Модели спин-нанесения

Что такое спин-напыление?

Спин-напыление — это процесс на основе раствора, используемый для изготовления тонких пленок толщиной от микрометра до нанометра, чтобы нанести равномерное покрытие органических материалов на плоские поверхности.

Субстрат крепится на патрон, который вращает образец, создавая центробежную силу, которая выталкивает жидкость наружу. Затем тонкая пленка осаждается путем испарения жидкости. Машины, выполняющие эту серию процессов, называются спин-коутерами.

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Spin Coater Models

Discover the exceptional capabilities SPIN 150i and SPIN 200i, Spin Coaters. With unlimited programs, precise spin speed control (up to 12,000 rpm with ±0.1 rpm accuracy), and programmable rotational directions, these coaters provide unmatched versatility. Effortlessly coat substrates of various sizes, benefit from a user-friendly interface with three free programmable outputs, and experience seamless connectivity. See all the product details below.

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Spin Coater SPIN 150i

Spin coater 150i - Spin 150i

Spin Coater SPIN 200i

Spin coater Model - Spin 200i
SPECIFICATIONSSPIN 150iSPIN 200i
Available number of programsUnlimited
Steps per programUnlimited
Max. Spin Speed(12.000 ± 1) rpm steps
Spin Speed Accuracy ± 0,1 rpm
Spin Rotational DirectionClockwise, counter clockwise and puddle
Max. Acceleration(30.000 ± 1) rpm/sec, programmable in 1 rpm/sec
Spin TimeFrom xx h to 0,1 sec
Free Programmable Outputs3 pcs, relays, nominal switching capacity. 0.5A/125VAC – 0.3A/60VAC
SYSTEM DATA
Housing materialNatural polypropylene (NPP)
Process chamber materialNatural polypropylene (NPP) or high chemical resistant PFTE
InterfaceDetachable, full-size touchscreen, glove-friendly, IP52, chemical resistant
External connection1 USB port in the controller
Max. Substrate Diameter160 mm round or 4’’ x 4’’ square260 mm round or 6’’ x 6’’ square
Max. Process Chamber Diameter202 mm302 mm
Dimension (Desktop Version)274(w) x 250(h) x 451(d) mm380(w) x 307(h) x 559(d) mm
Shipping Weight 14 kg20 kg
Shipping Dimensions600 x 380 x 360 mm680 x 580 x 480 mm
REQUIREMENTS
Voltage100-200 VAC/200-240 VAC 50/60 Hz(autoselect)
Power ConsumptionMax 500W
Max. Current5A / 2,5 A
Vacuum -65 kPa (-19 in Hg), ≥ 80 LPM Tube OD ᴓ 8 mm
Motor Purge Gas20-50 kPa, 2-5 L/min, Tube OD ᴓ 6 mm
Drain Connector1’’M-NPT

Spin Coater – POLOS Series

The POLOS Series offers different models with a wide range of options including simple handling programming on the touchscreen controller, only if used outside of glovebox, port USB connection to upload and download from any PC and access to unlimited programs and graphic representations among others. View more details about the POLOS Series below.

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Spin Coater POLOS 200 ADVANCED

POLOs 200 Advanced Spin Coater Model

Spin Coater POLOS 300 ADVANCED

POLOS 300 Advanced Spin Coater Model
SPECIFICATIONSPOLOS 200 AdvancedPOLOS 300 Advanced
Available number of programsUnlimited
Steps per programUnlimited
Spin Speed(0-12.000 ± 1) rpm
Spin Speed Accuracy ± 0,1 rpm
Spin Rotational DirectionClockwise, counter clockwise and puddle
Max. Acceleration(30.000 ± 1) rpm/sec
Free Programmable Outputs3 dry relays, nominal switching capacity. 0.5A/125VAC – 0.3A/60VAC

Up to 16 digital input, 16 digital output, 4 analog input

4 analog output (optional IO modules)
SYSTEM DATA
Housing materialNatural polypropylene (NPP)
Process chamber materialNatural polypropylene (NPP) or high chemical resistant PFTE
InterfaceDetachable, full-size touchscreen, glove-friendly, IP52, chemical resistant
External connection1 USB port in the controller
Max. Substrate Diameter260 mm round or 6’’ x 6’’ square360 mm round or 8’’ x 8’’ square
Max. Process Chamber Diameter302 mm402 mm
Dimension (Desktop Version)380(w) x 307(h) x 599(d) mm430(w) x 310(h) x 650(d) mm
Shipping Weight 20 kg32 kg
Shipping Dimensions680 x 580 x 480 mm780 x 620 x 580 mm
REQUIREMENTS
Voltage100 - 200 VAC/200 - 240 VAC 50/60 Hz (autoselect)
Power Consumption Peak 1800 W
Max. Current10A / 8A
Vacuum-80 kPa (-24 inchHg), ≥ 80 lpm Tube OD Ø8mm
Motor Purge Gas20 - 50 kPa, 2-5 l/min, Tube OD Ø 6mm
Drain Connector1’’M-NPT

