Ethanol-derived white emissive carbon dots: the formation process investigation and multi-color/white LEDs preparation

[1]  Boyang Wang,et al.  Engineering white light-emitting diodes with high color rendering index from biomass carbonized polymer dots. , 2021, Journal of colloid and interface science.

[2]  Youyong Li,et al.  Carbon dots based white light-emitting diodes with adjustable correlated color temperature guided by machine learning. , 2021, Angewandte Chemie.

[3]  J. Tse,et al.  Single Atom Ruthenium‐Doped CoP/CDs Nanosheets via Splicing of Carbon‐Dots for Robust Hydrogen Production , 2021, Angewandte Chemie.

[4]  Zhan’ao Tan,et al.  Fluorescent Carbon Dots: Fantastic Electroluminescent Materials for Light‐Emitting Diodes , 2021, Advanced science.

[5]  Huibo Wang,et al.  Chiral Control of Carbon Dots via Surface Modification for Tuning the Enzymatic Activity of Glucose Oxidase. , 2021, ACS applied materials & interfaces.

[6]  Z. Tang,et al.  Single atom Ru doped CoP/CDs Nanosheets via Splicing of Carbon-Dots for Robust Hydrogen Production. , 2021, Angewandte Chemie.

[7]  Hui Huang,et al.  Interface photo-charge kinetics regulation by carbon dots for efficient hydrogen peroxide production , 2021 .

[8]  Z. Tang,et al.  Insights into photoluminescence mechanisms of carbon dots: advances and perspectives. , 2020, Science bulletin.

[9]  Ruibing Wang,et al.  Transformable Honeycomb-like Nanoassemblies of Carbon Dots for Regulated Multisite Delivery and Enhanced Antitumor Chemoimmunotherapy. , 2020, Angewandte Chemie.

[10]  C. Shan,et al.  Chemiluminescent carbon dots: Synthesis, properties, and applications , 2020 .

[11]  Huibo Wang,et al.  Carbon dots with positive surface charge from tartaric acid and m-aminophenol for selective killing of Gram-positive bacteria. , 2020, Journal of materials chemistry. B.

[12]  Geoffrey I N Waterhouse,et al.  Exploiting Ru-induced Lattice Strain in CoRu Nanoalloys for Robust Bifunctional Hydrogen Production. , 2020, Angewandte Chemie.

[13]  P. Messa,et al.  Graphene quantum dots: From efficient preparation to safe renal excretion , 2020, Nano Research.

[14]  Z. Tang,et al.  Recent advances in chiral carbonized polymer dots: From synthesis and properties to applications , 2020 .

[15]  Boyang Wang,et al.  Interface electron collaborative migration of Co–Co3O4/carbon dots: Boosting the hydrolytic dehydrogenation of ammonia borane , 2020, Journal of Energy Chemistry.

[16]  S. Dong,et al.  Ultrastable and ultrasensitive pH-switchable carbon dots with high quantum yield for water quality identification, glucose detection, and two starch-based solid-state fluorescence materials , 2020, Nano Research.

[17]  Prolay Das,et al.  Amplified fluorescence of Mg2+ selective red-light emitting carbon dot in water and direct evaluation of creatine kinase activity , 2020, Nano Research.

[18]  Jinhyun Kim,et al.  Photonic Carbon Dots as an Emerging Nanoagent for Biomedical and Healthcare Applications. , 2020, ACS nano.

[19]  Cai‐Feng Wang,et al.  The rapid and large-scale production of carbon quantum dots and their integration with polymers. , 2020, Angewandte Chemie.

[20]  Hao Li,et al.  S,N-Codoped oil-soluble fluorescent carbon dots for a high color-rendering WLED , 2020, Journal of Materials Chemistry C.

[21]  A. Chen,et al.  Targeted tumour theranostics in mice via carbon quantum dots structurally mimicking large amino acids , 2020, Nature Biomedical Engineering.

[22]  Keqin Yang,et al.  A multifunctional nanoprobe for targeting tumors and mitochondria with singlet oxygen generation and monitoring mitochondrion pH changes in cancer cells by ratiometric fluorescence imaging† , 2020, Chemical science.

[23]  C. Barner‐Kowollik,et al.  Mass spectrometry as a tool to advance polymer science , 2020, Nature Reviews Chemistry.

[24]  Dan Qu,et al.  The formation mechanism and fluorophores of carbon dots synthesized via a bottom-up route , 2020 .

[25]  Z. Tang,et al.  Rational Design of Multi‐Color‐Emissive Carbon Dots in a Single Reaction System by Hydrothermal , 2020, Advanced science.

[26]  M. Saidaminov,et al.  Bright high-colour-purity deep-blue carbon dot light-emitting diodes via efficient edge amination , 2020 .

