25.4mm Silicon Wafers (1 Inch) for Research & Production
25.4 (1 inch) Silicon Wafers
We have a large selection of 1" silicon wafers in stock and ready-to-ship. See below for some of what we have in stock. If you don't see what you need, pleaes email us your specs and quantity.
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Researchers Use 25.4mm SIlicon Wafers for Graphene Mobility Measurements
Researchers have purchased the following silicon wafers for graphene mobility measurments.
Si Item #3105
25.4mm P/B <100> .01-.05 500um Double Side Polished
Reference #ONLQ38820 for more info.
Graphene mobility measurments helps researchers measure the electrical transport properties in graphene and multi-layer materials as well as devices, including:
- Resistivity
- Carrier type
- Density
- Mobility of a sheet.
What Are 25.4mm Silicon Wafers?
When you need to create a circuit board, you need silicon wafers. They come in different diameters, 
including the 25.4mm variety. The larger the diameter, the bigger the wafer needs to be, so you should consider the shipping costs and space requirements. However, if you need a lot of silicon, you may need to buy a larger wafer. If you need a large wafer, you can order a smaller one, but if you need more, you can ask for a larger one.
When you use a silicon wafer, you are using one of the most common materials in the world. These materials are used to create semiconductors, which are present in most electronic devices. The size and shape of a silicon wafer makes them a vital part of many high-tech industries. These applications include solar cells, opto-electronic components, and detector or sensor devices. These products are made using the 25.4mm silicon waffles, which are available in several different sizes.
When a silicon wafer is made, it is cut with a wire saw to make it thin enough to be used as a substrate for SEM and AFM samples. The resulting wafer is polished and smooth. Single crystal silicon wafers are 100-200 mm square and range from one to four or five micrometers in diameter. There are some crystalline types, but they are not widely used.
Single crystal silicon wafers are a type of semiconductor substrate that is used for many high-tech applications. These are the materials that make up integrated circuits, detectors, sensor devices, and opto-electronic components. They are also used in solar cells. Essentially, a silicon wafer can be any size or shape. Its size is determined by the manufacturing process. It can also be thin enough to fit a standard-size glass or plastic tray.
Because silicon wafers are so versatile, it is possible to manufacture them with high-quality silicon. The best way to do this is to fabricate thin film on a silicon wafer. Ideally, you should always use a freshly cleaved silicon wafer for the best results. This will make it possible to use a microscope to observe the orientation of the films. But in some cases, you can't use a single crystal as a semiconductor.
A single-crystal silicon wafer is ideal for a number of applications. It can be used to make solar panels and integrated circuits. For most semiconductor applications, you should use a single-crystal silicon wafer. You can also get a 10x10x10mm crystal. For photovoltaic and solar cell, you will need a 100-x100mm substrate.
The second type of silicon wafer is a crystalline silicon wafer. It is made from high-purity material. A single crystal of silicon can be up to 25.4mm thick. This type is suitable for most semiconductor manufacturing processes. These materials are also used for other semiconductor devices, including solar cells. They can be manufactured into the desired shapes. When it comes to using silicon in electronics, you can choose between two types of material: a 10x10mm and a 25.4mm.
A silicon wafer is a high-quality material that is essential for manufacturing semiconductors. They are used in all types of electronic devices and are the most common type of semiconductor materials. These types of high-tech applications include solar cells and integrated circuits. In addition, these materials are also used in MEMS fabrication. There are numerous other uses for 25.4mm Silicon Wafers. And there are countless other ways they can be manufactured.
A silicon wafer is a high-quality semiconductor that is used in various technologies. These components can be found in all kinds of electronic devices, such as televisions, computers, and smart phones. Because silicon wafers are highly durable, they are the first choice of many manufacturers. In fact, the technology behind silicon is so advanced that it is used in solar cell manufacturing. You can even use them in other high-tech industries.
