Your search keyword '"Qi, Hetong"' showing total 7 results

1. Boron-Doped and Ketonic Carbonyl Group-Enriched Graphdiyne as a Dual-Site Carbon Nanozyme with Enhanced Peroxidase-Like Activity.

Author

Qi H, Tong Y, Zhang M, Wu X, and Yue L

Subjects

Ketones, Peroxidase, Hydrogen Peroxide, Oxides, Boron, Carbon

Abstract

We demonstrate the preparation of a dual-site carbon nanozyme, boron-doped and ketonic carbonyl (-C=O) group-enriched graphdiyne (B-GDY), with an enhanced peroxidase-like activity. Taking advantage of acidic oxidation treatment, GDY oxide (GDYO) with abundant surface oxygen-containing groups is obtained from pristine bulk GDY. Upon further thermal annealing of GDYO with H 3 BO 3 under an inert atmosphere, B is introduced into GDY, while the loading of -C=O groups is increased onto B-GDY. We discover that boron-doped and ketonic carbonyl group-enriched graphdiyne as a dual-site carbon nanozyme endows it with an enhanced peroxidase-like activity, which is nearly 4.2-fold higher than that of GDY without B atoms and 6.6-fold higher than that of GDYO without B atoms and with low loading of -C=O groups. The high peroxidase-like activity of B-GDY is ascribed to the dual active sites (-C=O group and B atom) within it, which facilitates the adsorption and decomposition of H 2 O 2 into hydroxyl radicals revealed by experimental and theoretical studies. Moreover, B-GDY is successfully employed to develop a colorimetric method for the detection of glucose with good sensitivity and selectivity. This work probes into the intrinsic peroxidase activity and structure-reactivity correlation, creating effective strategies for the preparation of GDY-based nanozymes.

Published

2022

2. Graphdiyne oxides as excellent substrate for electroless deposition of Pd clusters with high catalytic activity.

Author

Qi H, Yu P, Wang Y, Han G, Liu H, Yi Y, Li Y, and Mao L

Subjects

Catalysis, Metal Nanoparticles ultrastructure, Nitrophenols chemistry, Oxidation-Reduction, Particle Size, Carbon chemistry, Metal Nanoparticles chemistry, Oxides chemistry, Palladium chemistry, Reducing Agents chemistry

Abstract

Graphdiyne (GDY), a novel kind of two-dimensional carbon allotrope consisting of sp- and sp(2)-hybridized carbon atoms, is found to be able to serve as the reducing agent and stabilizer for electroless deposition of highly dispersed Pd nanoparticles owing to its low reduction potential and highly conjugated electronic structure. Furthermore, we observe that graphdiyne oxide (GDYO), the oxidation form of GDY, can be used as an even excellent substrate for electroless deposition of ultrafine Pd clusters to form Pd/GDYO nanocomposite that exhibits a high catalytic performance toward the reduction of 4-nitrophenol. The high catalytic performance is considered to benefit from the rational design and electroless deposition of active metal catalysts with GDYO as the support.

Published

2015

3. Improving the fluorescence detection limit with positively charged carbon nanostructures as a low background signal platform.

Author

He X, Zhang L, Qi H, Yu P, Fei J, and Mao L

Subjects

Fluorescent Dyes chemistry, Limit of Detection, Carbon chemistry, Nanostructures, Spectrometry, Fluorescence methods

Abstract

We have demonstrated a new strategy to improve the fluorescence detection limit by enhancing the energy transfer efficiency between carbon structures and fluorescent dyes using polyimidazolium-functionalized carbon nanostructures as a low background signal platform. Based on this, a highly sensitive method for thrombin was proposed with a detection limit as low as 2.79 pM without any amplification.

Published

2014

4. Rationally Designed Matrix‐Free Carbon Dots with Wavelength‐Tunable Room‐Temperature Phosphorescence.

Author

Qi, Hetong, Cui, Xiaofeng, Zhang, Hengqi, Tong, Yuxi, Qian, Manping, Zhou, Wenshuai, Ding, Shujiang, and Qi, Honglan

Subjects

*QUANTUM dots, *PHOSPHORESCENCE, *ACID catalysts, *BORIC acid, *PHENYLENEDIAMINES, *CARBON

