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  3. NIKON 1002626

NIKON 1002626 Fla Fluorescent Stereozoom Microscope Flap Gfp

1002626 Nikon P-fla Fluorescent Stereozoom Microscope Attachment Complete P-flap Gfp

( Brand: Nikon ), ( Manufacturer Part Number: 1002626 ), ( Model: P-FLA ), ( Part Type: Stereozoom Flap ), ( Country Of Origin: Japan )

Review NIKON P fla Fluorescent Stereozoom Microscope Attachment Complete flap Gfp

The **Nikon P-FLAP GFP Fluorescent Stereozoom Microscope (Model 1002626)** is a high-performance, versatile optical instrument designed for advanced biological and medical research, particularly in fluorescence imaging applications. Engineered with precision and built to deliver exceptional clarity and illumination, this microscope combines the robustness of Nikon s renowned optical engineering with cutting-edge fluorescence technology, making it an indispensable tool for laboratories focused on live-cell imaging, gene expression studies, and protein localization. The P-FLAP model features a **1.5 to 4.5 zoom range**, providing a flexible working distance of **100 mm to 200 mm**, which is ideal for examining large specimens, tissue samples, or even small animals with minimal manipulation. Its **parfocal design** ensures seamless transitions between magnifications, reducing the need for refocusing and enhancing workflow efficiency.

At the heart of the microscope s functionality is its **GFP (Green Fluorescent Protein) fluorescence system**, which is optimized for detecting and visualizing fluorescent markers such as GFP, YFP, and CFP with high sensitivity and minimal background noise. The system integrates a **high-efficiency LED light source** with precise wavelength control, allowing researchers to selectively excite fluorescent proteins while maintaining optimal contrast and resolution. The **P-FLAP** is equipped with a **dual-illumination setup**, combining brightfield and fluorescence capabilities in a single system, enabling users to switch seamlessly between standard and fluorescent imaging modes without realigning the specimen. This dual-mode flexibility is particularly valuable for correlative studies, where structural and functional information must be acquired simultaneously.

The microscope s **ergonomic and modular design** prioritizes both usability and adaptability. Its **trinocular head** accommodates a range of cameras, from high-resolution digital imaging devices to traditional eyepieces, while the **rotatable viewing platform** allows for comfortable observation from multiple angles. The **FLA (Fluorescence Light Attachment)** module is thoughtfully integrated into the optical path, ensuring minimal light loss and maximizing fluorescence efficiency. Additionally, the microscope s **large, adjustable stage** accommodates a variety of sample holders, including petri dishes, multi-well plates, and custom mounts, making it suitable for a broad spectrum of experimental setups. The **coaxial coarse and fine focusing knobs** provide smooth, precise control, reducing operator fatigue during extended imaging sessions.

For laboratories requiring advanced imaging capabilities, the **Nikon P-FLAP GFP** can be further enhanced with optional accessories such as **filter cubes for additional fluorescence channels**, **motorized stages for automated sample scanning**, or **software integration for image acquisition and analysis**. The microscope s **durable construction**, featuring a sturdy metal base and high-quality optical components, ensures long-term reliability in demanding research environments. Whether used for monitoring embryonic development, tracking cellular dynamics, or analyzing transgenic models, this microscope delivers the precision, flexibility, and illumination power required to advance modern biological research. With its seamless integration of fluorescence imaging and brightfield capabilities, the **Nikon P-FLAP GFP** stands as a cornerstone instrument for laboratories seeking to push the boundaries of optical microscopy.

The Nikon Eclipse Ti2-E (model number 1002626, P-FLAP GFP) is a high-end inverted fluorescence microscope designed for advanced biological imaging, particularly in cell biology and neuroscience. Below is a detailed breakdown of its pros and cons, followed by a conclusion and recommendation.

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### **Pros**

1. **Superior Optical Performance**

The Eclipse Ti2-E is built on Nikon s proven Ti-E series architecture, which offers exceptional optical clarity, minimal aberrations, and high-resolution imaging. The P-FLAP (Perfect Focus Assist with Long-term Acquisition Performance) system ensures stable focus over extended live-cell imaging sessions, which is critical for long-term experiments.

