Intricate details of plant cell structure with this magnified model, resembling views under an electron microscope. With sections revealing ectoplast, endoplast, tonoplast, vacuoles, nuclear structure, plastids, and mitochondria, this model provides comprehensive insight. Mounted on a base for stability and accompanied by a key card for easy reference.
Featuring key structures like the cell wall, plasma membrane, nucleus, chloroplasts, and more, it's ideal for studying plant cell anatomy. Each feature is numbered and color-coded for easy identification, with an included key card for reference. This freestanding model offers an effective method for exploring the intricate structures and functions within a plant cell.
Description
A cylindrical roller bottle is a kind of disposable container which can meet the requirements of large-scale production of cells and tissues in both experimental and industrial production and is widely used in the culture of animal and plant cells, bacteria, viruses and so on. Placed on rollers, the flask can slowly rotate and bathe cells attached to the inner surface of the bottle. Rollers are typically made of plastic or autoclavable glass and are available in a variety of capacities and styles.
Product Parameter
 TC Treated
Item No. Size Culture area(ml) Cap Sterile pcs/pack pcs/case
C022002 2L 850 Seal cap Yes 2 40
C022005 5L 1750 Seal cap Yes 1 20
Features
01 Material: polystyrene (PS), which meets USP VI medical grade.
02 Vacuum plasma surface treatment technology, enhances cell adhesion ability, and can also be coated with collagen on the inner surface according to customer requirements.
03 cGMP standard production, each batch passes the performance test, and perfect quality system from the source to ensure product quality and consistency.
04 Sterile, no endotoxin, no heat source, no cytotoxicity.
05 Injection, pull and blow molding process, the product bottle mouth is smooth and round, the contact sealing with the cap is better, and the product residue is less.
06 5L cell bottle adopts a two-stage design to increase the contact area. The contact area between the roller bottle and the rotating bottle machine adopts the frosted structure to increase the friction coefficient of the roller bottle and reduce the sliding phenomenon.
1. Chemical Resistance: PTFE (Polytetrafluoroethylene) is known for its exceptional chemical resistance. It can withstand aggressive acids, alkalis, and organic solvents without degradation. This makes PTFE electrolysis test tank highly suitable for processes involving corrosive chemicals, where traditional materials might corrode or degrade.
2. High Temperature Stability: PTFE maintains its structural integrity and performance in a wide range of temperatures, typically between -200�°C and 260�°C. This high thermal stability makes PTFE electrolysis test tank ideal for processes that involve high temperatures.
3. Non-stick Surface: PTFE has a naturally low surface energy, meaning that it has excellent anti-stick properties. This is beneficial in electrolytic processes where the buildup of by-products or contaminants on the cell surface can affect efficiency.
4. Electrical Insulation: PTFE is a good electrical insulator, which makes it ideal for use in electrolysis test tank, where electrical isolation and safety are critical.
5. Durability and Longevity: PTFE is highly durable and resistant to wear, ensuring long-term reliability and performance in demanding electrolytic processes.
6. Low Surface Friction: The low friction coefficient of PTFE reduces wear and tear on the components in the electrolytic cell, leading to lower maintenance requirements and increased efficiency over time.
Most suitable for experiments requiring low-temperature conditions like microorganism or activation, cell culture process of animals and plants, good storage and desalting process of enzyme extracts, etc.
With a solid double-walled door and a full view inner plexiglass door enables inspection and monitoring of inner chamber specimens without distributing the process temperature.
Excellent quality magnetic gum packing door gasket for an external door.
User-oriented design of shelves makes you adjust each space of shelves without difficulty.
Forced air circulation at the triple-walled back by the durable coaxial blower, maintains optimum temperature uniformity and homogeneity.
High-grade HIGH PRESSURE FOAMED IN-PLACE PUF INSULATION between outer and inner chamber for minimal thermal losses.
Caster wheel mounted for easy portability.
Front double walled door is provided with lock and key arrangement.
Door operated illumination lamp is fitted inside the chamber for easy visibility.
Finned tube evaporator facilitates uniform and faster cooling effects.
