Comparison of electrochemical properties of two-component C60-Pd polymers formed under electrochemical conditions and by chemical synthesis

Springer Science and Business Media LLC - Tập 17 - Trang 1233-1245 - 2013

Ewa Brancewicz¹, Emilia Grądzka¹, Krzysztof Winkler¹

¹Institute of Chemistry, University of Bialystok, Bialystok, Poland

Tóm tắt

The electrochemical behavior of C60-Pd polymer formed under electrochemical conditions and by the chemical synthesis was examined. In these polymers, fullerene moieties are covalently bonded to palladium atoms to form a polymeric network. Both materials deposited at the electrode surface show electrochemical activity at negative potentials due to the reduction of fullerene cage. Electrochemically formed thin polymeric films exhibit much more reversible voltammetric response in comparison to chemically synthesized polymers. The morphology and electrochemical behavior of chemically synthesized C60-Pd polymer depend on the composition of grown solution. Chemical polymerization results in formation of large, ca. 50 μm, crystallic superficial structures that are composed of regular spherical particles with a diameter of 150 nm. The capacitance properties of C60-Pd films were investigated by cyclic voltammetry and faradaic impedance spectroscopy. Specific capacitance of chemically formed films depends on the conditions of film formation. The best capacitance properties was obtained for films containing 1:3 fullerene to Pd molar ratio. For these films, specific capacitance of 35 Fg−1 was obtained in acetonitrile containing (n-C4H9)4NClO4. This value is much lower in comparison to the specific capacitance of electrochemically formed C60-Pd film.

