Sonochemistry and sonocatalysis: current progress, existing limitations, and future opportunities in green and sustainable chemistry

Trịnh, Quang Thang; Golio, Nicholas; Cheng, Yuran; Cha, Haotian; Tai, Kin Un; Ouyang, Lingxi; Zhao, Jun; Tran, Tuan Sang; Nguyen, Tuan‐Khoa; Zhang, Jun; An, Hongjie; Wei, Zuojun; Jérôme, François; Amaniampong, Prince Nana; Nguyen, Nam‐Trung

doi:10.1039/d5gc01098e

articleGreen ChemistryJan 1, 2025Closed access

Sonochemistry and sonocatalysis: current progress, existing limitations, and future opportunities in green and sustainable chemistry

QTQuang Thang Trịnh NGNicholas Golio YCYuran Cheng HCHaotian Cha KUKin Un Tai

Griffith University · Centre National de la Recherche Scientifique · +3 more institutions

Indexed incrossref

Abstract

The integration of nanostructured catalytic cavitation agents, microfluidic solutions, and computational molecular modelling forms a trilateral synergistic platform that unlocks new potential of sonocatalysis in green and sustainable chemistry.

Citation impact

total citations

FWCI: 34.58
Percentile: 100%
References: 281

Citations per year

Authors

QT
Quang Thang TrịnhCorresponding
Griffith University
NG
Nicholas Golio
Centre National de la Recherche Scientifique, Institut de Chimie des Milieux et des Matériaux de Poitiers
YC
Yuran Cheng
Griffith University, Ministry of Education
HC
Haotian Cha
Griffith University
KU
Kin Un Tai
Griffith University

Topics & keywords

Topics

Chemistry and Chemical Engineering98%
Ultrasound and Cavitation Phenomena98%
Chemical Reactions and Isotopes95%

Keywords

Sonochemistry
Green chemistry
Current (fluid)
Nanotechnology
Sustainable development
Biochemical engineering
Chemistry
Engineering physics

No related works found for this paper.

Funding

ZU
Zhejiang University
ER
European Research Council
Award: 101117070
AR
Australian Research Council
Awards: FL230100023, DE240100408
ER
European Regional Development Fund