Anastas PT, Warner JC. Green Chemistry: Theory and Practice. New York: Oxford University Press, 1998. 30
Eckert CA. Nature, 1996, 383: 313–318
Zhang S, Sun J, Zhang X, Xin J, Miao Q, Wang J. Chem Soc Rev, 2014, 43: 7838–7869
Xue Z, Zhang J, Peng L, Li J, Mu T, Han B, Yang G. Angew Chem Int Ed, 2012, 51: 12325–12329
Zhang Q, Vigier KDO, Royer S, Jérôme F. Chem Soc Rev, 2012, 41: 7108–7146
Smith EL, Abbott AP, Ryder KS. Chem Rev, 2014, 114: 11060–11082
Zhang S, Sun N, He X, Lu X, Zhang X. J Phys Chem Ref Data, 2006, 35: 1475–1517
Yan C, Mu T. Phys Chem Chem Phys, 2014, 16: 5071–5075
Jiao T, Zhuang X, He H, Zhao L, Li C, Chen H, Zhang S. Green Chem, 2015, 17: 3783–3790
Li Z, Jia Z, Luan Y, Mu T. Curr Opin Solid State Mater Sci, 2008, 12: 1–8
Xue Z, Zhang Z, Han J, Chen Y, Mu T. Int J Greenhouse Gas Control, 2011, 5: 628–633
Zhang X, Zhang X, Dong H, Zhao Z, Zhang S, Huang Y. Energy Environ Sci, 2012, 5: 6668–6681
Hu S, Zhang Z, Song J, Zhou Y, Han B. Green Chem, 2009, 11: 1746–1749
Song J, Fan H, Ma J, Han B. Green Chem, 2013, 15: 2619–2635
van Osch DJGP, Zubeir LF, van den Bruinhorst A, Rocha MA, Kroon MC. Green Chem, 2015, 17: 4518–4521
Cao Y, Mu T. Ind Eng Chem Res, 2014, 53: 8651–8664
Chen Y, Cao Y, Shi Y, Xue Z, Mu T. Ind Eng Chem Res, 2012, 51: 7418–7427
Xue Z, Zhang Y, Zhou X, Cao Y, Mu T. Thermochim Acta, 2014, 578: 59–67
Yan Y, Yin Y, Xin S, Su J, Guo Y, Wan L. Electrochim Acta, 2013, 91: 58–61
Yan Y, Yin Y, Guo Y, Wan L. Sci China Chem, 2014, 57: 1564–1569
Armand M, Endres F, MacFarlane DR, Ohno H, Scrosati B. Nat Mater, 2009, 8: 621–629
Barrosse-Antle LE, Bond AM, Compton RG, O’ Mahony AM, Rogers EI, Silvester DS. Chem-Asian J, 2010, 5: 202–230
Fang Y, Jiang X, Sun X, Dai S. Chem Commun, 2015, 51: 13286–13289
Waldvogel SR, Janza B. Angew Chem Int Ed, 2014, 53: 7122–7123
Luska KL, Migowski P, Leitner W. Green Chem, 2015, 17: 3195–3206
Abbott AP, El Ttaib K, Frisch G, McKenzie KJ, Ryder KS. Phys Chem Chem Phys, 2009, 11: 4269–4277
Wei L, Zhou Z, Chen S, Xu C, Su D, Schuster ME, Sun S. Chem Commun, 2013, 49: 11152–11154
Pawar PM, Jarag KJ, Shankarling GS. Green Chem, 2011, 13: 2130–2134
Phadtare SB, Shankarling GS. Green Chem, 2010, 12: 458–462
Sun S, Niu Y, Xu Q, Sun Z, Wei X. Ind Eng Chem Res, 2015, 54: 8019–8024
Juneidi I, Hayyan M, Hashim MA. RSC Adv, 2015, 5: 83636–83647
Scholz F. Electroanalytical Methods: Guide to Experiments and Applications. Heidelberg: Springer Science & Business Media, 2009
Villagrán C, Banks CE, Hardacre C, Compton RG. Anal Chem, 2004, 76: 1998–2003
O’Mahony AM, Silvester DS, Aldous L, Hardacre C, Compton RG. J Chem Eng Data, 2008, 53: 2884–2891
Navarro-Suárez AM, Hidalgo-Acosta JC, Fadini L, Feliu J, Suárez-Herrera MF. J Phys Chem C, 2011, 115: 11147–11155
Galinski M, Lewandowski A, Stepniak I. Electrochim Acta, 2006, 51: 5567–5580
De Vos N, Maton C, Stevens CV. ChemElectroChem, 2014, 1: 1258–1270
Yoshimoto S, Taguchi R, Tsuji R, Ueda H, Nishiyama K. Electrochem Commun, 2012, 20: 26–28
Appetecchi GB, Montanino M, Zane D, Carewska M, Alessandrini F, Passerini S. Electrochim Acta, 2009, 54: 1325–1332
Rogers EI, Šljukic B, Hardacre C, Compton RG. J Chem Eng Data, 2009, 54: 2049–2053
Zhou ZB, Matsumoto H, Tatsumi K. Chem-Eur J, 2004, 10: 6581–6591
Freire MG, Neves CMSS, Carvalho PJ, Gardas RL, Fernandes AM, Marrucho IM, Coutinho JA. J Phys Chem B, 2007, 111: 13082–13089
Noack K, Schulz PS, Paape N, Kiefer J, Wasserscheid P, Leipertz A. Phys Chem Chem Phys, 2010, 12: 14153–14161
Xiao L, Johnson KE. J Electrochem Soc, 2003, 150: 307–311
Kroon MC, Buijs W, Peters CJ, Witkamp GJ. Green Chem, 2006, 8: 241–245
Greaves TL, Weerawardena A, Fong C, Krodkiewska I, Drummond CJ. J Phys Chem B, 2006, 110: 22479–22487
Tian Y, Goff GS, Runde WH, Batista ER. J Phys Chem B, 2012, 116: 11943–11952
Cao Y, Chen Y, Sun X, Zhang Z, Mu T. Phys Chem Chem Phys, 2012, 14: 12252–12262
Schroder U, Wadhawan JD, Compton RG, Marken F, Suarez PA, Consorti CS, Dupont J. New J Chem, 2000, 24: 1009–1015
