T: +86-518-85528012
E: nick@luverrequartz.com
E: nick@luverrequartz.com
1st floor Runlian industrial center No. 116 QuFeng Rd., Haizhou Economic and technological development zone Lianyungang City, Jiangsu Province, China 222062
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24 microporous quartz plate
The 24-Well Microplate is a multi-functional laboratory consumable made of high-purity fused quartz material through precise processing technology.
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
as per customer's requirement
24 Well Microplate
The 24-Well Microplate is a multi-functional laboratory consumable made of high-purity fused quartz material through precise processing technology. Its core is designed as
a standard-sized plate-like structure, with 24 precisely positioned micro-pores evenly distributed on the surface. These microwells are usually arranged in standard microplate formats (such as 4×6 or 3×8 arrays), which can be perfectly compatible with most automated liquid handling systems, microplate readers and microscope platforms on the market.
Core features and advantages:
Outstanding optical performance: Fused silica has extremely high light transmittance in the ultraviolet, visible to near-infrared bands (especially in the deep ultraviolet band, the light transmittance far exceeds that of ordinary glass or plastic), ensuring the accuracy of optical detection results and a high signal-to-noise ratio.
Extremely high thermal stability: The softening point of quartz glass is over 1700℃, and its coefficient of thermal expansion is extremely low. This means that the 24-Well Microplate can withstand intense high and low temperature cycles (such as PCR experiments) and long-term high-temperature environments (up to 1100℃) without deforming, cracking or generating stress.
Outstanding chemical inertness: Quartz has extremely strong resistance to most acids, alkalis and organic solvents except hydrofluoric acid and hot phosphoric acid. It can withstand harsh chemical cleaning processes (such as aqua regia and strong oxidants), preventing sample contamination and plate corrosion.
Extremely low metal ion precipitation: High-purity quartz material ensures that it will not precipitate metal ions to interfere with experimental results when in contact with highly sensitive samples, making it particularly suitable for cell culture, protein crystallization, and trace analysis.
Dimensional stability and mechanical strength: Quartz material has good rigidity and is not prone to bending or deformation during routine experimental operations. The micro-pore position is precise, ensuring the reproducibility of automated operations.
What problems can the product solve?
Traditional plastic or ordinary glass microplates often fall short in high-end research and harsh experimental conditions. The 24-microporous quartz board is precisely designed to address these pain points:
1. Solve the problem of ultraviolet band detection:
Question: Ordinary plastic microplates have extremely high absorbance in the ultraviolet region (especially <300nm), making it impossible to conduct detection. Although ordinary glass has a certain ability to transmit ultraviolet rays, its light transmittance drops sharply in the deep ultraviolet band (<280nm).
Solution: The quartz plate still maintains a high light transmittance of over 80% in deep ultraviolet (such as 220nm, 260nm, 280nm), perfectly meeting the demand for precise measurement of protein, nucleic acid concentration, etc. in the ultraviolet band.
2. Addressing the challenges of high-temperature experimental environments:
The plastic microplate cannot withstand processes such as PCR, high-temperature catalytic reactions or high-temperature sintering.
Solution: The outstanding heat resistance of quartz plates enables them to be directly used as micro-reaction vessels in high-temperature synthesis, pretreatment for thermogravimetric analysis, and long-term experiments that require high-temperature cleaning and regeneration, greatly expanding the possibilities of experiments.
3. Avoid sample contamination and cross-contamination:
Plastic sheets may release plasticizers, and ordinary glass may release alkali metal ions, which can affect cell activity and chemical reactions.
Solution: The ultra-high purity and chemical inertness of quartz plates provide a "clean" inert environment for sensitive samples such as stem cells, precious proteins, and catalysts, ensuring the authenticity and repeatability of experimental results.
4. Enhance the reliability and durability of automated processes
Long-term use and repeated cleaning may cause deformation of the plastic plate and scratches on the glass plate, affecting the positioning accuracy of the automated instrument.
