Thermally conductive materials lead LEDs in the lighting industry

Thermally conductive materials lead LEDs in the lighting industry

1. TIG thermal grease

1, 0.009 ° C - in 2 / W thermal resistance;
2, a glue similar to the thermal interface material, will not dry;
3, for heat transfer chemicals, can maximize the heat transfer between the semiconductor block and the heat sink;
4, excellent electrical insulation, will not harden when exposed to high temperature for a long time;
5, environmental protection and non-toxic.
Second, TIF thermal silica gel sheet 1, good thermal conductivity: 11W / mK;
2, with self-adhesive without additional surface adhesive;
3, high compressibility, soft and flexible, suitable for low pressure applications;
4, can provide a variety of thickness options.
Third, TCP thermal plastics 1, good thermal conductivity: 5.0W / mK;
2. Excellent thermal conductivity is matched with general engineering plastics;
3. Compared with the general aluminum heat dissipation mechanism, the weight is reduced by 50%;
4. Easy to form under the injection mold;
5. It is superior to the production capacity of general aluminum die castings;
6. Provide more flexible flexibility and space in the design of the appearance mechanism;
7. The flame resistance rating is UL94 V-0.
Fourth, TIS thermal insulation sheet 1, the surface is soft, good thermal conductivity;
2, good conductivity, good dielectric strength;
3, high voltage insulation, low thermal resistance;
4, tear resistance, anti-puncture.

Confocal Laser Scanning Microscopy

Confocal Laser Scanning Microscopy (CLSM) consists of confocal microscopy, laser and data acquisition system. It is a combination of the optical microscope, the modern laser technology, Raman detection technology, scanning control technology, computer image processing technique and fluorescence labeling technique. Its application and research field include the observation of life living cell structure and specific molecular, Ion biological changes, pharmacology, genetics, spectroscopy and related subjects. Specific applications such as: stochastic optical reconstruction microscopy(STORM), fluorescence lifetime-transient scanning(FLITS), fluoresence recover after photobleaching(FRAP), stimulated emission depletion(STED)etc.

Changchun New Industries (CNI), founded in 1996, is a leading manufacturer of solid-state and diode laser systems. CNI laser features with high performance, nice reliability, and specifically designed for OEM, scientific, industrial and instrumentation use. In addition, CNI lasers are ISO-9001, FDA, CE, RoHS and JQA certified. CNI can provide different lasers for Confocal Laser Scanning Microscopy, High Resolution Fiber Optic Spectrometer, Optical Fiber Raman Probe, Fiber Coupler, modulator and other related accessories.

clsm_3
 clsm_4
clsm_1
 clsm_2

Features

â–  CNI self-developed high reliability lasers. User requirements can be realized.

â–  CNI can provide different lasers with free space and Multi-wavelength single-mode fiber coupling, and related

accessories.
â–  System is stable and reliable. Customized solution can be provided upon request.

Laser Related


Wavelengths: 266nm, 355 nm, 360 nm, 375 nm, 405 nm, 442 nm, 445 nm, 457 nm, 465 nm, 473 nm, 488 nm, 515 nm,

520 nm, 532 nm, 556 nm, 561 nm, 589 nm, 593 nm, 633 nm, 637 nm.640 nm, 671 nm., 690 nm, 720 nm,

750 nm, 785 nm, 808 nm, 1064 nm, 2200 nm etc.

Single longitudinal mode, narrow linewidth, laser available; Multi-wavelengths laser systems also available; New laser-wavelength can be customized.

Accessories


Fiber1
Sp 3b
 power_meter_1
 laser_goggles_1
Fiber Patech Cables Spectrometer Raman Probe Power Meter
 Laser Goggles
Applications of CNI laser for Confocal Laser Scanning Microscopy

(1) Antimicrobial Photodynamic Efficiency of Novel Cationic Porphyrins towards Periodontal Gram-positive and Gram-negative Pathogenic Bacteria

(Photochemistry and Photobiology, Volume 90, Issue 3, pages 628–640, May/June 2014) (CNI-635nm)


(2) Calcium Dynamics in Root Cells of Arabidopsis thaliana Visualized with Selective Plane Illumination Microscopy (PloS one, 2013, 8(10): e75646.) (CNI-442nm)


(3) Fluoxetine induces vasodilatation of cerebral arterioles by co-modulating NO/muscarinic signalling (Journal of Cellular and Molecular Medicine, Volume 16, Issue 11, pages 2736–2744, November 2012) (CNI-532nm)

(4) Fluorescence ghost imaging with pseudothermal light (Optics Letters, Vol. 36, Issue 16, pp. 3302-3304 (2011)) (CNI-473nm)

(5) Improved Temporal Resolution and Linked Hidden Markov Modeling for Switchable Single-Molecule FRE (ChemPhysChem, Volume 12, Issue 3, pages 571–579,February 25, 2011) (CNI-532nm)

(6) Near-field Raman imaging using optically trapped dielectric microsphere (Optics Express, Vol. 16, Issue 11, pp. 7976-7984 (2008)) (CNI-532nm)


(7) Ultra-high resolution Raman imaging by optically trapped dielectric microsphere (NanoScience+ Engineering. International Society for Optics and Photonics, 2008: 70330E-70330E-7) (CNI-532nm)


(8) Luminescence enhancement in nanocomposite consisting of polyvinyl alcohol incorporated gold nanoparticles and Nile blue 690 perchlorate

(Applied Optics, Vol. 53, Issue 31, pp. 7177-7181 (2014)) (CNI-532nm)


Laser Pointing Pen,Laser Confocal Microscopy,Confocal Laser Scanning Microscopy,Microscopy Laser

Changchun New Industries Optoelectronics Technology Co., Ltd. , https://www.lasersciences.com