[27]  Qinghua Zhang,et al.  A General Route to Prepare Low‐Ruthenium‐Content Bimetallic Electrocatalysts for pH‐Universal Hydrogen Evolution Reaction by Using Carbon Quantum Dots , 2019 .

[28]  Qinghua Zhang,et al.  A General Route to Fabricate Low-ruthenium-based Bimetals Electrocatalysts for pH-universal Hydrogen Evolution Reaction via Carbon Quantum Dots. , 2019, Angewandte Chemie.

[29]  Miaoran Zhang,et al.  Red‐Carbon‐Quantum‐Dot‐Doped SnO2 Composite with Enhanced Electron Mobility for Efficient and Stable Perovskite Solar Cells , 2019, Advanced materials.

[30]  Fanyong Yan,et al.  Multicolor carbon dots with concentration-tunable fluorescence and solvent-affected aggregation states for white light-emitting diodes , 2019, Nano Research.

[31]  Bai Yang,et al.  Kilogram-scale synthesis of carbon quantum dots for hydrogen evolution, sensing and bioimaging , 2019 .

[32]  Xue-Bo Yin,et al.  Carbon Dots, Unconventional Preparation Strategies, and Applications Beyond Photoluminescence. , 2019, Small.

[33]  Siwei Yang,et al.  Photocatalytic Polymerization from Amino Acid to Protein by Carbon Dots at Room Temperature. , 2019, ACS applied bio materials.

[34]  Z. Tang,et al.  High production-yield solid-state carbon dots with tunable photoluminescence for white/multi-color light-emitting diodes. , 2019, Science bulletin.

[35]  Bai Yang,et al.  Evolution and Synthesis of Carbon Dots: From Carbon Dots to Carbonized Polymer Dots , 2019, Advanced science.

[36]  Z. Tang,et al.  Near-infrared emissive carbon dots with 33.96% emission in aqueous solution for cellular sensing and light-emitting diodes. , 2019, Science Bulletin.

[37]  Bai Yang,et al.  Carbonized Polymer Dots: A Brand New Perspective to Recognize Luminescent Carbon-Based Nanomaterials. , 2019, The journal of physical chemistry letters.

[38]  M. Prato,et al.  Design, Synthesis, and Functionalization Strategies of Tailored Carbon Nanodots. , 2019, Accounts of chemical research.

[39]  Hui Huang,et al.  Carbon Dots: A Small Conundrum , 2019, Trends in Chemistry.

[40]  Huaidong Jiang,et al.  Carbon-dot-supported atomically dispersed gold as a mitochondrial oxidative stress amplifier for cancer treatment , 2019, Nature Nanotechnology.

[41]  C. Huang,et al.  Carbon dots: synthesis, formation mechanism, fluorescence origin and sensing applications , 2019, Green Chemistry.

[42]  A. Rogach,et al.  Influence of molecular fluorophores on the research field of chemically synthesized carbon dots , 2018, Nano Today.

[43]  Yunchao Li,et al.  Engineering triangular carbon quantum dots with unprecedented narrow bandwidth emission for multicolored LEDs , 2018, Nature Communications.

[44]  Peng Zhang,et al.  Solvent-Controlled Synthesis of Highly Luminescent Carbon Dots with a Wide Color Gamut and Narrowed Emission Peak Widths. , 2018, Small.

[45]  Bai Yang,et al.  Design of Metal-Free Polymer Carbon Dots: A New Class of Room-Temperature Phosphorescent Materials. , 2018, Angewandte Chemie.

[46]  B. Hong,et al.  Graphene quantum dots prevent α-synucleinopathy in Parkinson’s disease , 2017, Nature Nanotechnology.

[47]  Dan Qu,et al.  Synthesis of Carbon Dots with Multiple Color Emission by Controlled Graphitization and Surface Functionalization , 2018, Advanced materials.

[48]  Haizheng Zhong,et al.  53% Efficient Red Emissive Carbon Quantum Dots for High Color Rendering and Stable Warm White‐Light‐Emitting Diodes , 2017, Advanced materials.

[49]  Yunchao Li,et al.  Bright Multicolor Bandgap Fluorescent Carbon Quantum Dots for Electroluminescent Light‐Emitting Diodes , 2023, Advanced materials.

[50]  Bai Yang,et al.  Near‐Infrared Photoluminescent Polymer–Carbon Nanodots with Two‐Photon Fluorescence , 2017, Advanced materials.

[51]  Bai Yang,et al.  The photoluminescence mechanism in carbon dots (graphene quantum dots, carbon nanodots, and polymer dots): current state and future perspective , 2015, Nano Research.