When making a semiconductor, it is important to understand the physics behind these materials. The chemistry of these compounds is vital to the process. Without a proper understanding of the structure of semiconductors, they would not be able to perform their intended functions. Furthermore, they can be used to create electronic components, which are vital for the growth of the semiconductor industry. You should know that there are two types of silicon wafers: n-type and p-type.
What is the true 25.4mm Diameter in Inches?
25.4mm is exactly 1 inch in length, diameter, etc! Many other diameters metric to inch measurments are often rounded down.
Below are just some of the 25.4mm silicon substrate inventory.
| Item | Dia | Type | Dopant | Orien | Res (Ohm-cm) | Thick (um) | Polish | Description |
|---|---|---|---|---|---|---|---|---|
| 1394 | 25.4mm | P | B | <111> | >1000 | 20000um | DSP | Float Zone (FZ) |
| 2218 | 25.4mm | P | B | <100> | ANY | 400um | SSP | Thickness is: 400+/-100um. |
| 2149 | 25.4mm | ANY | <100> | 500um | SSP | Wafers have particles. Wafers sold "As-Is". | ||
| 2313 | 25.4mm | Undoped | Undoped | <111> | >2000 | 280um | SSP | Intrinsic FZ Prime Grade |
| 2483 | 25.4mm | Undoped | Undoped | <100> | >5000 | 73.5um | DSP | FZ, Float Zone |
| 3105 | 25.4mm | P | B | <100> | .01-.05 | 500um | DSP | NO flats, COMPLETELY round. Minimum Order Quantity 5 wafers. |
| Item | Material | Orient. | Diam(mm) | Thck(μm) | Surf. | ResistivityΩcm | Comment |
| PW1100 | P/B | [100] | 1" | 280um | P/E | 0-100 ohm-cm | SEMI, 1Flat, Soft cst |
| UW2313 | Intrinsic Si:- | [111] | 1" | 280um | P/E | FZ >2000 ohm-cm | Test Grade |
| 2218 | P/B | [100] | 1" | P/E | ANY | Test Grade | |
| D975 | n-type Si:P | [100] | 1" | 475 ±10 | E/E | FZ >500 {1,900-2,400} | NO Flats, Soft cst |
| G519 | n-type Si:P | [111] ±0.5° | 1" | 280 | P/P | FZ 2,000-10,000 | NO Flats, TTV<5μm, Soft cst |
| 5447 | Intrinsic Si:- | [100] | 1" | 500 | P/E | FZ >20,000 | SEMI Prime, 1Flat, hard cst |
| I745 | Intrinsic Si:- | [100] | 1" | 160 | P/P | FZ >10,000 | Prime, NO Flats, hard cst, TTV<8μm |
| J745 | Intrinsic Si:- | [100] | 1" | 160 | P/P | FZ >10,000 | Prime, NO Flats, hard cst, TTV<8μm |
| C427 | Intrinsic Si:- | [111] ±0.5° | 1" | 500 | P/P | FZ >17,500 | SEMI Prime, 1Flat, hard cst |
| 5427 | Intrinsic Si:- | [111] ±0.5° | 1" | 500 | P/P | FZ >15,000 | SEMI Prime, 1Flat, hard cst |
| 1978 | Intrinsic Si:- | [111] ±0.5° | 1" | 1,000 | P/E | FZ 14,000-30,000 | NO Flats, Soft cst, Cassettes of 7, 6, 6 wafers |
| 4427 | Intrinsic Si:- | [111] ±2° | 1" | 27,870 | C/C | FZ >10,000 | Single Crystal Silicon Rod, 0.39" diameter × 27.87±0.1mm |
