@book{Liu2015, abstract = {This work presents the application of organic semiconductor distributed feedback laser as free-space excitation source in Raman spectroscopy. Surface-enhanced Raman scattering effect is exploited to improve the detection sensitivity. The SERS condition is achiedved by using substrates consisting of gold-coated polymeric nanopillar arrays. The organic-laser-excited SERS measurements are applied to verify the concentration variation of biomolecule adenosine in aqueous solutions.This work presents the application of organic semiconductor distributed feedback laser as free-space excitation source in Raman spectroscopy. Surface-enhanced Raman scattering effect is exploited to improve the detection sensitivity. The SERS conditionis achiedved by using substrates consisting of gold-coated polymeric nanopillar arrays. The organic-laser-excited SERS measurements are applied to verify the concentration variation of biomolecule adenosine in aqueous solutions.Umfang: VIII, 228 S.Preis: €46.00 | £42.00 | $81.00}, address = {Karlsruhe}, author = {Liu, Xin}, doi = {10.5445/KSP/1000046874}, isbn = {978-3-7315-0370-5}, keyword = {oberflächenverstärkte Raman-Spektroskopie, , Organischer Halbleiter, DFB-Laser, Lab-on-Chip, organic semiconductor, DFB-laser, surface-enhanced Raman spectroscopy, lab-on-a-chip}, month = {Jun}, pages = {248}, publisher = {KIT Scientific Publishing}, title = {Organic Semiconductor Lasers and Tailored Nanostructures for Raman Spectroscopy}, year = {2015} }