Towards new efficient nanostructured hybrid materials for ECL applications / Vers de nouveaux matériaux hybrides nanostructurés efficaces pour des applications en électrochimiluminescence (ECL)

Carrara, Serena

11 April 2017

Cette thèse vise à développer de nouveaux matériaux hybrides pour les applications en électrochimiluminescence. Les propriétés électrochimiluminescentes de nouveaux complexes de Pt(II) et d’Ir(III) ont été explorés comme alternative aux marqueurs existants. En plus, la combinaison de complexes et de carbon nanodots portant des groupes primaires ou tertiaires à la surface comme espèces coréactives a abouti à une stratégie intéressante pour éliminer la TPrA. Les carbon nanodots dans un systéme lié par liaison covantent avec complexes métalliques sont non seulement un support innocent pour les espèces actives d’ECL, mais agissent également comme coréactif, se révélant être une plateforme auto-améliorante en ECL. Enfin, un véritable immunoessai pour la détection des marqueurs cardiaques a été mis au point avec une sensibilité et une stabilité accrues pour les applications de détection biologique et biomédicale. La même technologie peut alors être appliquée à une variété d’autres analytes, ouvrant ainsi le site à d’autres dosages. / This doctoral dissertation aim to develop new hybrid materials for ECL applications. In the field of metal complexes, the electrochemiluminescent properties of new Pt(II) and Ir(III) complexes were investigated as alternative of existing complexes. Passing to nanomaterials, the combination of labels and NCNDs bearing primary or tertiary groups on the surface as alternative co-reactant species resulted an interesting strategy to eliminate the toxic TPrA. In particular, NCNDs in covalently linked system with metal complexes is not only an innocent carrier for ECL active species, but act also as co-reactant in the ECL process, revealing itself an ECL self-enhancing platform. Finally, a real immunoassay for cardiac marker detection has been built with enhanced sensitivity and stability, which is of fundamental importance for biological and bio-medical detection applications. The same technology can be applied to a variety of other analytes opening the venue to other assays.

Électrochimiluminescence

Complexes métalliques

Carbon nanodots

Co-réactif

Immuno-essai

Electrochemiluminescent

Metal complexes

Carbon nanodots

Co-reactant

Immunoassay

541.3

TEMPERATURE-DEPENDENT TUNABLE PHOTOLUMINESCENCE PROPERTIES OF CARBON NANODOTS DERIVED FROM POLYETHYLENE GLYCOL

Yeom, Sin Hea

01 January 2014

Fluorescent carbon dots (C-dots) are well known for their low cell-cytotoxicity, biocompatibility, low preparation cost, excitation dependent photoluminescence, and excellent photostability. Typically, raw C-dots have low quantum efficiency and thus researchers have been utilizing biocompatible polymers such as polyethylene glycol (PEG) as a passivation agent in order to increase fluorescence signal. In this work, we report fluorescent self-passivated carbon nanodots (CNDs) synthesized from PEG by using it as a carbon source as well as a passivating agent. Importantly, the addition of graphene quantum dots (GQDs) during the synthesis of self-passivated CNDs can tune photoluminescence property. The results of bioimaging and cytotoxicity test of self-passivated CNDs hold promises for biomedicine applications.

Carbon nanodots

Graphene quantum dots

Bottom-up method

Self-passivation

Quantum yield

Bioimaging

Chemistry

Electrochemistry and photophysics of carbon nanodots-decorated nigs(Ni(In, Ga)Se2) quantum dots

Rolihlahla, Bangile Noel

January 2020

>Magister Scientiae - MSc / Currently, non-renewable sources are mostly used to meet the ever-growing demand for energy. However, these sources are not sustainable. In addition to these energy sources being not sustainable, they are bad for the environment although the energy supply sectors highly depend on them. To address such issues the use of renewable energy sources has been proven to be beneficial for the supply of energy for the global population and its energy needs. Advantageous over non-renewable sources, renewable energy plays a crucial role in minimizing the use of fossil fuel and reduces greenhouse gases. Minimizing use of fossil fuels and greenhouse gases is important, because it helps in the fight against climate change. The use of renewable energy sources can also lead to less air pollution and improved air quality. Although solar energy is the most abundant source of renewable energy that can be converted into electrical energy using various techniques, there are some limitations. Among these techniques are photovoltaic cells which are challenged by low efficiencies and high costs of material fabrication. Hence, current research and innovations are sought towards the reduction of costs and increasing the efficiency of the renewable energy conversion devices.

Bandgap

Carbon nanodots

Carbon nanomaterials

Photovoltaic cells

Photophysics

NIGS quantum dots

Microwave irradiation

Electrochemistry Green synthesis

Nanomaterials

Green synthesis

Charge Separation in Nano-diamonds: DFT Study

Panta, Uday

12 August 2020

No description available.

Physics

Quantum Physics

Materials Science

Nanodiamonds

Charge Separation

DFT

Optoelectronic, Carbon Nanodots

Graphene

Graphite

Nanotubes

Diamonds

MeO-TPA

OCA

MICRO- AND NANO-MATERIALS FOR DRUG DELIVERY AND BIOIMAGING APPLICATIONS

Yan, Huan

07 April 2015

No description available.

Materials Science

Nanotechnology

photoluminescent carbon nanodots

photoluminescent magnetic nanoparticles

drug delivery

silica microparticles

iron oxide nanoparticles

biomaterial

microfluidics

photostability

Zero-dimensional and two-dimensional colloidal nanomaterials and their photophysics

Jiang, Zhoufeng, Jiang

23 April 2018

No description available.

Chemistry

Nanoscience

Nanotechnology

Materials Science

Physics

semiconductor nanocrystals

nanosheets

emission

lead sulfide

absorption

cation exchange

carbon nanodots

Nanoscale Photonics / From single molecule nanofluidics to light-matter interaction in nanostructures

Ghosh, Siddharth

15 August 2016

No description available.

571.4

Single molecule

nanofluidics

fluorescence

spectroscopy

graphene

carbon nanodots

light-matter interactions

nanophotonics

nanoscale photonics

DFTB

Time-dependent density functional theory

nanofabrications

2f-FCS

Biologie (PPN619462639)