Xiaojun Zeng scite author profile

Nonprecious metal catalysts (NPMCs) FeNC are promising alternatives to noble metal Pt as the oxygen reduction reaction (ORR) catalysts for proton‐exchange‐membrane fuel cells. Herein, a new modulation strategy is reported to the active moiety FeN4 via a precise “single‐atom to single‐atom” grafting of a Pt atom onto the Fe center through a bridging oxygen molecule, creating a new active moiety of Pt1O2Fe1N4. The modulated FeNC exhibits remarkably improved ORR stabilities in acidic media. Moreover, it shows unexpectedly high catalytic activities toward oxygen evolution reaction (OER) and hydrogen evolution reaction (HER), with overpotentials of 310 mV for OER in alkaline solution and 60 mV for HER in acidic media at a current density of 10 mA cm−2, outperforming the benchmark RuO2 and comparable with Pt/C(20%), respectively. The enhanced multifunctional electrocatalytic properties are associated with the newly constructed active moiety Pt1O2Fe1N4, which protects Fe sites from harmful species. Density functional theory calculations reveal the synergy in the new active moiety, which promotes the proton adsorption and reduction kinetics. In addition, the grafted Pt1O2 dangling bonds may boost the OER activity. This study paves a new way to improve and extend NPMCs electrocatalytic properties through a precisely single‐atom to single‐atom grafting strategy.

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Electromagnetic microwave absorption theory and recent achievements in microwave absorbers

Zeng

Cheng

et al. 2020

Carbon

528

199

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Progress and perspectives in dielectric energy storage ceramics

Zeng

et al. 2021

J Adv Ceram

184

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Dielectric ceramic capacitors, with the advantages of high power density, fast charge-discharge capability, excellent fatigue endurance, and good high temperature stability, have been acknowledged to be promising candidates for solid-state pulse power systems. This review investigates the energy storage performances of linear dielectric, relaxor ferroelectric, and antiferroelectric from the viewpoint of chemical modification, macro/microstructural design, and electrical property optimization. Research progress of ceramic bulks and films for Pb-based and/or Pb-free systems is summarized. Finally, we propose the perspectives on the development of energy storage ceramics for pulse power capacitors in the future.

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Controllable permittivity in 3D Fe₃O₄/CNTs network for remarkable microwave absorption performances

et al. 2017

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Enhanced delivery of paclitaxel liposomes using focused ultrasound with microbubbles for treating nude mice bearing intracranial glioblastoma xenografts

Shen¹,

Pi²,

Yan³

et al. 2017

IJN

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Paclitaxel liposomes (PTX-LIPO) are a clinically promising antineoplastic drug formulation for the treatment of various extracranial cancers, excluding glioblastoma. A main reason for this is the presence of the blood–brain barrier (BBB) or blood–tumor barrier (BTB), preventing liposomal drugs from crossing at a therapeutically meaningful level. Focused ultrasound (FUS) in conjunction with microbubbles (MBs) has been suggested in many studies to be an effective approach to increase the BBB or BTB permeability. In this study, we investigated the feasibility of enhancing the delivery of PTX-LIPO in intracranial glioblastoma-bearing nude mice using pulsed low-intensity FUS exposure in the presence of MBs. Our results showed that the delivery efficiency of PTX-LIPO could be effectively improved in terms of the penetration of both the BBB in vitro and BTB in vivo by pulsed FUS sonication with a 10 ms pulse length and 1 Hz pulse repetition frequency at 0.64 MPa peak-rarefactional pressure in the presence of MBs. Quantitative analysis showed that a 2-fold higher drug concentration had accumulated in the glioblastoma 3 h after FUS treatment, with 7.20±1.18 µg PTX per g glioma tissue. Longitudinal magnetic resonance imaging analysis illustrated that the intracranial glioblastoma progression in nude mice treated with PTX-LIPO delivered via FUS with MBs was suppressed consistently for 4 weeks compared to the untreated group. The medium survival time of these tumor-bearing nude mice was significantly prolonged by 20.8%, compared to the untreated nude mice. Immunohistochemical analysis further confirmed the antiproliferation effect and cell apoptosis induction. Our study demonstrated that noninvasive low-intensity FUS with MBs can be used as an effective approach to deliver PTX-LIPO in order to improve their chemotherapy efficacy toward glioblastoma.

