Patent ID: 9667035
Date: 2017-05-30
CPC Classifications: H01S

Claim:
1. A method for preparing an organic laser comprising a grating structure and a polymer film, the method comprising: (S1) dissolving polymer materials of the polymer film using an organic solvent to obtain an organic polymer solution having a mass concentration of 10-60 mg/ml; (S2) spin-coating the organic polymer solution on a substrate with or without the grating structure for 30-60 seconds with a speed of 500-4000 rpm to obtain the polymer film with a thickness of 50-500 nm; (S3) in response to a determination that the substrate does not have the grating structure, interacting using an interference lithography of an ultraviolet laser with the polymer film to form a one-dimensional or two-dimensional grating structure; in response to a determination that the substrate has the grating structure, ignoring the step (S3); and (S4) placing the substrate of the polymer film into a solution containing hydrochloric acid solution or water to remove the substrate to obtain the organic laser, wherein the substrate is ITO glass, and the organic laser is organic polymer thin film laser with a single-wavelength output, the method further comprising: (S5) spin-coating a photoresist (PR) solution on an ITO-coated glass substrate (15 mm×15 mm×1 mm) with a speed of 3000 rpm for 30 seconds; (S6) heating the ITO substrate on a hot plate at 100° C. for 1 minute to obtain a PR film with a thickness of 120 nm, preparing a PR grating using an interference lithography, wherein a pulse laser is split into two beams by a beam splitter, the two beams are reflected by dielectric film total reflection mirrors to focus on a sample, a He—Cd laser is employed as a pulse source with a wavelength of 325 nm and a total power of 10 mW to obtain the PR grating with a period of 355 nm after exposing 10 s and a exposure and development time of about 6 seconds; (S7) spin-coating a xylene solution with a concentration of 25 mg/ml on the PR grating with a speed of 1000 rpm for 30 s to obtain a film with a thickness of about 170 nm on the PR grating; (S8) placing the ITO glass covered with the PR grating and the film in a solution contain hydrochloric acid with a mass concentration of 20% for 20 min to dissolve the ITO glass to obtain, on a surface of the solution, a polymer film suitable for the organic laser that comprises the PR grating and the film; (S9) providing a Polyethylene terephthalate (PET) plate with a circular hole of 20 mm diameter and thickness of 0.4 mm as a frame for a free-standing film device, placing the polymer film suitable for the organic laser on the frame to cover the circular hole to obtain the organic laser; and (S10) exciting the organic laser using a femtosecond pump beam with a wavelength of 400 nm, a repetition frequency of 1 kHz and a pulse length of 200 fs to obtain an emission with a wavelength of 566 nm from an area of the polymer film of the organic laser.