Combining Fluorescent Quantum Dots with Molecularly Imprinted Polymers for the Screening of both Emerging and Classical Environmental Pollutants: A Review

Zeb, Shakeel; Villa, Javier E. L.; Wong, Ademar; Khan, Sabir; Hussain, Sajjad; Sotomayor, Maria D. P. T.

doi:10.21577/0103-5053.20230015

Shakeel Zeb

responsible for collection of material

writing original draft

graphical sketching

formatting

revision of final draft

Departamento de Química Analítica, Instituto de Química, Universidade Estadual Paulista (Unesp), 14801-970 Araraquara-SP, Brazil

Instituto Nacional de Tecnologias Alternativas para Detecção, Avaliação Toxicológica e Remoção de Micropoluentes e Radioativos (INCT-DATREM), 14801-970 Araraquara-SP, Brazil

Shakeel Zeb received his master’s degree (MSc) in Chemistry from Hazara University Manshera, Pakistan in 2017. Currently, he is a PhD student under supervision of Maria Del Pilar Taboada Sotomayor at institute of Chemistry of UNESP in Araraquara, São Paulo (Brazil). He works in analytical chemistry, developing electrochemical sensors based on molecularly imprinted polymers.

Javier E. L. Villa

original draft

corrections and suggestions

Instituto de Química, Universidade Estadual de Campinas, 13083-970 Campinas-SP, Brazil

Javier Erick Lobatón Villa received his PhD degree in Chemistry from the State University of Campinas (UNICAMP), São Paulo, Brazil. He was a postdoctoral researcher at the São Paulo State University (UNESP), São Paulo, Brazil and CIC BiomaGUNE, Basque Country, Spain. He is currently a Professor of Chemistry at the State University of Campinas (UNICAMP), São Paulo, Brazil and his research interests include analytical spectroscopy, chemometrics and nanoplasmonics.

Ademar Wong

original draft

corrections and suggestions

Departamento de Química Analítica, Instituto de Química, Universidade Estadual Paulista (Unesp), 14801-970 Araraquara-SP, Brazil

Instituto Nacional de Tecnologias Alternativas para Detecção, Avaliação Toxicológica e Remoção de Micropoluentes e Radioativos (INCT-DATREM), 14801-970 Araraquara-SP, Brazil

Ademar Wong received his PhD degree in Analytical Chemistry from São Paulo State University, Araraquara, SP (Brazil) in 2014. Currently, he is making post-doctoral from Institute of Chemistry of UNESP in Araraquara, São Paulo (Brazil). His research interests include the study of new electrode materials, metallic complex (porphyrin and phthalocyanine), molecularly imprinted polymers, nanostructured materials (carbon nanotube, carbon black, ionic liquid and graphene oxide) and metallic nanoparticles.

Sabir Khan ^**e-mail: sabir@ufersa.edu.br; mpilarts@hotmail.com

writing review and editing

Departamento de Química Analítica, Instituto de Química, Universidade Estadual Paulista (Unesp), 14801-970 Araraquara-SP, Brazil

Departamento de Ciências Naturais, Matemática e Estatística, Universidade Federal Rural do Semi-Árido, 59625-900 Mossoró-RN, Brazil

Sabir Khan completed his master’s degree in chemistry at the Institute of Chemical Sciences of the University of Peshawar (Pakistan), and in 2013, he received his PhD in Analytical Chemistry from the State University of Campinas- UNICAMP (Brazil). He is currently a postdoctoral researcher at the Institute of Chemistry of UNESP in Araraquara, São Paulo, under the supervision of Prof Maria Del Pilar Taboada Sotomayor (Brazil). His research focuses primarily on the construction of electrochemical and optical biomimetic sensors based on biomimetic catalysts and molecularly imprinted polymers.

https://orcid.org/0000-0003-4557-238X

Sajjad Hussain

writing review and editing

Faculty of Materials and Chemical Engineering, GIK Institute of Engineering Science and Technology, Topi, KPK 23460, Pakistan

Sajjad Hussain completed Master’s degree from Institute of Chemical Sciences, University of Peshawar (Pakistan), he got PhD degree (University of São Paulo, Brazil), and completed Post-Doctorate (State University of São Paulo, Brazil) under supervision of Prof Maria Del Pilar Taboada Sotomayor (Brazil).

