Volume 14

Issue 12,2021

(61 articles)


Feng Zhang1, Bo Song1 (✉), and Lei Jiang1,2,3 (✉)

A quantized chemical reaction resonantly driven by multiple midinfrared (MIR)/far-infrared (FIR)-photons is proposed, different from the thermochemical or photochemical reactions.
2021, 14(12): 4367–4369
Published: 11 March 2021

Danping Sun1,2,§ Zhi Tan2,§, Xuzheng Tian2, Fei Ke2, Yale Wu2, and Jin Zhang1,2 (✉)

The rapid transfer of both electrons and ions is vital when using graphene as a charge regulator in high-performance lithium batteries (LIBs). The structural design and interfacial modification strategies of graphene to regulate the charge transport, as well as the structureperformance relationships between the structure of the graphene and its dedicated applications for LIBs are clarified in detail.
2021, 14(12): 4370–4385
Published: 26 April 2021

Haizeng Song1, Han Wu1, Tianqi Ren1, Shancheng Yan2 (✉), Tianhong Chen1, and Yi Shi1,3 (✉)

The ultrathin BP nanosheets are protected via a variety of methods (physical and chemical routes), which can significantly improve the stability and electrical/photoelectronic properties. From the passivation mechanism, how to reduce the surface chemical active (the lone pair electrons of P atoms) is an urgent issue.
2021, 14(12): 4386–4397
Published: 23 April 2021

Lihong Lin, Zhuo Chen (✉), and Wenxing Chen (✉)

The atomic diffusion strategy, which can be divided into gaseous diffusion, solid diffusion and liquid diffusion, is considered as an effective method to prepare a series of single atom cataly
2021, 14(12): 4398–4416
Published: 07 April 2021

Yi Zhao1,§, Long Chen2,§, Yanan Wang1,§, Xinyu Song1, Keyang Li1, Xuefeng Yan1, Liangmin Yu1 (✉), and Zhiyu He1 (✉)

Nanomaterial-based antibacterial strategies combining with antibacterial polymers, stimuli-triggered antibiotics delivery systems, anti-virulence therapy, photothermal/photodynamic therapy, or enzymatically promoting bacterial killing approaches, for overcoming multidrugresistant planktonic bacteria and recalcitrant biofilm. Nanomaterialbased treatment strategies, as effective next generation antimicrobials, offer a promising alternative to antibiotics for difficult-to-treat infections, alleviating challenges faced in the post-antibiotic era.
2021, 14(12): 4417–4441
Published: 10 April 2021

Yating Zhu1,§, Xiaoya Cui3,§, Huiling Liu2 (✉), Zhenguo Guo4, Yanfeng Dang1, Zhanxi Fan5,6, Zhicheng Zhang1 (✉), and Wenping Hu1

This review systematically summarizes the recent advances in constructing tandem catalysts for boosting electrochemical CO2 reduction reaction, mainly including bimetallic alloy nanostructures, bimetallic heterostructures, bimetallic core-shell nanostructures, bimetallic mixture catalysts, metal-metal organic framework and metal-metallic complexes, metal-nonmetal hybrid nanomaterials and copper-free hybrid nanomaterials.
2021, 14(12): 4471–4486
Published: 19 May 2021

Taoran Wang and Yangchao Luo (✉)

To better address the challenge during oral delivery, polymer-lipid complex nanoparticles are being explored and developed to merge the beneficial features and compensate the shortcomings of lipidbased and polymer-based nanoparticles. While the lipidic component increases the loading efficiency and compatibility of encapsulated cargos (especially hydrophobic cargos) in digestion system, the polymer part helps to improve the stability and permeation of the whole system.
2021, 14(12): 4487–4501
Published: 16 April 2021

Deping Li1 (✉), Qing Sun2, Yamin Zhang2, Xinyue Dai2, Fengjun Ji1, Kaikai Li1, Qunhui Yuan1, Xingjun Liu1, and Lijie Ci1,2 (✉)

Through insightful understandings over synergistic pore-structure and interlayer engineering, fast and stable K-ion storage in carbonaceous materials can be simultaneously realized.
2021, 14(12): 4502–4511
Published: 06 February 2021

Zhengkun Yang1,3,§ (✉), Xiaolin Wang2,§, Mengzhao Zhu1,§, Xinyan Leng3, Wenxing Chen4, Wenyu Wang1, Qian Xu5, Li-Ming Yang2 (✉), and Yuen Wu1 (✉)

Single atom Mn sites on highly uniform nitrogen-doped carbon nanotubes were fabricated via a facile in-situ solid-diffusion from core MnO2 nanowires to shell ZIF-8. The coordination structure of the Mn sites was controlled from low N coodination number to high N coodination number by NH3 recovery.
2021, 14(12): 4512−4519
Published: 16 September 2021

Weiwei Shao1,§, Shumin Wang1,§, Juncheng Zhu1,§, Xiaodong Li1, Xingchen Jiao1, Yang Pan1, Yongfu Sun1,2 (✉), and Yi Xie1,2

To boost the activity of CO2 photoreduction into CH2, a twodimensional in-plane heterostructure is designed and constructed to optimize the carrier dynamics, in which in-plane heterojunction facilitates CO2 activation and modulates the adsorption strength of CO*, beneficial for protonation to CH2.
2021, 14(12): 4520–4527
Published: 02 March 2021