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인용 및 참조 문헌 (2)
Invitrogen™
Qdot™ 585 ITK™ Carboxyl Quantum Dots
Qdot™ 585 ITK™ carboxyl quantum dots are the ideal starting material for preparing custom conjugates that require high loading of자세히 알아보기
| 카탈로그 번호 | 수량 |
|---|---|
| Q21311MP | 250 μL |
카탈로그 번호 Q21311MP
제품 가격(KRW)
705,000
온라인 행사
Ends: 31-Dec-2025
881,000할인액 176,000 (20%)
Each
수량:
250 μL
제품 가격(KRW)
705,000
온라인 행사
Ends: 31-Dec-2025
881,000할인액 176,000 (20%)
Each
Qdot™ 585 ITK™ carboxyl quantum dots are the ideal starting material for preparing custom conjugates that require high loading of biomolecules. These materials are carboxylate functionalized and can be coupled to amine groups of proteins and modified oligonucleotides using EDC-mediated condensation. The coatings of these probes provides more binding sites than our Qdot™ ITK™ amino quantum dots, but lacks PEG linkers that help to prevent non-specific interactions. These materials can be conjugated to X-PEG-amine bi-functional linkers for custom reactivity and higher specificity. Our Qdot™ ITK™ carboxyl quantum dots are provided as 8 μM solutions and are available in all 9 Qdot™ probe colors.
Important Features of Qdot™ ITK™ Carboxyl Quantum Dots:
• Qdot™ 585 ITK™ carboxyl quantum dot has emission maxima of ∼585 nm
• Extremely photostable and bright fluorescence
• Efficiently excited with single-line excitation sources
• Narrow emission, large Stokes shift
• Available in multiple colors
• Ideal labeling and tracking applications
Properties of Qdot™ Nanocrystals
Qdot™ probes are ideal for imaging and labeling applications that require bright fluorescent signals and/or real-time tracking. Unique among fluorescent reagents, all nine available colors of Qdot™ probes can be simultaneously excited with a single (UV to blue-green) light source. This property makes these reagents excellent for economical and user-friendly multiplexing applications. Qdot™ labels are based on semiconductor nanotechnology and are similar in scale to moderately sized proteins.
About the Innovator’s Tool Kit Qdot™ ITK™ Reagents
These Qdot™ ITK™ probes are ideal for researchers who wish to prepare specific (non-stocked) conjugates for their applications and need customizable conjugation functionality.
Other Forms of Qdot™ Nanocrystals are Available
In addition to the carboxyl-derivatized form, we offer Qdot™ ITK™ quantum dots with amino and aliphatic hydrocarbon modifications. We’ve also developed a wide range of Qdot™ nanocrystals conjugates and labeling kits. Investigate the properties of Qdot™ nanocrystals or read the Molecular Probes™ Handbook Section 6.6—Qdot™ Nanocrystals to find out more.
For Research Use Only. Not intended for any animal or human therapeutic or diagnostic use.
Important Features of Qdot™ ITK™ Carboxyl Quantum Dots:
• Qdot™ 585 ITK™ carboxyl quantum dot has emission maxima of ∼585 nm
• Extremely photostable and bright fluorescence
• Efficiently excited with single-line excitation sources
• Narrow emission, large Stokes shift
• Available in multiple colors
• Ideal labeling and tracking applications
Properties of Qdot™ Nanocrystals
Qdot™ probes are ideal for imaging and labeling applications that require bright fluorescent signals and/or real-time tracking. Unique among fluorescent reagents, all nine available colors of Qdot™ probes can be simultaneously excited with a single (UV to blue-green) light source. This property makes these reagents excellent for economical and user-friendly multiplexing applications. Qdot™ labels are based on semiconductor nanotechnology and are similar in scale to moderately sized proteins.
About the Innovator’s Tool Kit Qdot™ ITK™ Reagents
These Qdot™ ITK™ probes are ideal for researchers who wish to prepare specific (non-stocked) conjugates for their applications and need customizable conjugation functionality.
Other Forms of Qdot™ Nanocrystals are Available
In addition to the carboxyl-derivatized form, we offer Qdot™ ITK™ quantum dots with amino and aliphatic hydrocarbon modifications. We’ve also developed a wide range of Qdot™ nanocrystals conjugates and labeling kits. Investigate the properties of Qdot™ nanocrystals or read the Molecular Probes™ Handbook Section 6.6—Qdot™ Nanocrystals to find out more.
For Research Use Only. Not intended for any animal or human therapeutic or diagnostic use.
For Research Use Only. Not for use in diagnostic procedures.
사양
화학물질 반응성Amine
농도8 μM
방출585
라벨 또는 염료Qdot™ 585
제품 유형Quantum Dot
수량250 μL
반응성 부분Carboxylic Acid
배송 조건Room Temperature
색상Orange
라벨 유형Qdot Nanocrystals
제품라인ITK, Qdot
Unit SizeEach
구성 및 보관
Store in refrigerator (2–8°C).
자주 묻는 질문(FAQ)
How large are the Qdot nanocrystals?
What is the best way to remove white precipitate from my ITK Qdot nanocrystals?
I see a white precipitate in my ITK Qdot nanocrystals; should I be concerned?
Why do my Qdot nanocrystals appear to be blinking?
My Qdot nanocrystals were brightly fluorescent before I mounted my samples; now I'm seeing a loss of fluorescence. Why is this happening?
인용 및 참조 문헌 (2)
인용 및 참조 문헌
Abstract
In vivo real-time, multicolor, quantum dot lymphatic imaging.
Journal:J Invest Dermatol
PubMed ID:19536144
'The lymphatic network is complex and difficult to visualize in real-time in vivo. Moreover, the direction of flow within lymphatic networks is often unpredictable especially in areas with well-developed '
Vertical silicon nanowires as a universal platform for delivering biomolecules into living cells.
Journal:Proc Natl Acad Sci U S A
PubMed ID:20080678
A generalized platform for introducing a diverse range of biomolecules into living cells in high-throughput could transform how complex cellular processes are probed and analyzed. Here, we demonstrate spatially localized, efficient, and universal delivery of biomolecules into immortalized and primary mammalian cells using surface-modified vertical silicon nanowires. The method relies