Spin Coater Natural Polypropylene

POLOS Series uses High Grade Natural Polypropylene (NPP-H), with α-crystalline properties as housing material for the spin coaters and chucks. This material offers more rigidness and toughness than other derived materials as well as an increased life-span and higher chemical and stress-crack resistance, improving from normal polypropylene.

This material also offers benefits to the system operations, with an acceleration of 0-12.000 rpm in 3 seconds, an accuracy of 0.1 rpm, and a substrate size which can vary from 5 nm to 450 nm.

Not only does NPP-H offer the wide variety of benefits already listed but it can be used in the vast majority of applications and is a much more economical option than other possibilities as PTFE. Moreover, the chemical compatibility of High Grade NPP is graded mostly with an excellent rate with the materials used for coating, the same that PFTE.

For those exceptional applications that require PTFE, TFMTM 1600 is used, which offers a better chemical absorption rate than standard PTFE.

POLOS 450 ADVANCED

The POLOS 450 ADVANCED is a highly capable and versatile solution for thin film deposition. With unlimited programs, precise spin speed control, and support for various substrate sizes, it ensures uniform coatings. The user-friendly interface, sturdy construction, and multiple output options make it a reliable choice. Discover the power of the POLOS 450 ADVANCED Spin Coater for your thin film deposition needs. Explore the POLOS 450 Advanced in more detail below.

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Spin Coater POLOS 450 ADVANCED

Spin coater model POLOS 450 Advanced
SPECIFICATIONSPOLOS 450 ADVANCED
Available number of programsUnlimited
Steps per programUnlimited
Max. Spin Speed(1,500 ± 1) rpm
Spin Speed Accuracy ± 0,1 rpm
Spin Rotational DirectionClockwise, counter clockwise and puddle
Max. Acceleration≤1,500 rpm/sec, depending on the load
Free Programmable Outputs3 dry relays, nominal switching capacity. 0.5A/125VAC – 0.3A/60VAC

Up to 16 digital input, 16 digital output, 4 analog input

4 analog output (optional IO modules)
SYSTEM DATA
Housing materialNatural polypropylene (NPP)
Process chamber materialNatural polypropylene (NPP) or high chemical resistant PFTE
InterfaceDetachable, full-size touchscreen, glove-friendly, IP52, chemical resistant
External connection1 USB port in the controller
Max. Substrate Diameter460 mm round and 350 x 350 mm square substrates
Max. Process Chamber Diameter502 mm
Dimension (Desktop Version)795 (w) x 638 (h) x 922 (d) mm
Shipping Weight 75 kg
Shipping Dimensions800 (w) x 790 (h) x 1180 (d) mm
REQUIREMENTS
Voltage200-240 VAC 50/60 Hz
Power ConsumptionPeak 1000W
Max. Current10A
Vacuum-80 kPa (-24 in Hg), ≥ 80 LPM, Tube OD ᴓ 8 mm
Motor Purge Gas20-50 kPa, Tube OD ᴓ 6 mm 500 LPH
Drain Connector1,5’’M-NPT

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What are main factors influencing the uniformity of thin films after spin coating?

The main factors influencing the uniformity of thin films after spin coating are:

– Viscosity: Corresponds to the thickness of the thin film.
-Rotation speed: Adjustable and affects the coating outcome.
-Process temperature: Impacts the thin film properties during deposition.
-Time: Influences the duration of the spin coating process.
-The void (on/off): May affect the presence of gaps in the final coating.

Which method is preferred for preparing coatings of nanomaterials?

To determine which method is better for preparing coatings of nanomaterials, several factors need to be considered, such as the specific nanomaterial properties, desired coating thickness, substrate type, and the intended application of the coated material.

Each method has its advantages and limitations, and the most suitable method will depend on the specific requirements and objectives of the coating process.

Three methods are:
Electrophoretic deposition method

Spin Coating

Spray coating