Abstract

We report the rational design of the matrix‐free carbon dots (C‐dots) with long wavelength and wavelength‐tunable room‐temperature phosphorescence (RTP). Taking advantage of microwave‐assisted heating treatment, three RTP C‐dots in boric acid (BA) composites are synthesized by using diethylenetriaminepentakis (methylphosphonic acid) as a multiple‐sites crosslink agent, a moderately acid catalyst and P source; phenylenediamines (either o‐PD, m‐PD, or p‐PD, respectively) as building block while BA as a carbonization‐retardant matrix. After the water‐soluble BA matrix is removed by dialysis, three matrix‐free C‐dots are obtained with RTP emission at 540, 550 and 570 nm under an excitation wavelength of 365 nm. Alterations of RTP emission of three matrix‐free C‐dots are ascribed to the difference in their particle size and band gap from n‐π* transition. Furthermore, the application of three matrix‐free C‐dots are successfully performed in information encryption and decryption. [ABSTRACT FROM AUTHOR]

Published

2023

5. Synthesis of multiple-color emissive carbon dots towards white-light emission.

Author

Qi, Hetong, Wu, Xuemei, Zhang, Hengqi, Tang, Yuhai, Gao, Hongfang, Qian, Manping, and Qi, Honglan

Subjects

*PHENYLENEDIAMINES, *AMMONIUM hydroxide, *COLOR printing, *CARBON, *ETHYLENEDIAMINE, *EMISSION control, *WAVELENGTHS

Abstract

Multiple-color emissive carbon dots (C-dots) are gaining increasing attention in various fields. Herein, we report a facile solvothermal method for the synthesis of multiple-color emissive C-dots with the aim of white-light emission. Under single ultraviolet-light excitation, three C-dots emit a easily controlled fluorescent emission wavelength at 440 nm, 500 nm and 610 nm by using different three amines (either ammonium hydroxide, ethylenediamine or p-phenylenediamine, respectively) and pyromellitic dianhydride as molecular precursors while another three C-dots emit a controllable fluorescent emission wavelength at 500 nm, 550 nm and 585 nm by using same three amines and naphthalene-1,4,5,8-tetracarboxylic dianhydride as molecular precursors. The maximum fluorescence wavelength of these C-dots is red-shifted by changing three different amines molecular precursors from ammonium hydroxide, ethylenediamine, to p-phenylenediamine. Furthermore, these C-dots have shown promising applications in the fields of white-light-emitting diodes devices and color printing. [ABSTRACT FROM AUTHOR]

Published

2020

6. Matrix‐Free and Highly Efficient Room‐Temperature Phosphorescence Carbon Dots towards Information Encryption and Decryption.

Author

Qi, Hetong, Zhang, Hengqi, Wu, Xuemei, Tang, Yuhai, Qian, Manping, Wang, Ke, and Qi, Honglan

Subjects

*PHOSPHORESCENCE, *PHYTIC acid, *CARBON

Abstract

Designing efficient room‐temperature phosphorescence (RTP) carbon dots (C‐dots) without the need of an additional matrix is important for various applications. Herein, matrix‐free and highly efficient C‐dots with yellow‐green RTP emission have been successfully synthesized towards information encryption and decryption. Phytic acid (PA) and triethylenetetramine are used as molecular precursors, and a facile microwave‐assisted heating method is selected as synthesis method. The obtained C‐dots exhibit a maximum phosphorescence emission at around 535 nm under an excitation wavelength of 365 nm and a long average lifetime up to 750 ms (more than 9 s to the naked eye). PA containing six phosphate groups and serving as P source plays a significant role in producing the RTP C‐dots. Furthermore, potential applications of the RTP C‐dots in the field of information encryption and decryption are successfully demonstrated. [ABSTRACT FROM AUTHOR]

Published

2020

7. Highly dispersive Ag nanoparticles on functionalized graphene for an excellent electrochemical sensor of nitroaromatic compoundsElectronic supplementary information (ESI) available: Experimental preparation and instrumentation, photographs of aqueous solution of graphene (A) and CS-G (B), XRD pattern of graphene (A), Ag/CS-G and CS-G (C), differential pulse voltammetry for different concentrations of NB, DNT and TNT. See DOI: 10.1039/c1cc15697g

Author

Lu, Xiaoquan, Qi, Hetong, Zhang, Xuefeng, Xue, Zhonghua, Jin, Jun, Zhou, Xibing, and Liu, Xiuhui

Subjects

*COLLOIDAL silver, *GRAPHENE, *ELECTROCHEMICAL sensors, *NITROAROMATIC compounds, *CHEMICAL reactions, *ELECTROCATALYSIS, *CHEMICAL reduction, *CARBON

Abstract

A facile carbon radical reaction procedure and a chemical reduction method were proposed to synthesize Ag nanoparticles on functionalized graphene with uniform, high dispersion and excellent stability. The resultant material showed excellent electrocatalytic activity to nitroaromatic compounds and high sensitivity to the detection of nitroaromatic compounds. [ABSTRACT FROM AUTHOR]

Published

2011