Peng Jia scite author profile

Organic room temperature luminescent materials present a unique phosphorescence emission with a long lifetime. However, many of these materials only emit single blue or green color in spite of external stimulation, and their color tunability is limited. Herein, we report a rational design to extend the emission color range from blue to red by controlling the doping of simple pyrene derivatives into a robust polymer matrix. The integration of these pyrene molecules into the polymer films enhances the intersystem crossing pathway, decreases the first triplet level of the system, and ensures the films show a sensitive response to excitation energy, finally yielding excitation‐dependent long‐life luminescent polymeric systems under ambient conditions. These materials were used to construct anti‐counterfeiting patterns with multicolor interconversion, presenting a promising application potential in the field of information security.

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N-graphene motivated SnO2@SnS2 heterostructure quantum dots for high performance lithium/sodium storage

Huang

Wang

Jia

et al. 2019

Energy Storage Materials

174

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In Situ Imaging the Oxygen Reduction Reactions of Solid State Na–O₂ Batteries with CuO Nanowires as the Air Cathode

Liu

Yang

et al. 2018

Nano Lett.

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We report real time imaging of the oxygen reduction reactions (ORRs) in all solid state sodium oxygen batteries (SOBs) with CuO nanowires (NWs) as the air cathode in an aberration-corrected environmental transmission electron microscope under an oxygen environment. The ORR occurred in a distinct two-step reaction, namely, a first conversion reaction followed by a second multiple ORR. In the former, CuO was first converted to CuO and then to Cu; in the latter, NaO formed first, followed by its disproportionation to NaO and O. Concurrent with the two distinct electrochemical reactions, the CuO NWs experienced multiple consecutive large volume expansions. It is evident that the freshly formed ultrafine-grained Cu in the conversion reaction catalyzed the latter one-electron-transfer ORR, leading to the formation of NaO. Remarkably, no carbonate formation was detected in the oxygen cathode after cycling due to the absence of carbon source in the whole battery setup. These results provide fundamental understanding into the oxygen chemistry in the carbonless air cathode in all solid state Na-O batteries.

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In Situ Observation of Sodium Dendrite Growth and Concurrent Mechanical Property Measurements Using an Environmental Transmission Electron Microscopy–Atomic Force Microscopy (ETEM-AFM) Platform

et al. 2020

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Akin to Li, Na deposits in a dendritic form to cause a short circuit in Na metal batteries. However, the growth mechanisms and related mechanical properties of Na dendrites remain largely unknown. Here we report real-time characterizations of Na dendrite growth with concurrent mechanical property measurements using an environmental transmission electron microscopy–atomic force microscopy (ETEM-AFM) platform. In situ electrochemical plating produces Na deposits stabilized with a thin Na2CO3 surface layer (referred to as Na dendrites). These Na dendrites have characteristic dimensions of a few hundred nanometers and exhibit different morphologies, including nanorods, polyhedral nanocrystals, and nanospheres. In situ mechanical measurements show that the compressive and tensile strengths of Na dendrites with a Na2CO3 surface layer vary from 36 to >203 MPa, which are much larger than those of bulk Na. In situ growth of Na dendrites under the combined overpotential and mechanical confinement can generate high stress in these Na deposits. These results provide new baseline data on the electrochemical and mechanical behavior of Na dendrites, which have implications for the development of Na metal batteries toward practical energy-storage applications.

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Peng Jia

Lithium whisker growth and stress generation in an in situ atomic force microscope–environmental transmission electron microscope set-up

Excitation‐Dependent Long‐Life Luminescent Polymeric Systems under Ambient Conditions

N-graphene motivated SnO2@SnS2 heterostructure quantum dots for high performance lithium/sodium storage

In Situ Imaging the Oxygen Reduction Reactions of Solid State Na–O₂ Batteries with CuO Nanowires as the Air Cathode

In Situ Observation of Sodium Dendrite Growth and Concurrent Mechanical Property Measurements Using an Environmental Transmission Electron Microscopy–Atomic Force Microscopy (ETEM-AFM) Platform

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Peng Jia

Lithium whisker growth and stress generation in an in situ atomic force microscope–environmental transmission electron microscope set-up

Excitation‐Dependent Long‐Life Luminescent Polymeric Systems under Ambient Conditions

N-graphene motivated SnO2@SnS2 heterostructure quantum dots for high performance lithium/sodium storage

In Situ Imaging the Oxygen Reduction Reactions of Solid State Na–O2 Batteries with CuO Nanowires as the Air Cathode

In Situ Observation of Sodium Dendrite Growth and Concurrent Mechanical Property Measurements Using an Environmental Transmission Electron Microscopy–Atomic Force Microscopy (ETEM-AFM) Platform

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Product

Resources

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In Situ Imaging the Oxygen Reduction Reactions of Solid State Na–O₂ Batteries with CuO Nanowires as the Air Cathode