Forced convection digitally controlled hot air ovens suitable for precise heating drying and various other laboratory drying applications requiring controlled heating zone
Features
Forced convection system ensures good mixing strong dispersion and maintains higher temperature uniformity inside the chamber
Most ideal for various experiments in microbiology cell cultivation of animals and plants and food for various laboratories industries R D labs etc
Synthetic door gasket made of neoprene on the doublewalled door
Useroriented design of shelves makes you adjust each space of shelves without difficulty
Adjustable two ventilation slides control inner airvapor circulation
Beaded heating elements are placed in ribs at bottom and sides for uniform heat distribution
Constructional Features
Outer body made of CRC Sheet duly powder coated
Inner chamber and adjustable trays are made of Stainless Steel SS304 grade
Gap between the inner chamber and the outer wall is filled with highgrade mineral wool for minimal heat dissipation
Bigger sized units mounted on caster wheels for easy portability
Door fitted with heavyduty hinges and door handle ensuring there are no leakages through the door gasket
Temperature Range 50C to 250C
Temperature Accuracy 1C
Temp Controller Microprocessor Based Digital Temperature IndicatorCumController with LED OR LCD Display OR TFT Touch Screen Display Controller Option
Type Available with forced convection system
Regulator Solidstate electronic relay with protective heat sink
Safety Device Overtemperature limiter switch prevents overheating
To work on 220230V AV 5060 Hz supply
Forced convection digitally controlled hot air ovens suitable for precise heating drying and various other laboratory drying applications requiring controlled heating zone.
Features
Forced convection system ensures good mixing, strong dispersion and maintains higher temperature uniformity inside the chamber.
Most ideal for various experiments in microbiology, cell cultivation of animals and plants and food for various laboratories, industries, R & D labs, etc.
Synthetic door gasket made of neoprene on the double-walled door.
User-oriented design of shelves makes you adjust each space of shelves without difficulty.
Adjustable two ventilation slides control inner air/vapor circulation.
Beaded heating elements are placed in ribs, at bottom and sides for uniform heat distribution.
Constructional Features
Outer body made of CRC Sheet duly powder coated
Inner chamber and adjustable trays are made of Stainless Steel (SS-304 grade).
Gap between the inner chamber and the outer wall is filled with high-grade mineral wool for minimal heat dissipation.
Bigger sized units mounted on caster wheels for easy portability.
Door fitted with heavy-duty hinges and door handle ensuring there are no leakages through the door gasket.
Temperature Range: 50Ã??C to 250Ã??C
Temperature Accuracy: �±1�?C
Temp. Controller: Microprocessor Based Digital Temperature Indicator-Cum-Controller with LED OR LCD Display OR TFT Touch Screen Display Controller (Option)
Type: Available with forced convection system
Regulator: Solid-state electronic relay with protective heat sink
Safety Device: Over-temperature limiter switch prevents overheating
To work on 220/230V AV, 50/60 Hz supply
OST Photonics offers various functional crystal materials for laser systems, optical equipment and instruments. Crystals are divided into six types according to their functions: laser crystals (diffusion bonding crystals, Nd:YAG, Er:YAG, Yb:YAG, CTH:YAG, Nd:Ce:YAG, Nd:YVO4, Nd:GdVO4, Nd:YLF, Pr:YLF, Ho:YLF, Tm:YLF, Ti:Sapphire, Er:Yb: Glass), nonlinear crystals (KDP & DKDP), KTP, LiNbO3, LBO, BBO, BIBO), passive Q-switch crystals (Cr4+:YAG, Co2+:MgAl2O4), birefringent crystals (YVO4, �±-BBO), Magneto-optic Crystals (TGG) and optical crystals (BaF2, CaF2, MgF2, LiF, Germanium single crystal, Sapphire (Al2O3), YAG, ZnSe, Silicon single crystal, ZnS). If you want to know more about our functional crystals, please do not hesitate to contact OST Photonics.
What are Functional Crystals?
A wide range of functional crystal materials is used in various optical applications. While optical glass is commonly used as a transparent material, different functional crystal materials, primarily monocrystalline materials, are required for diverse applications due to their unique functionalities:
In contrast to glass, birefringent crystals can exhibit birefringence, which is a requirement for various types of polarizers, wave plates, birefringent tuners, and other optical components. Commonly used birefringent crystal materials include YVO4, �±-BBO, quartz, calcite and sapphire.
The lattice symmetry of a crystal material is not too high (such as a triangular, quadrilateral, or single prism), and it can exhibit nonlinearity. Nonlinear crystals are primarily used for nonlinear frequency conversion but also find applications in optical modulators like the Pokel cell.
A wide variety of functional crystal materials can be used as laser crystals, serving as host materials for laser-active dopants (rare earth ions or transition metal ions). They typically exhibit relatively high transition cross sections, small gain bandwidth, and good heat conduction compared to laser-active glasses. In general, they also allow for higher doping concentrations.
In some cases, functional crystal materials are used in spectral regions where glass does not have a wide enough wavelength range and high transmittance. In particular, various materials such as zinc sulfide (ZnS), zinc selenide (ZnSe) and Sapphire (Al2O3) are used as infrared crystals, and other materials such as lithium fluoride (LiF), calcium fluoride (CaF2) and magnesium fluoride (MgF2) are used as ultraviolet crystals.
Some functional crystal materials, such as terbium gallium garnet (TGG), exhibit the Faraday effect (polarization rotation caused by magnetic fields), and they can be utilized in devices like Faraday rotators and Faraday isolators.
