4.結論

上述討論表(biao)明(ming)(ming)，溶(rong)菌(jun)酶(mei)(mei)的(de)(de)存(cun)在(zai)(zai)改變了所(suo)有三種表(biao)面(mian)(mian)活性(xing)(xing)(xing)(xing)(xing)劑的(de)(de)cmc，在(zai)(zai)純陽離子（即(ji)CTAB）和陰離子（即(ji)SDBS）表(biao)面(mian)(mian)活性(xing)(xing)(xing)(xing)(xing)劑以(yi)及溶(rong)菌(jun)酶(mei)(mei)存(cun)在(zai)(zai)的(de)(de)情(qing)況下，cmc值隨(sui)溫度(du)升高(gao)而增(zeng)加(jia)。 在(zai)(zai)非離子表(biao)面(mian)(mian)活性(xing)(xing)(xing)(xing)(xing)劑（即(ji)TX-100）的(de)(de)情(qing)況下，cmc值降低。 如(ru)果(guo)(guo)使用離子表(biao)面(mian)(mian)活性(xing)(xing)(xing)(xing)(xing)劑，與CTAB相比，SDBS的(de)(de)Γmax值下降更(geng)多(duo)，這表(biao)明(ming)(ming)SDBS和溶(rong)菌(jun)酶(mei)(mei)之間形成的(de)(de)復合物(wu)比CTAB和溶(rong)菌(jun)酶(mei)(mei)更(geng)有利(li)。 Amin值以(yi)與Γmax相反(fan)的(de)(de)趨勢增(zeng)加(jia)。TX-100的(de)(de)Gmin值較小，這表(biao)明(ming)(ming)TX-100在(zai)(zai)溶(rong)菌(jun)酶(mei)(mei)存(cun)在(zai)(zai)的(de)(de)情(qing)況下強烈吸(xi)附在(zai)(zai)表(biao)面(mian)(mian)上。 關于接觸角的(de)(de)結(jie)果(guo)(guo)表(biao)明(ming)(ming)，在(zai)(zai)溶(rong)菌(jun)酶(mei)(mei)存(cun)在(zai)(zai)下，非離子表(biao)面(mian)(mian)活性(xing)(xing)(xing)(xing)(xing)劑（TX-100）比離子表(biao)面(mian)(mian)活性(xing)(xing)(xing)(xing)(xing)劑（SDBS/CTAB）對(dui)PMMA的(de)(de)潤濕性(xing)(xing)(xing)(xing)(xing)更(geng)強。

致謝

Rajan Patel博士非常(chang)感(gan)謝(xie)(xie)印度新德里(li)科(ke)學(xue)與工(gong)程研究委(wei)員會和大學(xue)資助委(wei)員會的(de)(de)財政支持，批準令編號(hao)分別為SB/EMEQ-097/2013和F.39-841/2010（SR）。 Abbul Bashar Khan博士還感(gan)謝(xie)(xie)新德里(li)科(ke)學(xue)和工(gong)程研究委(wei)員會（SEB）提供(gong)了第號(hao)批準令（SB/FT/CS-031/2013）的(de)(de)研究資助。

工具書(shu)類

[1] Lee-Huang S., Huang P., Sun Y. et al.: Proc. Nat. Acad. Sci. U.S.A., 1999, 96, 2678.

[2] Jash C., Payghan P., Ghoshal N. et al.: J. Phys. Chem. B, 2014, 118, 13077.

[3] Huang S., Maiorov V., Huang P. et al.: Biochemistry, 2005, 44, 4648.

[4] Derdea M., Naua F., Guerin-Dubiarda C. et al.: Biochim. Biophys. Acta, 2015, 1848, 1065.

[5] Carrillo W., Garcia-Ruiz A., Recio I. et al.: J. Food Protect., 2014, 10, 1732.

[6] Goddard E.: Interactions of Surfactants with Polymers and Proteins. CRC Press, 1993.

[7] Howarter J., Genson K. and Youngblood J.: Appl. Mater. Inter., 2011, 3, 2022.

