Electrochemical Controlling of Double Microgel Layer Formation on an Electrode Surface via an Electrosensitive Inclusion Complex

Kamil Marcisz; Mosayeb Gharakhloo; Damian Jagleniec; Jan Pawlowski; Jan Romanski; Marcin Karbarz

doi:10.1021/acsmaterialsau.4c00118

Electrochemical Controlling of Double Microgel Layer Formation on an Electrode Surface via an Electrosensitive Inclusion Complex

ACS Mater Au. 2024 Oct 29;5(1):191-199. doi: 10.1021/acsmaterialsau.4c00118. eCollection 2025 Jan 8.

Authors

Kamil Marcisz¹, Mosayeb Gharakhloo¹, Damian Jagleniec¹, Jan Pawlowski², Jan Romanski¹, Marcin Karbarz^{1

3}

Affiliations

¹ Faculty of Chemistry, University of Warsaw, 1 Ludwika Pasteura Str., PL 02-093 Warsaw, Poland.
² Faculty of Physics, University of Warsaw, 5 Ludwika Pasteura St., PL 02-093 Warsaw, Poland.
³ Biological and Chemical Research Center, University of Warsaw, 101 Żwirki i Wigury Av., PL 02-089 Warsaw, Poland.

Abstract

In this study, we demonstrate the formation of a self-assembled microgel double layer on an electrode surface, utilizing the ability to form electro-responsive, reversible inclusion complexes between microgels modified with ferrocene and β-cyclodextrin in these systems. The bottom layer was based on microgels containing ferrocene moieties and derivatives of cysteine. The presence of the amino acid derivative enabled the formation of the well-packed monolayer on the gold surface through chemisorption, while ferrocene was responsible for electroactivity. The addition of βCD-modified microgel led to the formation of the second monolayer, ultimately creating the double layer. Our investigation focuses on the electrochemically controlled formation and deformation processes of the double microgel layer.