Tài liệu tham khảo

Frackowiak E, Beguin F (2002) Carbon 40:1775–1787 Jurewicz K, Delpeux S, Bertagna V, Beguin F, Frackowiak E (2001) Chem Phys Lett 347:36–40 Zhang Y, Feng H, Wu X, Wang L, Zhang A, Xia T, Dong H, Li X, Zhang L (2009) Int J Hydrogen Energy 34:4889–4899 Ryu KS, Lee YG, Hong YS, Park YJ, Wu X, Kim KM, Kang MG, Park NG, Chang SH (2004) Electrochim Acta 50:843–847 Fan LZ, Maier J (2006) Electrochem Commun 8:937–940 Kim BC, Ko JM, Wallace GG (2008) J Power Sources 177:665–668 Kim BC, Kwon JS, Ko JM, Park JH, Too CO, Wallace GG (2010) Synth Met 160:94–98 Zhai Y, Dou Y, Zhao D, Fulvio PF, Mayes RT, Dai S (2011) Adv Mater 23:4828–4850 Inamdar AI, Kim YS, Sohn JS, Im H, Kim H, Kim DY, Kalubarme RS, Park C (2011) Journal of the Korean Physical Society 59:145–149 Sivaraman P, Kushwaha RK, Shashidhara K, Hande VR, Thakur AP, Samui AB, Khandpekar MM (2010) Electrochim Acta 55:2451–2456 Plesu N, Kellenberger A, Mihali M, Vaszilcsin N (2010) J Non-Cryst Solids 356:1081–1088 Liu J, Zhou M, Fan LZ, Li P, Qu X (2010) Electrochim Acta 55:5819–5822 Warren MR, Madden JD (2006) Synth Met 156:724–730 Marchesi LFQP, Simões FR, Pocrifka LA, Pereira EC (2011) J Phys Chem B 115:9570–9575 Sharma RK, Rastogi AC, Desu SB (2008) Electrochem Commun 10:268–272 Dubal DP, Lee SH, Kim JG, Kim WB, Lokhande CD (2012) J Mater Chem 22:3044–3052 Song HK, Palmore GTR (2006) Adv Mater 18:1764–1768 Gnanakan SRP, Rajasekhar M, Subramania A (2009) Int J Electrochem Sci 4:1289–1301 Liu L, Tian F, Wang X, Yang Z, Zhou M, Wang X (2012) React Funct Polym 72:45–49 Suarez-Herrera MF, Feliu JM (2009) J Phys Chem B 113:1899–1905 Oh KW, Park HJ, Kim SH (2004) J Appl Polym Sci 91:3659–3666 Moraes SR, Huerta-Vilca D, Motheo AJ (2004) Eur Polym J 40:2033–2041 Bazzaoui M, Martins L, Bazzaoui EA, Martins JI (2002) Electrochim Acta 47:2953–2962 Tourillon G, Garnier F (1982) J Electroanal Chem 135:173–178 Yamamoto T, Sanechika K, Yamamoto A (1980) J Polym Sci Polym Phys 30:19–24 Frackowiak E, Khomenko V, Jurewicz K, Lota K, Béguin F (2006) J Power Sources 153:413–418 Laridjani M, Pouget JP, Scherr EM, MacDiarmid AG, Jozefowicz ME, Epstein AJ (1992) Macromolecules 25:4106–4113 Kinlen PJ, Liu J, Ding Y, Graham CR, Remsen EE (1998) Macromolecules 31:1735–1744 Echegoyen L, Echegoyen LE (1998) Acc Chem Res 31:593–601 Xie Q, Pérez-Cordero E, Echegoyen L (1992) J Am Chem Soc 114:3978–3980 Yanilkin VV, Gubskaya VP, Morozov VI, Nastapova NV, Zverev VV, Berdnikov EA, Nuretdinov IA (2003) Russ J Electrochem 39:1285–1303 Giacalone F, Martin N (2006) Chem Rev 106:5136–5190 Winkler K, Balch AL, Kutner W (2006) J Solid State Electrochem 10:761–784 Winkler K, Balch AL (2006) C R Chimie 9:928–943 Benincori T, Brenna E, Sannicolo F, Trimarco L, Zotti G, Sozzani P (1996) Angew Chem Int Ed Engl 35:648–651 Cravino A, Zerza G, Neugebauer H, Maggini M, Bucella S, Menna E, Svensson M, Andersson MR, Brabec CJ, Sariciftici NS (2002) J Phys Chem B 106:70–76 Carvino A, Sarciftici NS (2002) J Mater Chem 12:1931–1943 Cravino A, Zerza G, Maggini M, Bucella S, Svensson M, Andersson M R, Neugebauer H, Sariciftici NS (2000) Chem Commun 2487–2488 Cravino A, Zerza G, Neugebauer H, Bucella S, Maggini M, Menna E, Scorrano G, Svensson M, Andersson MR, Sariciftici NS (2001) Synth Met 121:1555–1556 Anderson HL, Boudou C, Diederich F, Gisselbrecht JP, Gross M, Seiler P (1994) Angew Chem Int Ed Engl 33:1628–1632 Fedurco M, Costa DA, Balch AL, Fawcett WR (1995) Angew Chem Int Ed Engl 34:194–196 Winkler K, Costa DA, Balch AL, Fawcett WR (1995) J Phys Chem 99:17431–17436 Winkler K, Costa DA, Fawcett WR, Balch AL (1997) Adv Mater 9:153–156 Krinichnaya EP, Moravsky AP, Efimov O, Sobczak JW, Winkler K, Kutner W, Balch AL (2005) J Mater Chem 15:1468–1476 Balch AL, Costa DA, Winkler K (1998) J Am Chem Soc 120:9614–9620 Winkler K, de Bettencourt-Dias A, Balch AL (1999) Chem Mater 11:2265–2273 Winkler K, Noworyta K, Kutner W, Balch AL (2000) J Electrochem Soc 147:2597–2603 Winkler K, de Bettencourt-Dias A, Balch AL (2000) Chem Mater 12:1386–1392 Winkler K, Noworyta K, de Bettencourt-Dias A, Sobczak JW, Wu CT, Chen LC, Kutner W, Balch AL (2003) J Mater Chem 13:518–525 Hayashi A, de Bettencourt-Dias A, Winkler K, Balch AL (2002) J Mater Chem 12:2116–2122 Plonska ME, de Bettencourt-Dias A, Balch AL, Winkler K (2003) Chem Mater 15:4122–4131 Plonska ME, Makar A, Winkler K, Balch AL (2004) Pol J Chem 78:1431–1447 Winkler K, Plonska-Brzezinska ME, Gadde S, D’Souza F, Balch AL (2006) Electroanalysis 18:841–848 Wysocka-Żołopa M, Winkler K, Caballero R, Langa F (2011) Electrochim Acta 56:5566–5574 Nagashima H, Nakaoka A, Saito Y, Kato M, Kawanishi T, Lotha K (1992) J Chem Soc Chem Commun 377–379 Nagashima H, Yamaguchi H, Kato Y, Saito Y, Haga M A, Itoh K (1993) Chem Lett 22:2153–2156 Winkler K, Grodzka E, D’Souza F, Balch AL (2007) J Electrochem Soc 154:K1–K10 Grodzka E, Nieciecka M, Winkler K (2008) J Solid State Electrochem 12:215–223 Jehoulet C, Obeng YS, Kim YT, Zhou F, Bard AJ (1992) J Am Chem Soc 114:4237–4247 Xu F, Zheng G, Wu D, Liang Y, Li Z, Fu R (2010) Phys Chem Chem Phys 12:3270–3275 Ren X, Pickup PGJ (1992) J Electrochem Soc 139:2097–2105

Scholar Hub - Công cụ hỗ trợ trích dẫn và phân tích khoa học Việt Nam

Về chúng tôi

Scholar Hub là công cụ hỗ trợ trích dẫn và phân tích các bài báo, công bố khoa học Việt Nam. Công cụ trợ giúp người nghiên cứu, tạp chí, đơn vị nghiên cứu tra cứu, phân tích và thống kê dữ liệu nghiên cứu khoa học tại Việt Nam và quốc tế.
ScholarHub KHÔNG đăng thông tin tổng hợp, KHÔNG đăng lại nội dung từ các trang báo chí Việt Nam hoặc trang thông tin điện tử khác tại Việt Nam.

Thông tin, cập nhật

Đăng ký Tạp chí tham gia vào Scholar Hub

Phản hồi ý kiến về Scholar Hub

Bài viết, nội dung cập nhật

Chủ đề khoa học

Website liên kết

Phần mềm kiểm tra trùng lặp Kiểm Tra Tài Liệu

Phần mềm xuất bản tạp chí điện tử VOJS

Công cụ kiểm tra chính tả và thể thức Viver

Nền tảng trắc nghiệm và đề thi đa lĩnh vực LetQA