Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change! The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI. We are offering a PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you! The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states. As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively. As a PhD candidate, your tasks will include: Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP) Conducting and analyzing experiments using benchtop and high-field NMR Developing and implementing novel polarization transfer methods for solid and liquid NMR samples Collaborating on simulations of spin dynamics to guide experimental design Preparing scientific publications and presenting your research at conferences This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position: Essential: A master’s degree in chemistry, physics, biochemistry, materials science, or a related field Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment Curiosity and enthusiasm to learn Willingness to present research results at conferences Good knowledge of spoken English Advantageous: Experience with NMR, MRI, and hyperpolarization techniques Familiarity with quantum mechanics, spectroscopy, or electromagnetism Experien...
تاريخ البدء
2024-10-09
Leo-Brandt-Straße / Wilhelm-Johnen-Straße
52428
Wilhelm-Johnen-Straße, 52428, Jülich, Nordrhein Westfalen, Deutschland
التقديم عبر
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...
Jülich
Conducting research for a changing society: This is what drives us at Forschungszentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-efficient economy. Work together with around 7,400 employees in one of Europe’s biggest research centers and help us to shape change!
The Institute of Biological Information Processing - Structural Biochemistry (IBI-7) focuses on understanding dynamic interactions between biological macromolecules and their structure, which is crucial to the function of every cell and organism. Central to this goal is nuclear magnetic resonance spectroscopy (NMR), which provides detailed information about the microscopic structure and function of molecules. But NMR is an intrinsically insensitive technique, often requiring many hours or days of data acquisition to yield high-resolution structure maps. The Hyperpolarization Methods Lab develops chemical and physical approaches to hyperpolarize atoms and molecules, enhancing their NMR signals by orders of magnitude. This opens entirely new possibilities for spectroscopy and imaging in chemistry, biology, and in vivo MRI.
We are offering a
PhD Position - Hyperpolarized Magnetic Resonance If you are interested in creative problem solving at the interface between chemistry and physics with the chance to mix hands-on experimental work with theory+simulations, this opportunity may be for you!
The Hyperpolarization Methods research group at the Institute for Structural Biochemistry is seeking a motivated PhD candidate to carry out research in the field of hyperpolarized magnetic resonance. Hyperpolarization is the preparation of molecules in a specific nuclear spin quantum state. This means the molecule’s NMR / MRI signals are enhanced by many orders of magnitude, which is transformative for applications such as medical MRI or chemosensing. Specifically, we develop novel chemical and physical methods to produce hyperpolarized molecules and to extend the lifetimes of those hyperpolarized states.
As a member of the research group, you will work in an environment that combines the best aspects of modern scientific research with traditional academic values. You will carry out fast-paced research on societally relevant topics, with individual support (especially for your personal well-being) so you can grow as an individual. At the same time, you will have ample opportunity for acquiring knowledge, discussing science, and thinking creatively.
As a PhD candidate, your tasks will include:
Hyperpolarizing molecules using parahydrogen-induced polarization (PHIP)
Conducting and analyzing experiments using benchtop and high-field NMR
Developing and implementing novel polarization transfer methods for solid and liquid NMR samples
Collaborating on simulations of spin dynamics to guide experimental design
Preparing scientific publications and presenting your research at conferences
This is an interdisciplinary research area that integrates synthetic chemistry, physical chemistry and spectroscopy, experimental physics, and magnetic resonance theory. We do a mixture of hands-on experimental work and computer-based theory+simulations to guide experiments. You will be able to shape your PhD in these areas. We are looking for a candidate to bring different qualities to the position:
Essential:
A master’s degree in chemistry, physics, biochemistry, materials science, or a related field
Strong problem-solving skills and the ability to work productively within a multidisciplinary and collaborative research environment
Curiosity and enthusiasm to learn
Willingness to present research results at conferences
Good knowledge of spoken English
Advantageous:
Experience with NMR, MRI, and hyperpolarization techniques
Familiarity with quantum mechanics, spectroscopy, or electromagnetism
Experien...