Rational design and microwave-assisted synthesis of a novel terthiophene derivative for facile preparation of binder-free polymer/metal oxide-based binary composite electrodes with high electrochemical performance
In this study, a simple and effective method was presented for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. The novel electropolymerizable thiophene monomer, 3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (SDOGA), was specifically desi...
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Published in | New journal of chemistry Vol. 46; no. 13; pp. 6134 - 6149 |
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Main Authors | , |
Format | Journal Article |
Language | English |
Published |
CAMBRIDGE
Royal Soc Chemistry
28.03.2022
Royal Society of Chemistry |
Subjects | |
Online Access | Get full text |
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Abstract | In this study, a simple and effective method was presented for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. The novel electropolymerizable thiophene monomer, 3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (SDOGA), was specifically designed to fabricate homogeneous and chemically stable redox-active composite electrodes for pseudocapacitor applications. Poly(3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (PSDOGA) was electrochemically deposited on stainless steel substrates and modified with TiO
2
and V
2
O
5
particles
via
a simple, efficient and low-cost process without any polymeric binder. Cyclic voltammetry (CV), galvanostatic charge/discharge (GCD) and electrochemical impedance spectroscopy (EIS) techniques were used to study the pseudocapacitive properties of PSDOGA/TiO
2
and PSDOGA/V
2
O
5
binder-free binary composites in both three-electrode and two-electrode cell configurations. PSDOGA/TiO
2
and PSDOGA/V
2
O
5
composites delivered high specific capacitances of 396.4 Fg
−1
and 444.5 Fg
−1
, respectively, at 2.5 mA cm
−2
current density in single electrode measurements. Symmetrical supercapacitor devices assembled by using PSDOGA/TiO
2
and PSDOGA/V
2
O
5
binder-free binary composite electrodes exhibited satisfactory energy (78 W h kg
−1
and 94.8 W h kg
−1
) and power (700 W kg
−1
and 736 W kg
−1
) densities with good charge/discharge characteristics at a large operating voltage of 1.85 V. Furthermore, symmetric type supercapacitor cells achieved an excellent capacitance retention of 87% and 90% for 12 500 consecutive galvanic charge/discharge cycles at a constant current density of 2.5 mA cm
−2
. The experimental results revealed that the cooperation between conducting polymer film and metal oxide particles not only greatly enhanced the capacitive performances, but also improved the long-term charge/discharge stability of the redox-active electrode materials.
A simple and effective approach was reported for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. |
---|---|
AbstractList | In this study, a simple and effective method was presented for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. The novel electropolymerizable thiophene monomer, 3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (SDOGA), was specifically designed to fabricate homogeneous and chemically stable redox-active composite electrodes for pseudocapacitor applications. Poly(3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (PSDOGA) was electrochemically deposited on stainless steel substrates and modified with TiO
2
and V
2
O
5
particles
via
a simple, efficient and low-cost process without any polymeric binder. Cyclic voltammetry (CV), galvanostatic charge/discharge (GCD) and electrochemical impedance spectroscopy (EIS) techniques were used to study the pseudocapacitive properties of PSDOGA/TiO
2
and PSDOGA/V
2
O
5
binder-free binary composites in both three-electrode and two-electrode cell configurations. PSDOGA/TiO
2
and PSDOGA/V
2
O
5
composites delivered high specific capacitances of 396.4 Fg
−1
and 444.5 Fg
−1
, respectively, at 2.5 mA cm
−2
current density in single electrode measurements. Symmetrical supercapacitor devices assembled by using PSDOGA/TiO
2
and PSDOGA/V
2
O
5
binder-free binary composite electrodes exhibited satisfactory energy (78 W h kg
−1
and 94.8 W h kg
−1
) and power (700 W kg
−1
and 736 W kg
−1
) densities with good charge/discharge characteristics at a large operating voltage of 1.85 V. Furthermore, symmetric type supercapacitor cells achieved an excellent capacitance retention of 87% and 90% for 12 500 consecutive galvanic charge/discharge cycles at a constant current density of 2.5 mA cm
−2
. The experimental results revealed that the cooperation between conducting polymer film and metal oxide particles not only greatly enhanced the capacitive performances, but also improved the long-term charge/discharge stability of the redox-active electrode materials.
