Superior Charge Storage and Power Density of a Conducting Polymer-Modified Covalent Organic Framework

Audiovisual UNKNOWN
Mulzer, Catherine R.; Shen, Luxi; Bisbey, Ryan P.; McKone, James R.; Zhang, Na; Abruña, Héctor D.; Dichtel, William R.;
(2016)
  • Publisher: Figshare
  • Related identifiers: doi: 10.1021/acscentsci.6b00220.s002, doi: 10.1021/acscentsci.6b00220.ls01
  • Subject: Power Density | redox-active 2 D COF film | EES devices | Biotechnology | redox-active groups | power densities | redox-active COFs | framework materials | Space Science | electroactive COFs | conductivity | energy storage | framework materials design | Biophysics | Immunology | coordination polymers | networks exhibit | PEDOT-modified COF films | 10 000 | 1 μ m-thick COF films | Medicine | Superior Charge Storage | Conducting Polymer-Modified Covalent Organic Framework | carbon-based electrodes | 10 000 cycles | electrochemical responses | electrochemical performance
    • FOR: 39999 Chemical Sciences not elsewhere classified

The low conductivity of two-dimensional covalent organic frameworks (2D COFs), and most related coordination polymers, limits their applicability in optoelectronic and electrical energy storage (EES) devices. Although some networks exhibit promising conducti... View more
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