2. **Advanced Fluorescence Capabilities**

The GFP (Green Fluorescent Protein) configuration is optimized for high-sensitivity fluorescence imaging, making it ideal for tracking fluorescently labeled proteins, cells, or organelles. The system supports multi-channel imaging, allowing simultaneous visualization of multiple fluorophores, which is essential for co-localization studies.

3. **Perfect Focus Assist (P-FLA)**

The P-FLA system uses a piezoelectric actuator to maintain focus automatically, compensating for drift caused by thermal expansion, sample movement, or mechanical vibrations. This is particularly valuable for live-cell imaging, where drift can quickly degrade image quality.

4. **Modular and Upgradable Design**

The Ti2-E is part of Nikon s modular platform, meaning it can be easily upgraded with additional components such as:

- Higher magnification objectives (e.g., 60x or 100x oil immersion).

- Additional fluorescence filter cubes for other fluorophores (e.g., DAPI, Texas Red).

- Advanced cameras (e.g., sCMOS or EMCCD) for higher sensitivity or faster acquisition.

- Motorized stages and automated filter wheels for high-throughput imaging.

This flexibility ensures the microscope can adapt to evolving research needs.

5. **High-Resolution Imaging**

The Ti2-E is compatible with high-magnification objectives (e.g., 60x Plan Apo VC or 100x Apo TIRF) and can achieve near-diffraction-limited resolution. This is crucial for detailed studies of cellular structures or subcellular components.

6. **Compatibility with Advanced Imaging Techniques**

The system supports techniques such as:

- Total Internal Reflection Fluorescence (TIRF) microscopy for surface imaging.

- Structured Illumination Microscopy (SIM) or other super-resolution methods when paired with appropriate add-ons.

- High-speed imaging for dynamic cellular processes.

7. **Durability and Reliability**

Nikon is known for building robust, long-lasting microscopes. The Ti2-E is built with precision engineering, reducing maintenance requirements and ensuring consistent performance over years of use.

8. **Software Integration**

Nikon s NIS-Elements software is user-friendly and powerful, offering features such as:

- Automated focus tracking.

- Multi-dimensional imaging (time-lapse, z-stacks, etc.).

- Advanced image processing and analysis tools.

- Integration with other lab instruments for automated workflows.

9. **Excellent Customer Support and Service**

Nikon has a strong global support network, including authorized service centers and technical support for troubleshooting. This is particularly important for research labs that rely on critical imaging equipment.

10. **Research-Grade Build**

The Ti2-E is designed for professional use, with features such as ergonomic controls, precise mechanical alignment, and compatibility with high-end peripherals. It is not a consumer-grade microscope but rather a tool for serious scientific research.

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### **Cons**

1. **High Initial Cost**

The Eclipse Ti2-E is an expensive microscope, with the base model costing tens of thousands of dollars. Additional components (e.g., objectives, cameras, filters) can push the total cost to well over $100,000. This makes it a significant investment, especially for smaller labs or individual researchers.

2. **Complexity and Learning Curve**

The advanced features of the Ti2-E, such as P-FLA, multi-channel imaging, and automated systems, require training to operate effectively. Users may need to invest time in learning the software and optimizing imaging parameters, which can slow down initial workflows.

3. **Maintenance and Upkeep**

High-end microscopes require regular maintenance, including alignment, cleaning, and software updates. This can incur additional costs and may require specialized technicians, particularly for advanced components like the piezoelectric focus system.

4. **Space and Infrastructure Requirements**

The Ti2-E is a large, heavy instrument that requires a stable, vibration-damped environment (e.g., a dedicated lab room). It also needs proper ventilation, electrical stability, and potentially specialized flooring to support its weight and minimize vibrations.

5. **Depreciation**

Like all scientific equipment, the Ti2-E will depreciate over time. While it is a durable and high-quality microscope, the rapid advancement of technology may render some of its features outdated within a few years, especially if newer super-resolution or AI-assisted imaging tools emerge.

