Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis

Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis

2D nanomaterials are well suited for energy conversion and storage because of their thickness-dependent physical and chemical properties. However, current synthetic methods for translating 2D materials from the laboratory to industry cannot integrate both advantages of liquid-phase method (i.e., sol...

Full description

Saved in:
Bibliographic Details
Main Authors: Wang, Dong, Zhou, Weiwei, Zhang, Rui, Zeng, Jinjue, Du, Yu, Qi, Shuai, Cong, Chunxiao, Ding, Chunyan, Huang, Xiaoxiao, Wen, Guangwu, Yu, Ting
Other Authors: School of Physical and Mathematical Sciences
Format: Article
Language:English
Published: 2020
Subjects:
Engineering::Materials
2D Nanosheets
Alkali‐ion Batteries
Online Access:https://hdl.handle.net/10356/143695
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: Nanyang Technological University
Language: English
id sg-ntu-dr.10356-143695
record_format dspace
spelling sg-ntu-dr.10356-1436952020-09-17T03:07:02Z Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis Wang, Dong Zhou, Weiwei Zhang, Rui Zeng, Jinjue Du, Yu Qi, Shuai Cong, Chunxiao Ding, Chunyan Huang, Xiaoxiao Wen, Guangwu Yu, Ting School of Physical and Mathematical Sciences Engineering::Materials 2D Nanosheets Alkali‐ion Batteries 2D nanomaterials are well suited for energy conversion and storage because of their thickness-dependent physical and chemical properties. However, current synthetic methods for translating 2D materials from the laboratory to industry cannot integrate both advantages of liquid-phase method (i.e., solution processibility, homogeneity, and massive production), and gas-phase method (i.e., high quality and large lateral size). Here, inspired by Chinese Sugar Figure Blowing Art, a rapid "gel-blowing" strategy is proposed for the mass production of 2D nonlayered nanosheets by thermally expanding the viscous gel precursors within a short time (≈1 min). A wide variety of 2D nanosheets including oxides, carbon, oxides/carbon and metal/carbon composites are synthesized on a large scale and with no impurities. Importantly, this method unifies the merits of both liquid-phase and gas-phase syntheses, giving rise to 2D products with high uniformity, nanometer thickness, and large lateral sizes (up to hundreds of micrometers) simultaneously. The success of this strategy highly relies on the speed of "blowing" and control of the amount of reactants. The as-synthesized nanosheet electrodes manifest excellent electrochemical performance for alkali-ion batteries and electrocatalysis. This method opens up a new avenue for economical and massive preparation of good-quality nonlayered 2D nanosheets for energy-related applications and beyond. Ministry of Education (MOE) 2020-09-17T02:32:08Z 2020-09-17T02:32:08Z 2018 Journal Article Wang, D., Zhou, W., Zhang, R., Zeng, J., Du, Y., Qi, S., ... Yu, T. (2018). Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis. Advanced Materials, 30(43), 1803569-. doi:10.1002/adma.201803569 1521-4095 https://hdl.handle.net/10356/143695 10.1002/adma.201803569 30252169 43 30 1803569 en Advanced Materials © 2018 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Engineering::Materials
2D Nanosheets
Alkali‐ion Batteries
spellingShingle Engineering::Materials
2D Nanosheets
Alkali‐ion Batteries
Wang, Dong
Zhou, Weiwei
Zhang, Rui
Zeng, Jinjue
Du, Yu
Qi, Shuai
Cong, Chunxiao
Ding, Chunyan
Huang, Xiaoxiao
Wen, Guangwu
Yu, Ting
Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis
description 2D nanomaterials are well suited for energy conversion and storage because of their thickness-dependent physical and chemical properties. However, current synthetic methods for translating 2D materials from the laboratory to industry cannot integrate both advantages of liquid-phase method (i.e., solution processibility, homogeneity, and massive production), and gas-phase method (i.e., high quality and large lateral size). Here, inspired by Chinese Sugar Figure Blowing Art, a rapid "gel-blowing" strategy is proposed for the mass production of 2D nonlayered nanosheets by thermally expanding the viscous gel precursors within a short time (≈1 min). A wide variety of 2D nanosheets including oxides, carbon, oxides/carbon and metal/carbon composites are synthesized on a large scale and with no impurities. Importantly, this method unifies the merits of both liquid-phase and gas-phase syntheses, giving rise to 2D products with high uniformity, nanometer thickness, and large lateral sizes (up to hundreds of micrometers) simultaneously. The success of this strategy highly relies on the speed of "blowing" and control of the amount of reactants. The as-synthesized nanosheet electrodes manifest excellent electrochemical performance for alkali-ion batteries and electrocatalysis. This method opens up a new avenue for economical and massive preparation of good-quality nonlayered 2D nanosheets for energy-related applications and beyond.
author2 School of Physical and Mathematical Sciences
author_facet School of Physical and Mathematical Sciences
Wang, Dong
Zhou, Weiwei
Zhang, Rui
Zeng, Jinjue
Du, Yu
Qi, Shuai
Cong, Chunxiao
Ding, Chunyan
Huang, Xiaoxiao
Wen, Guangwu
Yu, Ting
format Article
author Wang, Dong
Zhou, Weiwei
Zhang, Rui
Zeng, Jinjue
Du, Yu
Qi, Shuai
Cong, Chunxiao
Ding, Chunyan
Huang, Xiaoxiao
Wen, Guangwu
Yu, Ting
author_sort Wang, Dong
title Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis
title_short Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis
title_full Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis
title_fullStr Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis
title_full_unstemmed Mass production of large-sized, nonlayered 2D nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in Li/Na storage and catalysis
title_sort mass production of large-sized, nonlayered 2d nanosheets : their directed synthesis by a rapid "gel-blowing" strategy, and applications in li/na storage and catalysis
publishDate 2020
url https://hdl.handle.net/10356/143695
_version_ 1681057190863962112

Similar Items