Chemical insight into the origin of red and blue photoluminescence arising from freestanding silicon nanocrystals.
about
Tunability Limit of Photoluminescence in Colloidal Silicon Nanocrystals.Colloidal silicon quantum dots: synthesis and luminescence tuning from the near-UV to the near-IR rangeColloidal silicon quantum dots: from preparation to the modification of self-assembled monolayers (SAMs) for bio-applications.Silicon Nanocrystals and Silicon-Polymer Hybrids: Synthesis, Surface Engineering, and Applications.Nanodiamonds and silicon quantum dots: ultrastable and biocompatible luminescent nanoprobes for long-term bioimaging.Group 14 inorganic hydrocarbon analogues.Light-Harvesting Antennae Based on Silicon Nanocrystals.Functional double-shelled silicon nanocrystals for two-photon fluorescence cell imaging: spectral evolution and tuning.Size controlled synthesis of silicon nanocrystals using cationic surfactant templates.CO2 to methanol conversion using hydride terminated porous silicon nanoparticles.Long-lived luminescence of silicon nanocrystals: from principles to applications.Charge transfer state emission dynamics in blue-emitting functionalized silicon nanocrystals.Germanium nanocrystals as luminescent probes for rapid, sensitive and label-free detection of Fe3+ ions.A complex study of the fast blue luminescence of oxidized silicon nanocrystals: the role of the core.Photoluminescence through in-gap states in phenylacetylene functionalized silicon nanocrystals.Thermal luminescence quenching of amine-functionalized silicon quantum dots: a pH and wavelength-dependent study.Tuning the Optical Properties of Silicon Quantum Dots via Surface Functionalization with Conjugated Aromatic Fluorophores.Thermoresponsive and photoluminescent hybrid silicon nanoparticles by surface-initiated group transfer polymerization of diethyl vinylphosphonate.Highly lattice-mismatched semiconductor-metal hybrid nanostructures: gold nanoparticle encapsulated luminescent silicon quantum dots.Approaching the downsizing limit of silicon for surface-controlled lithium storage.Enhancing Quantum Dots for Bioimaging using Advanced Surface Chemistry and Advanced Optical Microscopy: Application to Silicon Quantum Dots (SiQDs).High Internal Emission Efficiency of Silicon Nanoparticles Emitting in the Visible Range.The preparation of high-quality water-soluble silicon quantum dots and their application in the detection of formaldehydeEfficient one-pot synthesis of monodisperse alkyl-terminated colloidal germanium nanocrystalsUltra-small fluorescent inorganic nanoparticles for bioimagingTwinned silicon and germanium nanocrystals: Formation, stability and quantum confinementQuaternized Silicon Nanoparticles with Polarity-Sensitive Fluorescence for Selectively Imaging and Killing Gram-Positive BacteriaOne-Step Synthesis of Superbright Water-Soluble Silicon Nanoparticles with Photoluminescence Quantum Yield Exceeding 80%Size Controlled Synthesis of Germanium Nanocrystals: Effect of Ge Precursor and Hydride Reducing AgentDiazonium Salts as Grafting Agents and Efficient Radical-Hydrosilylation Initiators for Freestanding Photoluminescent Silicon NanocrystalsThe Large-Scale Synthesis of Vinyl-Functionalized Silicon Quantum Dot and Its Application in Miniemulsion Polymerization
P2860
Q35877258-6AEFE13B-AC77-48F3-966C-A355238D623AQ37386850-88678541-E2D3-4ECC-9E5D-40E0ACCFFDF6Q38176231-D2299747-A537-495D-B9C7-303BB851960BQ38384900-A470AF86-710E-43BD-B65E-B65D0FF593DFQ38519493-452A22B0-64AB-4F0A-A7BE-5E7D097F646FQ38556208-81AF7549-6BE5-4F8B-BFE3-E3B22F2A6C65Q38940378-8D4C4C6A-8933-4780-A36C-FEFC4A096C10Q42811737-9C6AB3CE-7DC4-4671-85C1-C401845D1AC2Q47211427-BD4DA66B-C0C7-473B-9A24-19D7EF4A63F0Q48185291-7AD4AF7B-88F4-4B01-A81E-A7B4B273A3B5Q49684330-E705ADE3-E47A-4CA8-9A96-E206A442CB93Q50208084-4828DF8B-1663-45D5-AD43-4665C6D928A3Q50216946-3787C97B-0EA6-482F-B27F-CE1EFF4F4634Q50224934-9B2774ED-CCA3-4824-A2B9-83932CF8DAD6Q50246809-5D0BA5DD-67EB-48EF-B3AA-E85E67307D86Q50247409-6FAC3DAC-6C49-4DFF-ABA0-95FE76A77B65Q50323581-72FBA12C-F41F-4EB1-8A9E-34C199082314Q50460794-3BC229D6-9DCF-4BD2-85C9-FD8F7AC15BE8Q50481530-D3C44D70-31CC-48D2-9D7D-A41669CB8817Q51018389-760B9B6B-B49D-4A3D-8CF9-5C2EA52D2FC1Q51787090-0A7FC146-E89F-4EFD-B63E-91F7F6430C27Q55394922-A3BDB64C-6359-425F-B34C-C34E2C2C9A33Q56803716-878DC462-8E21-4B5F-B63A-491A2714F9B6Q57345063-5971D1BE-E4B4-4751-A2AC-F9822E690669Q57376756-629623B9-BD5A-453F-A06B-5353CA2A441CQ57882686-EB3876CB-3D87-4222-8B9E-70129D4A253FQ57974210-B6635EE2-D4FC-4279-AAEC-90EBA7035B3AQ57974325-F8426983-4A4A-4626-90A1-E38A0536A350Q59113534-97687C96-B7DA-443D-A6C4-5E20366B7AE2Q59125475-0D053A46-8538-4B81-8F57-970E8F807219Q59127202-6657D653-CBA0-47C8-82E9-552E86E6F0CB
P2860
Chemical insight into the origin of red and blue photoluminescence arising from freestanding silicon nanocrystals.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Chemical insight into the orig ...... standing silicon nanocrystals.
@en
type
label
Chemical insight into the orig ...... standing silicon nanocrystals.
@en
prefLabel
Chemical insight into the orig ...... standing silicon nanocrystals.
@en
P2093
P2860
P356
P1433
P1476
Chemical insight into the orig ...... standing silicon nanocrystals.
@en
P2093
Angelique Faramus
Elayaraja Muthuswamy
Jonathan G C Veinot
Mani P Singh
Mita Dasog
Richard D Tilley
Sarah Regli
Tonya M Atkins
Zhenyu Yang
P2860
P304
P356
10.1021/NN4000644
P407
P577
2013-02-20T00:00:00Z