Solution: The high hardness and dimensional stability of quartz plates ensure that they can maintain the precise position of micro-pores after hundreds or even thousands of automated cycles of use, making them an ideal choice for long-term, high-throughput screening experiments.
Main application fields
With its unique performance combination, 24-Well Microplates have extensive applications in the following fields:
Life Sciences and Pharmaceuticals
High-throughput screening (HTS) : used for drug target screening and cell activity detection.
Protein crystallization: As a carrier for crystallization trials, its flatness and optical transparency facilitate microscopic observation.
Nucleic acid/protein quantification: The concentration of trace samples is directly determined in a UV microplate reader.
PCR and qPCR: They can be used as carriers for digital PCR or specific high-temperature reactions.
Analytical Chemistry and Spectroscopy
Ultraviolet-visible absorption/fluorescence spectroscopy: As an alternative to cuvettes, it enables high-throughput, micro-volume spectral measurements.
Raman spectroscopy: Quartz itself has a weak Raman signal and is an ideal substrate for Raman detection, which can be used in surface-enhanced Raman scattering (SERS) research.
Materials Science and Catalysis
Nanomaterial synthesis: Synthesis of nanoparticles by high-temperature solvothermal method in micropores.
Catalyst screening and evaluation: As a micro-reactor, it is used for parallel testing of the performance of multiple catalysts.
Academic research and industrial development
Any microplate experimental scenario that requires high-temperature resistance, corrosion resistance and high light transmittance.
Customized service
We are well aware that standard products may not meet the unique needs of all customers. Therefore, we offer flexible and diverse customized services to help you achieve innovative experimental designs
Customized micropore specifications
Pore size and depth: Micropores of different diameters and depths can be customized according to your sample volume requirements (such as from a few microliters to hundreds of microliters).
Bottom shape of the hole: We offer various bottom shapes such as flat bottom, round bottom or conical bottom to meet different mixing, sampling and observation requirements.
Surface treatment and functionalization
Hydrophilic/hydrophobic coating: Modify the surface of quartz plates to make them superhydrophilic (facilitating cell adhesion) or superhydrophobic (for self-assembly research).
Surface coating: Customizable ITO (indium tin oxide) conductive films, metal films (such as gold and silver for SERS), or specific chemical functional groups (such as amino and epoxy groups for biomolecular immobilization) are available.
Structure and size customization
Number of holes and layout: Not limited to 24 holes, quartz plates with 6 holes, 48 holes, 96 holes or even more holes can be customized according to requirements, and the hole spacing and overall plate size can be adjusted.
Marking and identification: Row/column alphanumeric identification, positioning slots or QR codes can be added to facilitate sample tracking and automatic identification.
Material grade selection
We offer quartz materials of different purity grades (such as JGS1, JGS2) to meet your ultimate requirements for ultraviolet transmittance and fluorescence background.
The 24-Well Microplate is not merely a simple sample container; it is a high-end experimental platform that integrates outstanding optical performance, ultimate thermal stability and extraordinary chemical inertness. It has solved many bottleneck problems caused by material limitations in high-end scientific research and industrial development, and is a powerful tool for improving the quality of experimental data and expanding the boundaries of research.
Luverre Quartz manufactures and sells a wide range of high quality fused quartz glass, including fused quartz tubes, fused quartz plates, fused quartz rods, fused quartz windows, fused quartz crucibles, fused quartz boats, fused quartz flanges, fused quartz beakers, fused quartz glass instruments, and more. We can meet all kinds of customized requirements for fused quartz glass products.
For more information, please feel free to contact us.
Why choose us?
1.We are more experienced.
We have over 18 years production experience of fused quartz items.
2.We are more efficient.
We reply customers’ requests within 24 hours and we have high efficient production, engineers and sales team.
3.Our quality is more guaranteed.
We control the quality from fused quartz lumps to fused quartz sand and then fused quartz products, we have better and stricter quality control than other manufactures.