[8] Kosior D., Zawala J., Niecikowska A. et al.: Colloids Surfaces A, 2015, 470, 333.

[9] Szymczyk K., Zdziennicka A. Janczuk B. et al.: J. Colloid Interface Sci., 2006, 293, 172.

[10] Szymczyk K., Zdziennicka A. and Krawczyk J.: Appl. Surf. Sci., 2014, 288, 488.

[11] Szymczyk K., Zdziennicka A. and Janczuk B.: Mater. Chem. Phys., 2015, 162, 166.

[12] Paria S., Biswal N. and Chaudhuri R.: Soft Matter: Synth., Proc., Products, 2015, 61, 655.

[13] Zdziennicka A., Janczuk B. and Wojcik W.: J. Colloid Interface Sci., 2005, 281, 465.

[14] Hobett T. and Schway M.: J. Biomed. Mater. Res., 1988, 22, 751.

[15] Liu Y., Huglin M., Mao R. et al.: Polymer, 1996, 37, 5069.

[16] Muratore L. and Davis T.: J. Polym. Sci. A, 2000, 38, 810.

[17] Peppas N., Huang Y., Lugo M. et al.: Ann. Rev. Biomed. Eng., 2000, 2, 9.

[18] Das N., Pawar L., Kumar N. et al.: Chem. Phys. Lett., 2015, 635, 50.

[19] Hierrezuelo J., Nieto-Ortega B. and Ruiz C.: J. Lumin., 2014, 147, 15.

 [20] Misra P., Dash U. and Maharana S.: Colloids Surf. A, 2015, 483, 36.

[21] Ruiz-Pena M., Oropesa-Nunez R., Pons T. et al.: Colloids Surf. B, 2010, 75, 282.

[22] Kumari M., Maurya J., Tasleem M. et al.: J. Photochem. Photobiol. B, 2014, 138, 27.

[23] Kresheck G. and Franks F.: Water. Plenum, New York 1975.

[24] Menguro K., Takasawa Y., Kawahashi N. et al.: Colloid Interface Sci., 1981, 83, 50. 

[25] Kabir-ud-Din, Rub M. and Naqvi A.: J. Phys. Chem. B, 2010, 114, 6354.

[26] Rub M., Asiri A. and Naqvi A.: J. Mol. Liq., 2013, 177, 19.

[27] Sharma R., Mahajan S. and Mahajan R.: Fluid Phase Equilib., 2014, 361, 104.

[28] Pradines V., Kragel J., Fainerman V. et al.: J. Phys. Chem. B, 2009, 113, 745.

[29] Chattoraj D. and Biridi K.: Adsorption and Gibbs Surface Excess. Plenum, New York 1984.

[30] Rosen M., Chosen A., Dahanayaki M. et al.: J. Phys. Chem., 1982, 86, 541.

[31] Sansanwal P.: J. Sci. Ind. Res., 2006, 65, 57.

[32] Sugihara G., Miyazono A., Nagadome S. et al.: J. Oleo Sci., 2003, 52, 449.

[33] Rosen M. and Aronson S.: Colloids Surf. A, 1981, 3, 201.

[34] Rosen M.: Comparative Effects of Chemical Structure and Environment on the Adsorption of Surfactants at the L/A Interface and on Micellization[in:] Mittal K. (Ed.), Solution Chemistry of Surfactants. Plenum, New York 1979, 45-61.

[35] Rosen M., Cohen A., Dahanayake M. et al.: J. Phys. Chem., 1982, 86, 541.

[36] Chaudhuri R. and Paria S.: J. Colloid Interface Sci., 2009, 337, 555.

[37] Bogdanowa G., Dolzhikova V. et al.: Colloid J., 2003, 65, 290.

陽離子、陰離子的界面潤濕行為——摘要、介紹

陽離子、陰離子的界面潤濕行為——實驗材料和方法

陽離子、陰離子的界面潤濕行為——結果和討論

陽離子、陰離子的界面潤濕行為——結論、致謝！