| B444 | P/B | [510] | 1" | 1,000 | P/E | 1-100 {7.4-7.4} | NO Flats, Soft cst |
| C320 | P/B | [100] | 1" | 100 ±15 | P/P | 1-10 | Prime, NO Flats, in sealed bags of 5 wafers. |
| 5426 | P/B | [100] | 24mm | 300 | P/E | 1-100 | Prime, NO Flats, hard cst |
| 5631 | P/B | [100] | 24.3mm | 300 | P/E | 1-10 | Prime, NO Flats, hard cst |
| 6023 | P/B | [100] | 1" | 300 | P/E | 1-10 {2.8-2.9} | SEMI Prime, 1Flat, Soft cst |
| 6153 | P/B | [100] | 1" | 300 | P/E | 1-10 | Prime, NO Flats, Soft cst |
| F631 | P/B | [100] | 24.3mm | 300 | P/E | 1-10 {1.5-1.7} | Prime, NO Flats, hard cst |
| 6166 | P/B | [100] | 1" | 525 ±10 | P/E | 1-30 | Prime, NO Flats, Soft cst, TTV<5μm, Cassettes of 20 and 8 wafers |
| 5275 | P/B | [100] | 1" | 1,000 | P/E | 1-30 | SEMI Prime, 1Flat, hard cst |
| L678 | P/B | [100] | 1" | 3,000 | P/E | 1-50 | Prime, NO Flats, Individual cst, Group of 13 wafers |
| 5339 | P/B | [100] | 1" | 275 | P/P | 0.015-0.020 | SEMI Prime, 1Flat, hard cst |
| 5092 | P/B | [100] | 1" | 275 | P/E | 0.015-0.020 | SEMI Prime, 1Flat, Soft cst |
| G704 | P/B | [111] ±0.5° | 1" | 50 ±10 | P/P | 1-100 | NO Flats, Soft cst |
| K729 | n-type Si:P | [100] | 1" | 50 ±10 | P/P | >20 | SEMI Prime, 1Flat, TTV<5μm, in single wafer trays between clean-room sheets, MOQ 4 wafers |
| C352 | n-type Si:P | [100] | 1" | 280 | P/E | 1-5 | SEMI, 1Flat, hard cst |
| 6179 | n-type Si:P | [100] | 1" | 1,500 | P/E | 1-20 | Prime, NO Flats, Soft cst |
| 19A2 | n-type Si:P | [111] | 1" | 330 | P/E | FZ >90 | Prime, NO Flats, hard cst |
| 19I1 | P/B | [100] | 1" | 775 | P/E | 8-12 | SEMI Prime, 1Flat, Soft cst |
| 19O1 | P/B | [100] | 1" | 300 | P/P | 4-6 | SEMI Prime, 1Flat, hard cst |
| 19D1 | P/B | [100] | 24mm | 300 | P/E | 1-100 | Prime, NO Flats, Soft cst |
| 19J1 | P/B | [100] | 1" | 300 | P/E | 1-10 | Prime, NO Flats, Soft cst |
| 19B1 | P/B | [100] | 1" | 500 | P/E | 1-10 | Ile zostalo ? |
| 19C1 | P/B | [100] | 1" | 380 | P/E | 0.003-0.005 | SEMI Prime, 1Flat, hard cst |
| 19H2 | P/B | [100] | 1" | 275 | P/E | 0.002-0.005 | Prime, NO Flats, hard cst |
| VS1 | n-type Si:P | [100] | 1" | 50 ±10 | P/P | >20 | SEMI Prime, 1Flat, TTV<5μm, in single wafer trays between clean-room sheets, MOQ 5 wafers |
| 19N1 | n-type Si:P | [100] | 1" | 3,500 | P/E | 1.2-3.0 | SEMI Prime, 2Flats, Individual cst |
| 18X2 | n-type Si:P | [100] | 1" | 300 | P/E | 1-20 | SEMI Prime, 1Flat, hard cst |
| 18Y | n-type Si:As | [100] | 1" | 300 | P/P | 0.001-0.005 | Prime, NO Flats, hard cst |
| 18W2 | n-type Si:As | [111] | 1" | 380 | P/E | 0.002-0.007 | SEMI Prime, 1Flat, hard cst |