Calculator A to Z

Donor Lifetime using Rates of Transitions Calculator

Chemistry
Engineering
Financial
Health
Math
Physics
Playground
Physical Chemistry
Analytical chemistry
Atmospheric Chemistry
Atomic structure
Basic Chemistry
Biochemistry
Chemical Bonding
Chemical Kinetics
Chemical Thermodynamics
Density of Gas
Electrochemistry
EPR Spectroscopy
Equilibrium
Femtochemistry
Green Chemistry
Inorganic Chemistry
Kinetic Theory of Gases
Mole Concept and Stoichiometry
Nanomaterials and Nanochemistry
Nuclear Chemistry
Organic Chemistry
Periodic Table and Periodicity
Pharmacokinetics
Phase Equilibrium
Photochemistry
Phytochemistry
Polymer Chemistry
Quantum
Solid State Chemistry
Solution and Colligative properties
Spectrochemistry
Statistical Thermodynamics
Surface Chemistry
Physical spectroscopy
Gaseous state
Vapour Pressure
Emission Spectroscopy
Absorption Spectroscopy
Raman spectroscopy
Rotational Spectroscopy
Vibrational Spectroscopy
Fluoroscence and Phosphorescence
Quantum Yield and Singlet Llifetime
Förster resonance energy transfer
The Rate of Radiative Transitions is the radiative decay rate of the donor.Rate of Radiative Transitions [Kr]
+10%
-10%
The Rate of Non radiative Transitions is the rates of any other de-excitation pathways excluding energy transfers to other acceptors.Rate of Non radiative Transitions [Knr]
+10%
-10%
The Donor Lifetime is the donor's fluorescence lifetime in the absence of the acceptor.Donor Lifetime using Rates of Transitions [ζD]
⎘ Copy
👎
Formula

Donor Lifetime using Rates of Transitions

Formula
`"ζ"_{"D"} = 1/("K"_{"r"}+"K"_{"nr"})`

Example
`"20"=1/("0.02"+"0.03")`

Calculator
LaTeX
Reset
👍

Donor Lifetime using Rates of Transitions Solution

STEP 0: Pre-Calculation Summary
Formula Used
Donor Lifetime = 1/(Rate of Radiative Transitions+Rate of Non radiative Transitions)
ζD = 1/(Kr+Knr)
This formula uses 3 Variables
Variables Used
Donor Lifetime - The Donor Lifetime is the donor's fluorescence lifetime in the absence of the acceptor.
Rate of Radiative Transitions - The Rate of Radiative Transitions is the radiative decay rate of the donor.
Rate of Non radiative Transitions - The Rate of Non radiative Transitions is the rates of any other de-excitation pathways excluding energy transfers to other acceptors.
STEP 1: Convert Input(s) to Base Unit
Rate of Radiative Transitions: 0.02 --> No Conversion Required
Rate of Non radiative Transitions: 0.03 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ζD = 1/(Kr+Knr) --> 1/(0.02+0.03)
Evaluating ... ...
ζD = 20
STEP 3: Convert Result to Output's Unit
20 --> No Conversion Required
FINAL ANSWER
20 <-- Donor Lifetime
(Calculation completed in 00.004 seconds)
You are here -
Home » Chemistry » Physical Chemistry » Physical spectroscopy » Emission Spectroscopy » Fluoroscence and Phosphorescence » Förster resonance energy transfer » Donor Lifetime using Rates of Transitions

Credits

Creator Image
Created by Abhijit gharphalia
national institute of technology meghalaya (NIT Meghalaya), Shillong
Abhijit gharphalia has created this Calculator and 50+ more calculators!
Verifier Image
Verified by Soupayan banerjee
National University of Judicial Science (NUJS), Kolkata
Soupayan banerjee has verified this Calculator and 800+ more calculators!

