mg-MOF-74정체재료진행표면개성제득NH3@Mg-MOF-74,병대개성후적재료진행료표정이급흡부CO2화수증기성능측정.결과표명,여원시적Mg-MOF-74정체상비,개성후적 NH3@Mg-MOF-74재료기비표면적변소료,단기단위비표면적대 CO2적흡부용량각증가료.우기시재 P/P0<0.0010압력범위내,기 CO2흡부용량명현제고.재저압조건하타대CO2적흡부용량체도0.66 mmol/g,비원시적Mg-MOF-74정체재료적흡부량제고료65%.수증기흡부실험결과표명,NH3@Mg-MOF-74적수증기흡부량명현저우 Mg-MOF-74적흡부량,재상대습도RH=10%시,NH3@Mg-MOF-74대수증기적흡부용량강저료50%.표명타적증수성능득도제고.
In this work,Mg-MOF-74 crystals were synthesized by hydrothermal synthesis method,and then modified by ammonia aqueous solutions of different concentrations to obtain the modified materials NH3@Mg-MOF-74.The CO2 and water vapor isotherms on the NH3@Mg-MOF-74 were determined by means of gravity method.Results show that the specific surface area of the modified materials NH3@Mg-MOF-74 became smal-ler,but their CO2 adsorption capacities on per unit surface area of adsorbent became significantly higher com-pared to Mg-MOF-74.Especially at P/P0 below 0.0010,the CO2 adsorption capacity of NH3@Mg-MOF-74-2#reached 0.66 mmol/g,having an increase of 65% in comparison with the original material Mg-MOF-74.In addi-tion,the amount adsorbed of water vapor on the modified materials for were greatly decreased.e.g.,the adsorp-tion capacity of the NH3@Mg-MOF-74-1# for water vapor was reduced by 50% at RH=10%,suggesting that its hydrophobic property was improved significantly.