4.We are able to produce more difficult fused quartz products.
We have large grinding platforms and precision etching machines which enable us to produce large sizes of fused quartz plates, tubes and high size precision fused quartz items.
24 Well Microplate
The 24-Well Microplate is a multi-functional laboratory consumable made of high-purity fused quartz material through precise processing technology. Its core is designed as
a standard-sized plate-like structure, with 24 precisely positioned micro-pores evenly distributed on the surface. These microwells are usually arranged in standard microplate formats (such as 4×6 or 3×8 arrays), which can be perfectly compatible with most automated liquid handling systems, microplate readers and microscope platforms on the market.
Core features and advantages:
Outstanding optical performance: Fused silica has extremely high light transmittance in the ultraviolet, visible to near-infrared bands (especially in the deep ultraviolet band, the light transmittance far exceeds that of ordinary glass or plastic), ensuring the accuracy of optical detection results and a high signal-to-noise ratio.
Extremely high thermal stability: The softening point of quartz glass is over 1700℃, and its coefficient of thermal expansion is extremely low. This means that the 24-Well Microplate can withstand intense high and low temperature cycles (such as PCR experiments) and long-term high-temperature environments (up to 1100℃) without deforming, cracking or generating stress.
Outstanding chemical inertness: Quartz has extremely strong resistance to most acids, alkalis and organic solvents except hydrofluoric acid and hot phosphoric acid. It can withstand harsh chemical cleaning processes (such as aqua regia and strong oxidants), preventing sample contamination and plate corrosion.
Extremely low metal ion precipitation: High-purity quartz material ensures that it will not precipitate metal ions to interfere with experimental results when in contact with highly sensitive samples, making it particularly suitable for cell culture, protein crystallization, and trace analysis.
Dimensional stability and mechanical strength: Quartz material has good rigidity and is not prone to bending or deformation during routine experimental operations. The micro-pore position is precise, ensuring the reproducibility of automated operations.
What problems can the product solve?
Traditional plastic or ordinary glass microplates often fall short in high-end research and harsh experimental conditions. The 24-microporous quartz board is precisely designed to address these pain points:
1. Solve the problem of ultraviolet band detection:
Question: Ordinary plastic microplates have extremely high absorbance in the ultraviolet region (especially <300nm), making it impossible to conduct detection. Although ordinary glass has a certain ability to transmit ultraviolet rays, its light transmittance drops sharply in the deep ultraviolet band (<280nm).
Solution: The quartz plate still maintains a high light transmittance of over 80% in deep ultraviolet (such as 220nm, 260nm, 280nm), perfectly meeting the demand for precise measurement of protein, nucleic acid concentration, etc. in the ultraviolet band.
2. Addressing the challenges of high-temperature experimental environments:
The plastic microplate cannot withstand processes such as PCR, high-temperature catalytic reactions or high-temperature sintering.
Solution: The outstanding heat resistance of quartz plates enables them to be directly used as micro-reaction vessels in high-temperature synthesis, pretreatment for thermogravimetric analysis, and long-term experiments that require high-temperature cleaning and regeneration, greatly expanding the possibilities of experiments.
3. Avoid sample contamination and cross-contamination:
Plastic sheets may release plasticizers, and ordinary glass may release alkali metal ions, which can affect cell activity and chemical reactions.
Solution: The ultra-high purity and chemical inertness of quartz plates provide a "clean" inert environment for sensitive samples such as stem cells, precious proteins, and catalysts, ensuring the authenticity and repeatability of experimental results.
4. Enhance the reliability and durability of automated processes
Long-term use and repeated cleaning may cause deformation of the plastic plate and scratches on the glass plate, affecting the positioning accuracy of the automated instrument.
Solution: The high hardness and dimensional stability of quartz plates ensure that they can maintain the precise position of micro-pores after hundreds or even thousands of automated cycles of use, making them an ideal choice for long-term, high-throughput screening experiments.