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Embedding RhP_x in N, P Co‐Doped Carbon Nanoshells Through Synergetic Phosphorization and Pyrolysis for Efficient Hydrogen Evolution

Chi

Zeng

Shang

et al. 2019

Adv Funct Materials

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Rational design and controllable synthesis of well-defined nanostructures with high stability and Pt-like activity for hydrogen evolution reaction (HER) are critical for renewable energy conversion. Herein, a unique pyrolysis strategy is demonstrated for the synthesis of RhP x nanoparticles (NPs) in N, P co-doped thin carbon nanoshells (RhP x @NPC nanoshells) that display high electrocatalytic activity and stability over a wide pH range. This strategy involves simultaneous phosphorization and pyrolysis processes that can produce highly-dispersed RhP x NPs within N, P co-doped carbon nanoshells and at the same time induce thinning of carbon nanoshells from inside out. The resulting RhP x @NPC nanoshells not only possess Pt-like activity for HER with low overpotentials to achieve 10 mA cm −2 (22 mV in 0.5 m H 2 SO 4 , 69 mV in 1.0 m KOH, and 38 mV in 1.0 m phosphate buffered saline (PBS)) but also provide long-term durability in a wide pH range. The remarkable HER performance of RhP x @NPC nanoshells is ascribed to the high surface area, abundant mesoporosity, strong catalyst-support interaction, ultrathin carbon encapsulation, and N, P co-doping. This work provides an effective strategy for designing heterostructured electrocatalysts with high catalytic activity and stability desired for reactions that may occur under harsh conditions.

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Detection of Circulating Tumor Cells in Breast Cancer Patients by Nanopore Sensing with Aptamer-Mediated Amplification

Zhang

Dou

et al. 2020

ACS Sens.

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Circulating tumor cells (CTCs) have been utilized in the diagnosis and prognosis of tumor. However, the CTC concentration is extremely low to be detected in peripheral blood. Many existing methods suffer from either expensive labeling or complex operation. In this study, we constructed a label-and enzyme-free and sensitive method to detect the breast cancer CTCs. First of all, a probe containing a breast cancer cell-specific aptamer and a complementary single-stranded DNA (trigger DNA P1) were designed. When the target cells are present, the aptamer binds to the CTCs and releases P1 which triggers the strand displacement amplification. This process generates three-way junction structure DNA, the specific translocation signals of which are identified by nanopore assay. The detection limit of tumor cells is 5 in the current experimental setup and can be further reduced. Furthermore, the method is demonstrated in a clinical sample test with high recovery rate and accuracy. Our results suggest that this method could be applied to early diagnosis of metastatic recurrence and prognosis determination.

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Cooperation between the surface hydroxyl groups of Ru–SiO₂@mSiO₂and water for good catalytic performance for hydrogenation of quinoline

Zhang

Wang

Yang

et al. 2014

Catal. Sci. Technol.

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Xiaojun Zeng

Single‐Atom to Single‐Atom Grafting of Pt₁ onto FeN₄ Center: Pt₁@FeNC Multifunctional Electrocatalyst with Significantly Enhanced Properties

Electromagnetic microwave absorption theory and recent achievements in microwave absorbers

Progress and perspectives in dielectric energy storage ceramics

Controllable permittivity in 3D Fe₃O₄/CNTs network for remarkable microwave absorption performances

Enhanced delivery of paclitaxel liposomes using focused ultrasound with microbubbles for treating nude mice bearing intracranial glioblastoma xenografts

Embedding RhP_x in N, P Co‐Doped Carbon Nanoshells Through Synergetic Phosphorization and Pyrolysis for Efficient Hydrogen Evolution

Detection of Circulating Tumor Cells in Breast Cancer Patients by Nanopore Sensing with Aptamer-Mediated Amplification

Cooperation between the surface hydroxyl groups of Ru–SiO₂@mSiO₂and water for good catalytic performance for hydrogenation of quinoline

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Xiaojun Zeng

Single‐Atom to Single‐Atom Grafting of Pt1 onto FeN4 Center: Pt1@FeNC Multifunctional Electrocatalyst with Significantly Enhanced Properties

Electromagnetic microwave absorption theory and recent achievements in microwave absorbers

Progress and perspectives in dielectric energy storage ceramics

Controllable permittivity in 3D Fe3O4/CNTs network for remarkable microwave absorption performances

Enhanced delivery of paclitaxel liposomes using focused ultrasound with microbubbles for treating nude mice bearing intracranial glioblastoma xenografts

Embedding RhPx in N, P Co‐Doped Carbon Nanoshells Through Synergetic Phosphorization and Pyrolysis for Efficient Hydrogen Evolution

Detection of Circulating Tumor Cells in Breast Cancer Patients by Nanopore Sensing with Aptamer-Mediated Amplification

Cooperation between the surface hydroxyl groups of Ru–SiO2@mSiO2and water for good catalytic performance for hydrogenation of quinoline

Contact Info

Product

Resources

About

Single‐Atom to Single‐Atom Grafting of Pt₁ onto FeN₄ Center: Pt₁@FeNC Multifunctional Electrocatalyst with Significantly Enhanced Properties

Controllable permittivity in 3D Fe₃O₄/CNTs network for remarkable microwave absorption performances

Embedding RhP_x in N, P Co‐Doped Carbon Nanoshells Through Synergetic Phosphorization and Pyrolysis for Efficient Hydrogen Evolution

Cooperation between the surface hydroxyl groups of Ru–SiO₂@mSiO₂and water for good catalytic performance for hydrogenation of quinoline