An overview on non-spherical semiconductors for heterogeneous photocatalytic degradation of organic water contaminants

Because of their carcinogenicity and mutagenicity, the elimination of organic contaminants from surface and subsurface water is a subject of environmental significance. Conventional water decontamination approaches such as membrane separation, ultrafiltration, adsorption, reverse osmosis, coagulatio...

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Published inChemosphere (Oxford) Vol. 280; p. 130907
Main Authors Zare, Ehsan Nazarzadeh, Iftekhar, Sidra, Park, Yuri, Joseph, Jessy, Srivastava, Varsha, Khan, Moonis Ali, Makvandi, Pooyan, Sillanpaa, Mika, Varma, Rajender S.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2021
Subjects
adsorption
carcinogenicity
coagulation
cost effectiveness
decontamination
Mechanism
mutagenicity
Non-spherical semiconductors
Organic pollutants
oxidation
photocatalysis
Photocatalytic degradation
reverse osmosis
semiconductors
Synthesis
ultrafiltration
water pollution
Photocatalytic degradation
MPC
PS
LPUV
L-H
HOFe
GDE
Organic pollutants
DOFe
DP
SCWO
Non-spherical semiconductors
HMs
Synthesis
EE2
DBP
MB
SPEF
MDP
THMs
US
WHO
MPUV
EF
MP
DCF
LPVUV
TOC
EO
VB
RhB
BPA
HEFe
CWAO
HANs
BDD
WAO
ENR
CTAB
Mechanism
AOPs
EDCs
WO
COD
CBZ
CB
PTFE
TDFe
CN
NPs
PEF
TIAA
PCPs
PC
PMS
ATL
PAHs
TCEP
Online AccessGet full text
ISSN0045-6535
1879-1298
1879-1298
DOI10.1016/j.chemosphere.2021.130907

