Nanotechnology Now – Press Release: A novel nitrogen-doped dual-emission carbon dots as an effective fluorescent probe for ratiometric detection dopamine

Home > Press > A novel nitrogen-doped dual-emission carbon dots as an effective fluorescent probe for ratiometric detection dopamine

A schematic illustration of Synthesis of nitrogen-doped double-emission carbon dots and ratio fluorescence detection for dopamine, which acts as a neurotransmitter to regulate various physiological functions of the central nervous system.

Abstract:
How to construct the dual emission nitrogen-doped carbon dots (CDs) by a simple method? Professor Lili Ren with her collaborators proposed a new strategy to prepare such materials which were used to the detection of dopamine.

A novel nitrogen-doped dual-emission carbon dots as an effective fluorescent probe for ratiometric detection dopamine

Singapore | Posted on June 1st, 2021

The traditional ratiometric fluorescence (FL) probe usually needs to combine different nanomaterials by chemical or physical methods and the manufacturing process is more complicated. While the dual-emission carbon dots (DECDs) can simplify the detection process. Therefore, it is of great significance to design a simple ratiometric fluorescence probe based on the DECDs for the accurate determination of DA concentration. Here, a new kind of dual-emission N-doped carbon dots (N-CDs) was prepared by one-pot hydrothermal method with p-phenylenediamineas as carbon source and triethylamine as nitrogen dopant. The synthesized N-CDs show FL emission at 435 nm and 595 nm under 360 nm excitation wavelength. The N-CDs can be used as a ratiometric fluorescence probe for highly selective detection of DA. This is the first time to report the dual-emission fluorescence carbon dots to detect DA.

This work not only develops a new method for preparing dual emission nitrogen-doped carbon dots, but also exploits an economic, environmentally friendly, sensitive and specific DA detection method.

This work was supported by A Project Subsidized the Priority Academic Program Development of Jiangsu Higher Education Institutions (1107047002).

####

For more information, please click here

Contacts:
Rebecca Atkinson

65-646-65775 x261

@worldscientific

Copyright © World Scientific

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:

The paper:

News and information

Quantum holds the key to secure conference calls June 6th, 2021

An atom chip interferometer that could detect quantum gravity June 4th, 2021

Using HPC and experiment, researchers continue to refine graphene production: Researchers from the Technical University of Munich have been using GCS HPC resources to develop more efficient methods for producing graphene at the industrial scale June 4th, 2021

Magnetism drives metals to insulators in new experiment: Study provides new tools to probe novel spintronic devices June 4th, 2021

Possible Futures

Quantum holds the key to secure conference calls June 6th, 2021

An atom chip interferometer that could detect quantum gravity June 4th, 2021

Using HPC and experiment, researchers continue to refine graphene production: Researchers from the Technical University of Munich have been using GCS HPC resources to develop more efficient methods for producing graphene at the industrial scale June 4th, 2021

Magnetism drives metals to insulators in new experiment: Study provides new tools to probe novel spintronic devices June 4th, 2021

Discoveries

Quantum holds the key to secure conference calls June 6th, 2021

An atom chip interferometer that could detect quantum gravity June 4th, 2021

Using HPC and experiment, researchers continue to refine graphene production: Researchers from the Technical University of Munich have been using GCS HPC resources to develop more efficient methods for producing graphene at the industrial scale June 4th, 2021

Magnetism drives metals to insulators in new experiment: Study provides new tools to probe novel spintronic devices June 4th, 2021

Materials/Metamaterials

Using HPC and experiment, researchers continue to refine graphene production: Researchers from the Technical University of Munich have been using GCS HPC resources to develop more efficient methods for producing graphene at the industrial scale June 4th, 2021

New form of silicon could enable next-gen electronic and energy devices: Novel crystalline form of silicon could potentially be used to create next-generation electronic and energy devices June 4th, 2021

Hexagonal boron nitride’s remarkable toughness unmasked: 2D material resists cracking and description by century-old theory of fracture mechanics June 2nd, 2021

Researchers build structured, multi-part nanocrystals with super light-emitting properties May 28th, 2021

Announcements

Quantum holds the key to secure conference calls June 6th, 2021

An atom chip interferometer that could detect quantum gravity June 4th, 2021

Using HPC and experiment, researchers continue to refine graphene production: Researchers from the Technical University of Munich have been using GCS HPC resources to develop more efficient methods for producing graphene at the industrial scale June 4th, 2021

Magnetism drives metals to insulators in new experiment: Study provides new tools to probe novel spintronic devices June 4th, 2021

Interviews/Book Reviews/Essays/Reports/Podcasts/Journals/White papers/Posters

Quantum holds the key to secure conference calls June 6th, 2021

An atom chip interferometer that could detect quantum gravity June 4th, 2021

Using HPC and experiment, researchers continue to refine graphene production: Researchers from the Technical University of Munich have been using GCS HPC resources to develop more efficient methods for producing graphene at the industrial scale June 4th, 2021

Magnetism drives metals to insulators in new experiment: Study provides new tools to probe novel spintronic devices June 4th, 2021

Tools

Using the environment to control quantum devices: A deeper understanding of how the environment impacts quantum behaviour is bringing quantum devices one step closer to widespread adoption June 1st, 2021

Nanophotonics enhanced coverslip for phase imaging in biology May 14th, 2021

World’s first fiber-optic ultrasonic imaging probe for future nanoscale disease diagnostics April 30th, 2021

New Cypher VRS1250 Video-Rate Atomic Force Microscope Enables True Video-Rate Imaging at up to 45 Frames per Second April 30th, 2021