Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications

M. Parida; J. Eldemellawi; F. Alissa; S. Sangaru; M. K. Alsakkaf; T. Solling; A. M. El-Zohry

doi:10.2118/227078-MS

Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications

M. Parida
, J. Eldemellawi
, F. Alissa
, S. Sangaru
, M. K. Alsakkaf
, T. Solling
, A. M. El-Zohry

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Monitoring fluid behavior and interactions within petroleum reservoirs relies heavily on effective tracer technologies. However, conventional tracers, including certain nanomaterials like carbon dots, often present challenges such as inflexible emissive characteristics and insufficient stability under the demanding conditions typical of oil reservoirs. This paper introduces an innovative core/shell quantum dot (QD) system designed to overcome these limitations. The developed QDs offer the potential for tunable emission and demonstrate exceptional stability across a range of rigorous experimental conditions. These nanomaterials are synthesized with relative ease and exhibit significant resilience when exposed to water, saline solutions (e.g. NaCl), and diverse crude oil compositions. Critically, their fluorescent emission properties show minimal alteration when subjected to variations in pressure and temperature. This new class of QDs signifies a substantial advancement in tracer technology, offering exceptionally stable and potentially customizable emissive agents for oilfield applications. They possess considerable potential for identifying fluid sources and investigating chemical and physical transformations during upstream oil and gas operations, thereby contributing to enhanced reservoir management and monitoring strategies.

Original language	English
Title of host publication	Society of Petroleum Engineers - Middle East Oil, Gas and Geosciences Show, MEOS 2025
Publisher	Society of Petroleum Engineers (SPE)
ISBN (Electronic)	9781959025825
DOIs	https://doi.org/10.2118/227078-MS
State	Published - 2025
Externally published	Yes
Event	2025 Middle East Oil, Gas and Geosciences Show, MEOS 2025 - Manama, Bahrain Duration: 16 Sep 2025 → 18 Sep 2025

Publication series

Name	SPE Middle East Oil and Gas Show and Conference, MEOS, Proceedings
ISSN (Electronic)	2692-5931

Conference

Conference	2025 Middle East Oil, Gas and Geosciences Show, MEOS 2025
Country/Territory	Bahrain
City	Manama
Period	16/09/25 → 18/09/25

Bibliographical note

Publisher Copyright:
Copyright 2025, Society of Petroleum Engineers.

ASJC Scopus subject areas

Fuel Technology
Energy Engineering and Power Technology

Access to Document

10.2118/227078-MS

Cite this

Parida, M., Eldemellawi, J., Alissa, F., Sangaru, S., Alsakkaf, M. K., Solling, T., & El-Zohry, A. M. (2025). Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications. In Society of Petroleum Engineers - Middle East Oil, Gas and Geosciences Show, MEOS 2025 (SPE Middle East Oil and Gas Show and Conference, MEOS, Proceedings). Society of Petroleum Engineers (SPE). https://doi.org/10.2118/227078-MS

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title = "Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications",

abstract = "Monitoring fluid behavior and interactions within petroleum reservoirs relies heavily on effective tracer technologies. However, conventional tracers, including certain nanomaterials like carbon dots, often present challenges such as inflexible emissive characteristics and insufficient stability under the demanding conditions typical of oil reservoirs. This paper introduces an innovative core/shell quantum dot (QD) system designed to overcome these limitations. The developed QDs offer the potential for tunable emission and demonstrate exceptional stability across a range of rigorous experimental conditions. These nanomaterials are synthesized with relative ease and exhibit significant resilience when exposed to water, saline solutions (e.g. NaCl), and diverse crude oil compositions. Critically, their fluorescent emission properties show minimal alteration when subjected to variations in pressure and temperature. This new class of QDs signifies a substantial advancement in tracer technology, offering exceptionally stable and potentially customizable emissive agents for oilfield applications. They possess considerable potential for identifying fluid sources and investigating chemical and physical transformations during upstream oil and gas operations, thereby contributing to enhanced reservoir management and monitoring strategies.",

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Parida, M, Eldemellawi, J, Alissa, F, Sangaru, S, Alsakkaf, MK, Solling, T & El-Zohry, AM 2025, Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications. in Society of Petroleum Engineers - Middle East Oil, Gas and Geosciences Show, MEOS 2025. SPE Middle East Oil and Gas Show and Conference, MEOS, Proceedings, Society of Petroleum Engineers (SPE), 2025 Middle East Oil, Gas and Geosciences Show, MEOS 2025, Manama, Bahrain, 16/09/25. https://doi.org/10.2118/227078-MS

Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications. / Parida, M.; Eldemellawi, J.; Alissa, F. et al.
Society of Petroleum Engineers - Middle East Oil, Gas and Geosciences Show, MEOS 2025. Society of Petroleum Engineers (SPE), 2025. (SPE Middle East Oil and Gas Show and Conference, MEOS, Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Alsakkaf, M. K.

AU - Solling, T.

AU - El-Zohry, A. M.

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AB - Monitoring fluid behavior and interactions within petroleum reservoirs relies heavily on effective tracer technologies. However, conventional tracers, including certain nanomaterials like carbon dots, often present challenges such as inflexible emissive characteristics and insufficient stability under the demanding conditions typical of oil reservoirs. This paper introduces an innovative core/shell quantum dot (QD) system designed to overcome these limitations. The developed QDs offer the potential for tunable emission and demonstrate exceptional stability across a range of rigorous experimental conditions. These nanomaterials are synthesized with relative ease and exhibit significant resilience when exposed to water, saline solutions (e.g. NaCl), and diverse crude oil compositions. Critically, their fluorescent emission properties show minimal alteration when subjected to variations in pressure and temperature. This new class of QDs signifies a substantial advancement in tracer technology, offering exceptionally stable and potentially customizable emissive agents for oilfield applications. They possess considerable potential for identifying fluid sources and investigating chemical and physical transformations during upstream oil and gas operations, thereby contributing to enhanced reservoir management and monitoring strategies.

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Parida M, Eldemellawi J, Alissa F, Sangaru S, Alsakkaf MK, Solling T et al. Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications. In Society of Petroleum Engineers - Middle East Oil, Gas and Geosciences Show, MEOS 2025. Society of Petroleum Engineers (SPE). 2025. (SPE Middle East Oil and Gas Show and Conference, MEOS, Proceedings). doi: 10.2118/227078-MS

Core/Shell Quantum Dots: Highly Stable and Tunable Tracers for Oil Reservoir Applications

Abstract

Publication series

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Bibliographical note

ASJC Scopus subject areas

Access to Document

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