Maria D. P. T. Sotomayor ^**e-mail: sabir@ufersa.edu.br; mpilarts@hotmail.com

conceptualization

supervision

administration of the team

Departamento de Química Analítica, Instituto de Química, Universidade Estadual Paulista (Unesp), 14801-970 Araraquara-SP, Brazil

Instituto Nacional de Tecnologias Alternativas para Detecção, Avaliação Toxicológica e Remoção de Micropoluentes e Radioativos (INCT-DATREM), 14801-970 Araraquara-SP, Brazil

Maria Del Pilar Taboada Sotomayor is the Leader of the Nano(bio)mimetic-sensors Group and associate professor at the São Paulo State University (UNESP - Brazil) and Doctor Honoris Causa from the National University of Engineering (Peru) since 2018. She works mainly in the development of electrochemical and optical biomimetic sensors based on biomimetic catalysts and molecularly imprinted polymers. Also, she works in the development of genosensors and rapid analysis devices based on lateral flow. Currently, Prof Sotomayor is the head of the Analytical Chemistry department at Chemistry Institute of UNESP.

https://orcid.org/0000-0002-6173-7888

*e-mail: sabir@ufersa.edu.br; mpilarts@hotmail.com

Editor handled this article: Fernando C. Giacomelli (Associate)

Shakeel Zeb received his master’s degree (MSc) in Chemistry from Hazara University Manshera, Pakistan in 2017. Currently, he is a PhD student under supervision of Maria Del Pilar Taboada Sotomayor at institute of Chemistry of UNESP in Araraquara, São Paulo (Brazil). He works in analytical chemistry, developing electrochemical sensors based on molecularly imprinted polymers.

Javier Erick Lobatón Villa received his PhD degree in Chemistry from the State University of Campinas (UNICAMP), São Paulo, Brazil. He was a postdoctoral researcher at the São Paulo State University (UNESP), São Paulo, Brazil and CIC BiomaGUNE, Basque Country, Spain. He is currently a Professor of Chemistry at the State University of Campinas (UNICAMP), São Paulo, Brazil and his research interests include analytical spectroscopy, chemometrics and nanoplasmonics.

Ademar Wong received his PhD degree in Analytical Chemistry from São Paulo State University, Araraquara, SP (Brazil) in 2014. Currently, he is making post-doctoral from Institute of Chemistry of UNESP in Araraquara, São Paulo (Brazil). His research interests include the study of new electrode materials, metallic complex (porphyrin and phthalocyanine), molecularly imprinted polymers, nanostructured materials (carbon nanotube, carbon black, ionic liquid and graphene oxide) and metallic nanoparticles.

Sabir Khan completed his master’s degree in chemistry at the Institute of Chemical Sciences of the University of Peshawar (Pakistan), and in 2013, he received his PhD in Analytical Chemistry from the State University of Campinas- UNICAMP (Brazil). He is currently a postdoctoral researcher at the Institute of Chemistry of UNESP in Araraquara, São Paulo, under the supervision of Prof Maria Del Pilar Taboada Sotomayor (Brazil). His research focuses primarily on the construction of electrochemical and optical biomimetic sensors based on biomimetic catalysts and molecularly imprinted polymers.

Sajjad Hussain completed Master’s degree from Institute of Chemical Sciences, University of Peshawar (Pakistan), he got PhD degree (University of São Paulo, Brazil), and completed Post-Doctorate (State University of São Paulo, Brazil) under supervision of Prof Maria Del Pilar Taboada Sotomayor (Brazil).

Maria Del Pilar Taboada Sotomayor is the Leader of the Nano(bio)mimetic-sensors Group and associate professor at the São Paulo State University (UNESP - Brazil) and Doctor Honoris Causa from the National University of Engineering (Peru) since 2018. She works mainly in the development of electrochemical and optical biomimetic sensors based on biomimetic catalysts and molecularly imprinted polymers. Also, she works in the development of genosensors and rapid analysis devices based on lateral flow. Currently, Prof Sotomayor is the head of the Analytical Chemistry department at Chemistry Institute of UNESP.

