Soldering typically involves joining materials through the application of heat, using a melting bonding agent. Applying this thermal reaction to biological materials has been challenging, as it requires precise temperature control and non-invasive temperature measurement. The team, led by Oscar Cipolato and Inge Herrmann from Empa's Particles Biology Interactions laboratory in St. Gallen and the Nanoparticle Systems Engineering Laboratory at ETH Zurich, developed a smart wound closure system that enables gentle and efficient laser soldering.
To achieve this, they created a bonding agent containing metallic and ceramic nanoparticles and employed nanothermometry for temperature control. This advanced soldering process relies on the interaction between these two nanoparticle types within the bonding protein-gelatin paste. During laser irradiation, titanium nitride nanoparticles convert light into heat, while specially synthesized bismuth vanadate particles act as microscopic fluorescent nano thermometers. They emit light of a specific wavelength dependent on temperature, allowing for precise real-time temperature regulation.
This method is ideal for minimally invasive surgery, providing accurate temperature control with fine spatial resolution in superficial and deep wounds, eliminating the need for stirring.