Main application fields
With its unique performance combination, 24-Well Microplates have extensive applications in the following fields:
Life Sciences and Pharmaceuticals
High-throughput screening (HTS) : used for drug target screening and cell activity detection.
Protein crystallization: As a carrier for crystallization trials, its flatness and optical transparency facilitate microscopic observation.
Nucleic acid/protein quantification: The concentration of trace samples is directly determined in a UV microplate reader.
PCR and qPCR: They can be used as carriers for digital PCR or specific high-temperature reactions.
Analytical Chemistry and Spectroscopy
Ultraviolet-visible absorption/fluorescence spectroscopy: As an alternative to cuvettes, it enables high-throughput, micro-volume spectral measurements.
Raman spectroscopy: Quartz itself has a weak Raman signal and is an ideal substrate for Raman detection, which can be used in surface-enhanced Raman scattering (SERS) research.
Materials Science and Catalysis
Nanomaterial synthesis: Synthesis of nanoparticles by high-temperature solvothermal method in micropores.
Catalyst screening and evaluation: As a micro-reactor, it is used for parallel testing of the performance of multiple catalysts.
Academic research and industrial development
Any microplate experimental scenario that requires high-temperature resistance, corrosion resistance and high light transmittance.
Customized service
We are well aware that standard products may not meet the unique needs of all customers. Therefore, we offer flexible and diverse customized services to help you achieve innovative experimental designs
Customized micropore specifications
Pore size and depth: Micropores of different diameters and depths can be customized according to your sample volume requirements (such as from a few microliters to hundreds of microliters).
Bottom shape of the hole: We offer various bottom shapes such as flat bottom, round bottom or conical bottom to meet different mixing, sampling and observation requirements.
Surface treatment and functionalization
Hydrophilic/hydrophobic coating: Modify the surface of quartz plates to make them superhydrophilic (facilitating cell adhesion) or superhydrophobic (for self-assembly research).
Surface coating: Customizable ITO (indium tin oxide) conductive films, metal films (such as gold and silver for SERS), or specific chemical functional groups (such as amino and epoxy groups for biomolecular immobilization) are available.
Structure and size customization
Number of holes and layout: Not limited to 24 holes, quartz plates with 6 holes, 48 holes, 96 holes or even more holes can be customized according to requirements, and the hole spacing and overall plate size can be adjusted.
Marking and identification: Row/column alphanumeric identification, positioning slots or QR codes can be added to facilitate sample tracking and automatic identification.
Material grade selection
We offer quartz materials of different purity grades (such as JGS1, JGS2) to meet your ultimate requirements for ultraviolet transmittance and fluorescence background.
The 24-Well Microplate is not merely a simple sample container; it is a high-end experimental platform that integrates outstanding optical performance, ultimate thermal stability and extraordinary chemical inertness. It has solved many bottleneck problems caused by material limitations in high-end scientific research and industrial development, and is a powerful tool for improving the quality of experimental data and expanding the boundaries of research.
Luverre Quartz manufactures and sells a wide range of high quality fused quartz glass, including fused quartz tubes, fused quartz plates, fused quartz rods, fused quartz windows, fused quartz crucibles, fused quartz boats, fused quartz flanges, fused quartz beakers, fused quartz glass instruments, and more. We can meet all kinds of customized requirements for fused quartz glass products.
For more information, please feel free to contact us.
Why choose us?
1.We are more experienced.
We have over 18 years production experience of fused quartz items.
2.We are more efficient.
We reply customers’ requests within 24 hours and we have high efficient production, engineers and sales team.
3.Our quality is more guaranteed.
We control the quality from fused quartz lumps to fused quartz sand and then fused quartz products, we have better and stricter quality control than other manufactures.
4.We are able to produce more difficult fused quartz products.
We have large grinding platforms and precision etching machines which enable us to produce large sizes of fused quartz plates, tubes and high size precision fused quartz items.