No.	Name of properties	Description of properties
1	dimension	material with no dimensions
2	density	they are denser and sharper
3	particles size	2-10 nm particles size
4	band gap energy/size of QDs	quantum dot size and band gap are inversely proportional
5	radiation of QDs	size and band gap determine color irradiation/increase in size the emission color shifts to the red
6	luminescence properties	QDs have luminescent characteristics
7	emission of wavelength	QDs emits wavelengths between those of the ultraviolet and infrared spectra

Synthesis method	Advantages	Disadvantages
Carbonization	it is easy and green method	polydisperse GQDs are challenging to manage in size and structure
Controllable synthesis	as-prepared GQDs have exact carbon atom count, homogeneous size and shape	multi-step chemical processes are involved; lengthy and low-yielding process
Hydrothermal/ solvothermal	simple and fast technique	before reactions occur, carbon must be oxidized
Electrochemical oxidation	high stability and consistent size distribution	low yield prevents mass fabrication
Microwave-assisted/ ultrasonic-assisted	it reduces reaction time and boosts productivity	industrial production of microwave/ultrasonic reactors is limited and expensive
Cleavage oxidative	simple and effective, it is the most viable method for mass production	strong oxidizers may produce fire or explosion, and postprocessing is difficult

Analyte	Method	Sensing materials	LOD	Reference
Acetamiprid	fluorometric	CQD@MIPs	110 pM	118
Acetamiprid	fluorometric	FRET between Cy5.5 and QDs	0.02 μM	119
Diazinon	fluorometric	CdTe/CdS QDs	0.16 mg kg^-1	120
Diazinon	fluorometric	MIP@ZnS:Mn²⁺	164 nM	121
Sulfadiazine	fluorometric	CdS quantum dots	8.0 µM	122
Sulfadiazine	fluorometric	MIP@QDs	0.7 µM	123
Tetracycline	fluorometric	MIP mesoporous silica @QDs	15.0 ng mL^-1	124
Tetracycline	fluorometric	MoS₂ QDs	50 μM	125

	Contaminant	Limit of detection	Matrix	Recovery / %	Reference
Antibiotics	sulfadiazine	0.004 µg L^-1	seawater	90.4-99.5	207
	sulfadiazine	0.042 µmol L^-1	tape water	91.7-101.2	208
	norfloxcacin	0.18 µM	seawater	96.2-106	209
	ceftazidime	0.11nmol L^-1	urine	97.5-107.5	210
	thiamphenicol	0.04 µg L^-1	milk	93.5-100.1	157
Pesticides	chlorpyrifos	17 nmol L^-1	water	87.1-94.5	211
	pentachlorophenol	86 nM	river water	93-106	116
	diniconazole	6.4 µg L^-1	river water	99-102.1	202
	thiacloprid	0.03 mg L^-1	lake water	101.1-110	192
	4-nitrophenol	0.051 µM	lake water	92.7-109.2	92
Heavy metals	Cd^II ions	25 nM	lake water	86.5-94.8	212
	Cd^II ions	0.016, 0.028 mg L^-1	real water	99.2-105.4	172
	Cr^VI ions	5.48 µg L^-1	real water	94.4-106.4	173
	Cd^II ions and Pb^II ions	0.245, 0.335 µg L^-1	sea, lake water	95-101.7, 95-100.7	179
Emerging pollutants	dimethoate	0.006 mg L^-1	river water	96.5-99.6
	p-aminophenol	0.02 µM	lake water	97.3-103.3	213
	diethylstilbestrol	5.9 × 10⁵ mg L^-1	river water	95.5-107.5	214
	cypermethrin	0.3 µg L^-1	sea water	95.6-98.5	215
	atrazine	0.80 × 10⁷ mol L^-1	tape, river water	92-118	6
Dyes	Malachite Green	0.059 µmol L^-1	aquaculture water	94.8-98.1	201
Dyes	Malachite Green	17.0 nM	river, lake water	95.8-107.3	203

[1] *e-mail: sabir@ufersa.edu.br; mpilarts@hotmail.com

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Combining Fluorescent Quantum Dots with Molecularly Imprinted Polymers for the Screening of both Emerging and Classical Environmental Pollutants: A Review