A simple and effective approach was reported for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. In this study, a simple and effective method was presented for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. The novel electropolymerizable thiophene monomer, 3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (SDOGA), was specifically designed to fabricate homogeneous and chemically stable redox-active composite electrodes for pseudocapacitor applications. Poly(3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (PSDOGA) was electrochemically deposited on stainless steel substrates and modified with TiO 2 and V 2 O 5 particles via a simple, efficient and low-cost process without any polymeric binder. Cyclic voltammetry (CV), galvanostatic charge/discharge (GCD) and electrochemical impedance spectroscopy (EIS) techniques were used to study the pseudocapacitive properties of PSDOGA/TiO 2 and PSDOGA/V 2 O 5 binder-free binary composites in both three-electrode and two-electrode cell configurations. PSDOGA/TiO 2 and PSDOGA/V 2 O 5 composites delivered high specific capacitances of 396.4 Fg −1 and 444.5 Fg −1 , respectively, at 2.5 mA cm −2 current density in single electrode measurements. Symmetrical supercapacitor devices assembled by using PSDOGA/TiO 2 and PSDOGA/V 2 O 5 binder-free binary composite electrodes exhibited satisfactory energy (78 W h kg −1 and 94.8 W h kg −1 ) and power (700 W kg −1 and 736 W kg −1 ) densities with good charge/discharge characteristics at a large operating voltage of 1.85 V. Furthermore, symmetric type supercapacitor cells achieved an excellent capacitance retention of 87% and 90% for 12 500 consecutive galvanic charge/discharge cycles at a constant current density of 2.5 mA cm −2 . The experimental results revealed that the cooperation between conducting polymer film and metal oxide particles not only greatly enhanced the capacitive performances, but also improved the long-term charge/discharge stability of the redox-active electrode materials. In this study, a simple and effective method was presented for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. The novel electropolymerizable thiophene monomer, 3-[(2,2 ':5 ',2 ''-terthiophen-3 '-yl)]-2-cyanoacrylic acid) (SDOGA), was specifically designed to fabricate homogeneous and chemically stable redox-active composite electrodes for pseudocapacitor applications. Poly(3-[(2,2 ':5 ',2 ''-terthiophen-3 '-yl)]-2-cyanoacrylic acid) (PSDOGA) was electrochemically deposited on stainless steel substrates and modified with TiO2 and V2O5 particles via a simple, efficient and low-cost process without any polymeric binder. Cyclic voltammetry (CV), galvanostatic charge/discharge (GCD) and electrochemical impedance spectroscopy (EIS) techniques were used to study the pseudocapacitive properties of PSDOGA/TiO2 and PSDOGA/V2O5 binder-free binary composites in both three-electrode and two-electrode cell configurations. PSDOGA/TiO2 and PSDOGA/V2O5 composites delivered high specific capacitances of 396.4 Fg(-1) and 444.5 Fg(-1), respectively, at 2.5 mA cm(-2) current density in single electrode measurements. Symmetrical supercapacitor devices assembled by using PSDOGA/TiO2 and PSDOGA/V2O5 binder-free binary composite electrodes exhibited satisfactory energy (78 W h kg(-1) and 94.8 W h kg(-1)) and power (700 W kg(-1) and 736 W kg(-1)) densities with good charge/discharge characteristics at a large operating voltage of 1.85 V. Furthermore, symmetric type supercapacitor cells achieved an excellent capacitance retention of 87% and 90% for 12 500 consecutive galvanic charge/discharge cycles at a constant current density of 2.5 mA cm(-2). The experimental results revealed that the cooperation between conducting polymer film and metal oxide particles not only greatly enhanced the capacitive performances, but also improved the long-term charge/discharge stability of the redox-active electrode materials. In this