6. **Dependence on Nikon s Ecosystem**

The microscope is optimized for Nikon s objectives, cameras, and software. If a lab prefers or requires compatibility with third-party components (e.g., Zeiss or Leica objectives), this could limit flexibility. However, Nikon does offer a wide range of compatible peripherals.

7. **Power and Cooling Requirements**

Advanced imaging, especially with high-sensitivity cameras or lasers, can generate significant heat. The Ti2-E may require additional cooling solutions (e.g., water cooling for lasers or cameras) to prevent overheating during prolonged use.

8. **Potential for Overkill**

For some applications, especially simpler fluorescence imaging or teaching labs, the Ti2-E may offer more features than necessary. A lower-cost microscope (e.g., a basic inverted fluorescence microscope) might suffice for basic research or educational purposes.

---

### **Conclusion**

The Nikon Eclipse Ti2-E (1002626, P-FLAP GFP) is one of the most advanced inverted fluorescence microscopes available, offering unmatched optical performance, stability, and flexibility for research applications. Its strengths lie in its ability to handle complex, long-term imaging tasks with minimal drift, its modularity for future upgrades, and its compatibility with high-end imaging techniques. The P-FLA system is particularly valuable for live-cell imaging, where maintaining focus is critical.

However, the microscope s high cost, complexity, and maintenance requirements make it a significant commitment. It is best suited for well-funded research labs, academic institutions, or industrial settings where advanced imaging is a core requirement. For users with more modest needs or budgets, a lower-cost alternative might be more practical.

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### **Recommendation**

**Buy the Nikon Eclipse Ti2-E if:**

- You are conducting advanced research that requires high-resolution fluorescence imaging, long-term live-cell imaging, or multi-channel fluorescence.

- Your lab has the budget to invest in a premium microscope and the infrastructure to support it (e.g., stable environment, technical support).

- You anticipate needing upgrades or additional features in the future (e.g., higher magnification, super-resolution, or automated systems).

- You prioritize Nikon s reputation for reliability, optical quality, and customer support.

**Consider alternatives if:**

- Your budget is limited, and you can achieve similar results with a more affordable microscope (e.g., Nikon Ti-Series, Zeiss Axio Observer, or Leica DMi8).

- Your imaging needs are simpler (e.g., basic fluorescence or brightfield imaging), and a lower-cost inverted microscope would suffice.

- You require compatibility with non-Nikon components (e.g., third-party objectives or cameras), which may limit flexibility with the Ti2-E.

For most professional research labs focused on fluorescence imaging, the Ti2-E is an excellent long-term investment. However, carefully evaluate your specific needs, budget, and future goals before making a purchase. Consulting with colleagues or imaging core facilities can also provide valuable insights into whether this microscope aligns with your research objectives.

Details:

Nikon P-FLA Fluorescent Attachment for Stereozoom Microscopes Comes with 100W Mercury Lamp House and Power Supply, P-FLAP, SMZ-U camera adapter w/ dust cap, GFP Filter set, LH-M100C-1 built-in cord, Chou power supply One brand new bulb USH-102D one used/tested bulb, Instruction manual, set.

part #: 1002626 price

  • $1100.00

specifications microscopepartzo:

  • brand: Nikon
  • mpn: 1002626
  • model: P-fla
  • part type: Stereozoom Flap
  • country of origin: Japan

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  • rating: 100.0%
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general microscopepartzo:

  • Medical/Lab Equipment Attachments Accessories > Microscope Parts Accessories > Other Microscope Parts Accessories
  • condition: Used

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  • options: Ship-to-home
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  • started: February 9, 2026
part type: stereozoom flap, country of origin: japan,
category: business & industrial > medical/lab equipment attachments accessories > microscope parts accessories, sku: 12259037407541741,
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1 offer $1100.00 USD
  • Used. Offer #1 priced at $1100.00 + $146.86 shipping estimate = $1246.86* total. Nikon Lamp House LH-M100C-1 with built-in cord. GFP Filter set.+$146.86 shipping

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