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Abstract Because of their carcinogenicity and mutagenicity, the elimination of organic contaminants from surface and subsurface water is a subject of environmental significance. Conventional water decontamination approaches such as membrane separation, ultrafiltration, adsorption, reverse osmosis, coagulation, etc., have relatively higher operating costs and can generate highly toxic secondary contaminants. On the other hand, heterogeneous photocatalysis, an advanced oxidation process (AOP), is considered a clean and cost-effective process for organic pollutants degradation. Owing to their distinctive structure and physicochemical properties non-spherical semiconductors have gained considerable limelight in the photocatalytic degradation of organic contaminants. The current review briefly introduces a wide range of organic water contaminants. Recent advances in non-spherical semiconductor assembly and their photocatalytic degradation applications are highlighted. The underlying mechanism, fundamentals of photocatalytic reactions, and the factors affecting the degradation performance are also alluded including the current challenges and future research perspectives. [Display omitted] •Applications of non-spherical semiconductors in photocatalytic degradation discussed.•Various parameters such as morphology and crystal plan were discussed.•There exists a correlation between catalyst morphology and its photocatalytic activity.•Reaction parameters e.g., catalyst concentration influenced in alter the reaction rates.
AbstractList Because of their carcinogenicity and mutagenicity, the elimination of organic contaminants from surface and subsurface water is a subject of environmental significance. Conventional water decontamination approaches such as membrane separation, ultrafiltration, adsorption, reverse osmosis, coagulation, etc., have relatively higher operating costs and can generate highly toxic secondary contaminants. On the other hand, heterogeneous photocatalysis, an advanced oxidation process (AOP), is considered a clean and cost-effective process for organic pollutants degradation. Owing to their distinctive structure and physicochemical properties non-spherical semiconductors have gained considerable limelight in the photocatalytic degradation of organic contaminants. The current review briefly introduces a wide range of organic water contaminants. Recent advances in non-spherical semiconductor assembly and their photocatalytic degradation applications are highlighted. The underlying mechanism, fundamentals of photocatalytic reactions, and the factors affecting the degradation performance are also alluded including the current challenges and future research perspectives.
Because of their carcinogenicity and mutagenicity, the elimination of organic contaminants from surface and subsurface water is a subject of environmental significance. Conventional water decontamination approaches such as membrane separation, ultrafiltration, adsorption, reverse osmosis, coagulation, etc., have relatively higher operating costs and can generate highly toxic secondary contaminants. On the other hand, heterogeneous photocatalysis, an advanced oxidation process (AOP), is considered a clean and cost-effective process for organic pollutants degradation. Owing to their distinctive structure and physicochemical properties non-spherical semiconductors have gained considerable limelight in the photocatalytic degradation of organic contaminants. The current review briefly introduces a wide range of organic water contaminants. Recent advances in non-spherical semiconductor assembly and their photocatalytic degradation applications are highlighted. The underlying mechanism, fundamentals of photocatalytic reactions, and the factors affecting the degradation performance are also alluded including the current challenges and future research perspectives. [Display omitted] •Applications of non-spherical semiconductors in photocatalytic degradation discussed.•Various parameters such as morphology and crystal plan were discussed.•There exists a correlation between catalyst morphology and its photocatalytic activity.•Reaction parameters e.g., catalyst concentration influenced in alter the reaction rates.
Because of their carcinogenicity and mutagenicity, the elimination of organic contaminants from surface and subsurface water is a subject of environmental significance. Conventional water decontamination approaches such as membrane separation, ultrafiltration, adsorption, reverse osmosis, coagulation, etc., have relatively higher operating costs and can generate highly toxic secondary contaminants. On the other hand, heterogeneous photocatalysis, an advanced oxidation process (AOP), is considered a clean and cost-effective process for organic pollutants degradation. Owing to their distinctive structure and physicochemical properties non-spherical semiconductors have gained considerable limelight in the photocatalytic degradation of organic contaminants. The current review briefly introduces a wide range of organic water contaminants. Recent advances in non-spherical semiconductor assembly and their photocatalytic degradation applications are highlighted. The underlying mechanism, fundamentals of photocatalytic reactions, and the factors affecting the degradation performance are also alluded including the current challenges and future research perspectives.Because of their carcinogenicity and mutagenicity, the elimination of organic contaminants from surface and subsurface water is a subject of environmental significance. Conventional water decontamination approaches such as membrane separation, ultrafiltration, adsorption, reverse osmosis, coagulation, etc., have relatively higher operating costs and can generate highly toxic secondary contaminants. On the other hand, heterogeneous photocatalysis, an advanced oxidation process (AOP), is considered a clean and cost-effective process for organic pollutants degradation. Owing to their distinctive structure and physicochemical properties non-spherical semiconductors have gained considerable limelight in the photocatalytic degradation of organic contaminants. The current review briefly introduces a wide range of organic water contaminants. Recent advances in non-spherical semiconductor assembly and their photocatalytic degradation applications are highlighted. The underlying mechanism, fundamentals of photocatalytic reactions, and the factors affecting the degradation performance are also alluded including the current challenges and future research perspectives.
ArticleNumber 130907
Author Park, Yuri
Varma, Rajender S.
Zare, Ehsan Nazarzadeh
Sillanpaa, Mika
Iftekhar, Sidra
Srivastava, Varsha
Makvandi, Pooyan
Joseph, Jessy
Khan, Moonis Ali
Author_xml – sequence: 1
  givenname: Ehsan Nazarzadeh
  surname: Zare
  fullname: Zare, Ehsan Nazarzadeh
  email: ehsan.nazarzadehzare@gmail.com, e.nazarzadeh@du.ac.ir
  organization: School of Chemistry, Damghan University, Damghan 36716-41167, Iran
– sequence: 2
  givenname: Sidra
  surname: Iftekhar
  fullname: Iftekhar, Sidra
  organization: Department of Applied Physics, University of Eastern Finland, Kuopio, 70210, Finland
– sequence: 3
  givenname: Yuri
  surname: Park
  fullname: Park, Yuri
  organization: Department of Separation Science, Lappeenranta–Lahti University of Technology LUT, Sammonkatu 12, FI, 50130, Mikkeli, Finland
– sequence: 4
  givenname: Jessy
  surname: Joseph
  fullname: Joseph, Jessy
  organization: Department of Separation Science, Lappeenranta–Lahti University of Technology LUT, Sammonkatu 12, FI, 50130, Mikkeli, Finland
– sequence: 5
  givenname: Varsha
  surname: Srivastava
  fullname: Srivastava, Varsha
  organization: Department of Separation Science, Lappeenranta–Lahti University of Technology LUT, Sammonkatu 12, FI, 50130, Mikkeli, Finland
– sequence: 6
  givenname: Moonis Ali
  orcidid: 0000-0002-0548-8581
  surname: Khan
  fullname: Khan, Moonis Ali
  organization: Chemistry Department, College of Science, King Saud University, Riyadh, 11451, Saudi Arabia
– sequence: 7
  givenname: Pooyan
  surname: Makvandi
  fullname: Makvandi, Pooyan
  organization: Center for Materials Interfaces, Istituto Italiano di Tecnologia (IIT), Viale R. Piaggio 34, 56025, Pontedera, Pisa, Italy
– sequence: 8
  givenname: Mika
  surname: Sillanpaa
  fullname: Sillanpaa, Mika
  email: mika.sillanpaa@tdtu.edu.vn
  organization: Environmental Engineering and Management Research Group, Ton Duc Thang University, Ho Chi Minh City, Viet Nam
– sequence: 9
  givenname: Rajender S.
  orcidid: 0000-0001-9731-6228
  surname: Varma
  fullname: Varma, Rajender S.
  email: Varma.Rajender@epa.gov
  organization: Regional Centre of Advanced Technologies and Materials, Czech Advanced Technology and Research Institute, Palacký University in Olomouc, Šlechtitelů 27, 783 71, Olomouc, Czech Republic
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Snippet Because of their carcinogenicity and mutagenicity, the elimination of organic contaminants from surface and subsurface water is a subject of environmental...
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SubjectTerms adsorption
carcinogenicity
coagulation
cost effectiveness
decontamination
Mechanism
mutagenicity
Non-spherical semiconductors
Organic pollutants
oxidation
photocatalysis
Photocatalytic degradation
reverse osmosis
semiconductors
Synthesis
ultrafiltration
water pollution
Title An overview on non-spherical semiconductors for heterogeneous photocatalytic degradation of organic water contaminants
URI https://dx.doi.org/10.1016/j.chemosphere.2021.130907
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