11 Förster resonance energy transfer Calculators

Forster Critical Distance
​ Go Forster Critical Distance = 0.0211*((Refractive Index of Medium)^(-4)*(Fluorescence Quantum Yield without FRET)*(Orientation Factor)*(Spectral Overlap Integral))^(1/6)
Efficiency of Energy Transfer using Rate of Energy Transfer
​ Go Efficiency of Energy Transfer = Rate of Energy Transfer/(Rate of Energy Transfer+Rate of Non radiative Transitions+Rate of Radiative Transitions)
Donor Lifetime with FRET using Rate of Energy and Transitions
​ Go Donor Lifetime with FRET = 1/(Rate of Energy Transfer+Rate of Radiative Transitions+Rate of Non radiative Transitions)
Rate of Energy Transfer using Distances and Donor Lifetime
​ Go Rate of Energy Transfer = (1/Donor Lifetime)*(Forster Critical Distance/Donor to Acceptor Distance)^6
Efficiency of Energy Transfer using Photobleaching Decay Time Constant
​ Go Efficiency of Energy Transfer = 1-(Photobleaching Decay Time Constant/Photobleaching Decay Time Constant with FRET)
Efficiency of Energy Transfer using Distances
​ Go Efficiency of Energy Transfer = 1/(1+(Donor to Acceptor Distance/Forster Critical Distance)^6)
Efficiency of Energy Transfer using Fluorescence Intensity of Donor
​ Go Efficiency of Energy Transfer = 1-(Fluorescence Intensity with FRET/Fluorescence intensity)
Efficiency of Energy Transfer using Rate of Energy Transfer and Donor Lifetime
​ Go Efficiency of Energy Transfer = Rate of Energy Transfer/(1/Donor Lifetime with FRET)
Donor Lifetime using Rates of Transitions
​ Go Donor Lifetime = 1/(Rate of Radiative Transitions+Rate of Non radiative Transitions)
Fluorescence Quantum Yield in FRET
​ Go Fluorescence Quantum Yield = Number of Photons Emitted/Number of Photons Absorbed
Efficiency of Energy Transfer using Donor Lifetime
​ Go Efficiency of Energy Transfer = 1-(Donor Lifetime with FRET/Donor Lifetime)

Donor Lifetime using Rates of Transitions Formula

Donor Lifetime = 1/(Rate of Radiative Transitions+Rate of Non radiative Transitions)
ζD = 1/(Kr+Knr)

What is Fluorescence?

Fluorescence is the emission of light by a substance that has absorbed light or other electromagnetic radiation. It is a form of luminescence.

How to Calculate Donor Lifetime using Rates of Transitions?

Donor Lifetime using Rates of Transitions calculator uses Donor Lifetime = 1/(Rate of Radiative Transitions+Rate of Non radiative Transitions) to calculate the Donor Lifetime, The Donor Lifetime using Rates of Transitions formula is defined as the inverse of the sum of rate of radiative transitions and rate of non radiative transitions. Donor Lifetime is denoted by ζD symbol.

How to calculate Donor Lifetime using Rates of Transitions using this online calculator? To use this online calculator for Donor Lifetime using Rates of Transitions, enter Rate of Radiative Transitions (Kr) & Rate of Non radiative Transitions (Knr) and hit the calculate button. Here is how the Donor Lifetime using Rates of Transitions calculation can be explained with given input values -> 20 = 1/(0.02+0.03).

FAQ

What is Donor Lifetime using Rates of Transitions?
The Donor Lifetime using Rates of Transitions formula is defined as the inverse of the sum of rate of radiative transitions and rate of non radiative transitions and is represented as ζD = 1/(Kr+Knr) or Donor Lifetime = 1/(Rate of Radiative Transitions+Rate of Non radiative Transitions). The Rate of Radiative Transitions is the radiative decay rate of the donor & The Rate of Non radiative Transitions is the rates of any other de-excitation pathways excluding energy transfers to other acceptors.
How to calculate Donor Lifetime using Rates of Transitions?
The Donor Lifetime using Rates of Transitions formula is defined as the inverse of the sum of rate of radiative transitions and rate of non radiative transitions is calculated using Donor Lifetime = 1/(Rate of Radiative Transitions+Rate of Non radiative Transitions). To calculate Donor Lifetime using Rates of Transitions, you need Rate of Radiative Transitions (Kr) & Rate of Non radiative Transitions (Knr). With our tool, you need to enter the respective value for Rate of Radiative Transitions & Rate of Non radiative Transitions and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
About | Contact | Disclaimer | Terms | Privacy Policy
© 2016-2024 A softusvista inc. venture!


Home Icon
Home PDF Icon
FREE PDFs
🔍 Search
Category Icon
Categories
Share Icon
Share
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!