study, a simple and effective method was presented for the preparation of binder-free conducting polymer/metal oxide binary composite electrode materials. The novel electropolymerizable thiophene monomer, 3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (SDOGA), was specifically designed to fabricate homogeneous and chemically stable redox-active composite electrodes for pseudocapacitor applications. Poly(3-[(2,2′:5′,2′′-terthiophen-3′-yl)]-2-cyanoacrylic acid) (PSDOGA) was electrochemically deposited on stainless steel substrates and modified with TiO2 and V2O5 particles via a simple, efficient and low-cost process without any polymeric binder. Cyclic voltammetry (CV), galvanostatic charge/discharge (GCD) and electrochemical impedance spectroscopy (EIS) techniques were used to study the pseudocapacitive properties of PSDOGA/TiO2 and PSDOGA/V2O5 binder-free binary composites in both three-electrode and two-electrode cell configurations. PSDOGA/TiO2 and PSDOGA/V2O5 composites delivered high specific capacitances of 396.4 Fg−1 and 444.5 Fg−1, respectively, at 2.5 mA cm−2 current density in single electrode measurements. Symmetrical supercapacitor devices assembled by using PSDOGA/TiO2 and PSDOGA/V2O5 binder-free binary composite electrodes exhibited satisfactory energy (78 W h kg−1 and 94.8 W h kg−1) and power (700 W kg−1 and 736 W kg−1) densities with good charge/discharge characteristics at a large operating voltage of 1.85 V. Furthermore, symmetric type supercapacitor cells achieved an excellent capacitance retention of 87% and 90% for 12 500 consecutive galvanic charge/discharge cycles at a constant current density of 2.5 mA cm−2. The experimental results revealed that the cooperation between conducting polymer film and metal oxide particles not only greatly enhanced the capacitive performances, but also improved the long-term charge/discharge stability of the redox-active electrode materials. |
Author | Güllü, Mustafa Yi it, Deniz |
AuthorAffiliation | Department of Chemistry Sö ütözü Lokman Hekim University Department of Basic Pharmaceutical Sciences Faculty of Pharmacy Faculty of Science Ankara University Besevler |
AuthorAffiliation_xml | – name: Department of Chemistry – name: Lokman Hekim University – name: Ankara University – name: Sö ütözü – name: Besevler – name: Faculty of Pharmacy – name: Department of Basic Pharmaceutical Sciences – name: Faculty of Science |
Author_xml | – sequence: 1 givenname: Deniz surname: Yi it fullname: Yi it, Deniz – sequence: 2 givenname: Mustafa surname: Güllü fullname: Güllü, Mustafa |
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CitedBy_id | crossref_primary_10_1002_ente_202301076 crossref_primary_10_1016_j_est_2023_107477 crossref_primary_10_1016_j_envres_2023_115285 crossref_primary_10_1039_D3NJ03557C |
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Keywords | SUPERCAPACITOR ELECTRODES POLYPYRROLE V2O5 POLYTHIOPHENE ACTIVE MATERIALS NANOSTRUCTURES REDOX SUPERCAPACITORS NANOWIRES CONDUCTING POLYMERS TIO2 |
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Snippet | In this study, a simple and effective method was presented for the preparation of binder-free conducting polymer/metal oxide binary composite electrode... |
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SubjectTerms | Charge density Chemistry Chemistry, Multidisciplinary Composite materials Conducting polymers Current density Discharge Electrochemical analysis Electrochemical impedance spectroscopy Electrode materials Electrodes Metal oxides Physical Sciences Polymer films Polymers Science & Technology Stainless steels Substrates Supercapacitors Titanium dioxide Vanadium pentoxide |
Title | Rational design and microwave-assisted synthesis of a novel terthiophene derivative for facile preparation of binder-free polymer/metal oxide-based binary composite electrodes with high electrochemical performance |
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