UV LED wafer

UV LED wafer

We can provide 2″ UV LED wafer and AlN wafer for medical & scientific applications including photodynamic therapy also benefit from a high power and high flux density LED.

1. Features & Dimensions of UV LED Wafer

Growth Technique – MOCVD
Substrate Material:Sapphire Substrate (Al2O3)
Substrate Conduction: Insulating
Substrate Orientation: c-Plane (0001)0.2°±0.1
Diameter: 50.8mm±0.15mm
Thickness: 430μm±20μm
Wavelength:395nm-405nm
 

2. Physical Parameters of InGaN/GaN Structure on Sapphire

Structure
InGaN/GaN structure on sapphire EPI wafer
P.N electrode
Au
Chip size
8mil×10mil(200±5µm×250×5µm)
Chip thickness
3.15mil(80±5µm)
Pad size
2.95mil(75±5µm)
 

3. Photoelectric Parameters Based on GaN LED Wafer(IF=20mA,Tc=22℃)

Parameter
Symbol
Condition
Min.value
Typical value
Max.value
Forward voltage(V)
VF
IF=20mA
2.8
3.2
3.8
Reverse current(µA)
IR
VR=5V
0
≤0.1
1
Wavelength range(nm)
λP
IF=20mA
370
400
420
Luminous intensity(mw)
IV
IF=20mA
0.1
15
25
Width of half wave(nm)
Δλ
IF=20mA
≤30
Maximum current(mA)
IMAX
DC
30

4. About UV LED Market

According to industry sources, the UV LED market is projected to make exponential growth at an annual average rate of 43 percent from about 47 billion won last year to 280 billion won in 2017. At the same time, the UV LED penetration ratio in the conventional UV Lamp market is expected to grow from 12.7 percent last year to 34.7 percent in 2017. 
Ultraviolet means shorter wavelength light that measures about 100 to 400 nanometers, shorter than that of visible rays. Depending on wavelength band, UV provides such functions as sterilization, purification, and Curing (consolidation of liquid state material). It also has diverse areas of applications, including medicine, surface coating and printing. In the future, its applications will likely further expand to include the environment industry, including purification of waste water. 

5. About UV LED

UV LED is an ultraviolet ray-emitting device, and is a lighting source that uses LED, a semiconductor compound, in lieu of mercury lamp. In the course of LED production, UV LED can be designed to only emit efficacious wavelength required for respective uses, including medicine, home appliances and Curing of coating.
On the other hand, UV LED poses a very high technology barrier due to difficulties in forming photic layer that presents ultraviolet rays. High price and low optical power of UV LED due to technological barriers previously posed obstacles to the expansion of its market.
Some of the many UV-LED applications now supported due to these improvements in LED technology are air, surface and water sterilization (germicidal), pesticide detection, supplying UVB for optimal plant growth, UV curing with more environmentally friendly curing formulations, counterfeit detection, black lights – the list is growing as UV-LED production technology continues to improve.

6. FAQ about UV LED Wafer on Sapphire

Q: There are some issues that I need to share them with you.
First of all, the UV LED are on patterned sapphire that makes the laser-liftoff process unreliable.
Second, I have done all the fabrication process for UV LEDs and the emission is not in UV range. Two following processes are generally used:
– I have etched 2 um from topside for n-contact and the p-contact is Ni/Au (15/15 nm).
– I have transferred them on other substrate and the LED’s backside is n-contact.
Actually, the processes are working very well with blue LEDs. In case of UV LEDs it is very hard to get UV light. Would you please consider helping me to find the problem?
A: We think it should be done like this: it should be plane etching 1.4um rather than vertical etching, and then do n electrode. But your vertical etching is for what? Vertical results difficult in the laser stripping and bonding, and the underlying structure is not the same, stripping process should match the bottom, do not know your stripping process is for what, you should need to adjust the laser power, AlGaN bad peeling.
For more information, please contact us email at victorchan@powerwaywafer.com and powerwaymaterial@gmail.com.

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