Self‐Assembly of Mechanoplasmonic Bacterial Cellulose–Metal Nanoparticle Composites |
| |
Authors: | Olof Eskilson,Stefan B. Lindstr m,Borja Sepulveda,Mohammad M. Shahjamali,Pau Gü ell‐Grau,Petter Sivl r,M rten Skog,Christopher Aronsson,Emma M. Bj rk,Niklas Nyberg,Hazem Khalaf,Torbj rn Bengtsson,Jeemol James,Marica B. Ericson,Erik Martinsson,Robert Seleg rd,Daniel Aili |
| |
Affiliation: | Olof Eskilson,Stefan B. Lindström,Borja Sepulveda,Mohammad M. Shahjamali,Pau Güell‐Grau,Petter Sivlér,Mårten Skog,Christopher Aronsson,Emma M. Björk,Niklas Nyberg,Hazem Khalaf,Torbjörn Bengtsson,Jeemol James,Marica B. Ericson,Erik Martinsson,Robert Selegård,Daniel Aili |
| |
Abstract: | Nanocomposites of metal nanoparticles (NPs) and bacterial nanocellulose (BC) enable fabrication of soft and biocompatible materials for optical, catalytic, electronic, and biomedical applications. Current BC–NP nanocomposites are typically prepared by in situ synthesis of the NPs or electrostatic adsorption of surface functionalized NPs, which limits possibilities to control and tune NP size, shape, concentration, and surface chemistry and influences the properties and performance of the materials. Here a self‐assembly strategy is described for fabrication of complex and well‐defined BC–NP composites using colloidal gold and silver NPs of different sizes, shapes, and concentrations. The self‐assembly process results in nanocomposites with distinct biophysical and optical properties. In addition to antibacterial materials and materials with excellent senor performance, materials with unique mechanoplasmonic properties are developed. The homogenous incorporation of plasmonic gold NPs in the BC enables extensive modulation of the optical properties by mechanical stimuli. Compression gives rise to near‐field coupling between adsorbed NPs, resulting in tunable spectral variations and enhanced broadband absorption that amplify both nonlinear optical and thermoplasmonic effects and enables novel biosensing strategies. |
| |
Keywords: | antimicrobials bacterial cellulose gold nanoparticles nanocomposite sensors |
|
|