Elsaidi Group

اين المعيدين والمدرسين المساعدين زوى الهمه والنشاط ، من يرغب بالالتحاق بمجموعتى البحثية فى إمريكا . معلومات اكثر
في موقع المجموعه على LinkedIn
https://www.linkedin.com/posts/elsaidi-group_elsaidilab-m*f-materials-activity-6979915786752577536-S8-8?utm_source=share&utm_medium=member_ios

www.linkedin.com

Recruiting new PhD students. More information can be found on my group page @ LinkedIn
https://www.linkedin.com/posts/elsaidi-group_sameh-elsaidi-activity-6973711752156893184-hgAx?utm_source=share&utm_medium=member_ios

www.linkedin.com

Recruiting new PhD students.
I am looking for one more talented PhD student to join my group at Illinois Institute of Technology, and to start as early as Fall 2022.
Please share the post with your colleagues.
Elsaidi Lab: Center of Separation Science and Sustainability (CSSS)
https://lnkd.in/dHRQFaes
If you are interested in joining my group, please email your resume and cover letter to [email protected]
Required qualifications
1-Applicats must meet the admission requirements for graduate program at IIT.
https://lnkd.in/dJGWzHCU
2-Experience in porous materials, M*Fs, materials synthesis, and characterization techniques.
3- Strong writing and communication skills demonstrated by high quality first author publications in high impact journals and conference presentations
Preferred qualification
Master degree in M*Fs/porous materials
4- GPA at least 3.5/4

ONLY applicants that meet these qualifications and chosen for short list will be contacted.
Thank you

*f
https://www.linkedin.com/posts/activity-6919765757190959104-UG6y?utm_source=linkedin_share&utm_medium=android_app

https://lnkd.in/dHRQFaes

Sameh Elsaidi Sameh Elsaidi Assistant Professor of Chemistry Tags: Faculty Chemistry Lewis College of Science and Letters Home Office and Department Directory Directory Sameh Elsaidi EducationB.S. Chemistry, Alexandria UniversityM.S. Chemistry, Alexandria UniversityPh.D. Chemistry, University of South FloridaRese...

Happy New Year to my family, friends, my students and colleagues. I wish you all a happy new year full of Joy and happiness!!
Center of Separation Science and Sustainability CSSS Illinois Institute of Technology
https://www.iit.edu/directory/people/sameh-elsaidi

Sameh Elsaidi Sameh Elsaidi Assistant Professor of Chemistry Tags: Faculty Chemistry Lewis College of Science and Letters Home Office and Department Directory Directory Sameh Elsaidi EducationB.S. Chemistry, Alexandria UniversityM.S. Chemistry, Alexandria UniversityPh.D. Chemistry, University of South FloridaRese...

Recruiting new PhD students.
I am currently recruiting new students to join my group at Illinois Institute of Technology, and to start as early as Spring 2022.
If you are interested in joining my group, please send me your resume, cover letter, and three recommendation letters to be sent directly from your professional referees to [email protected]
Applicant must have master degree from accredited University, TOEFL score of 80 or IELTS score of 5.5.
Preferred qualifications
Experience in porous materials, materials synthesis and characterizations
Please send the required documents to [email protected]
Don't hesitate to contact me if you have any questions.

Home | Dr. Sameh Elsaidi "I can hardly doubt that when we have some control of the arrangement of things on a small scale we will get an enormously greater range of possible properties that substances can have, and of different things that we can do."

Some students reached out to me to join my group at Illinois Tech
Please find below the admission requirements for our PhD Chemistry program at Illinois Institute of Technology
https://www.iit.edu/academics/programs/chemistry-phd

Degree applicants must hold a bachelor’s degree from an accredited educational institution, with a minimum GPA of 3.0 on a 4.0 scale. Submission of GRE scores is required. You may be granted provisional admission with a GPA less than 3.0.

GRE: 310 (quantitative + verbal), 3.0 (analytical writing)
TOEFL: 80 -or- IELTS: 5.5, for international applicants

Chemistry (Ph.D.) Illinois Tech's chemistry program spans the traditional areas of research in physical, polymer, organic, inorganic, analytical, and biological chemistry. Prepare for a career in academia, industry, or government.

Prof. Götz Veser "SE-MAT International Meeting 2021, August 8th-9th Materials As Process Enablers: Integrating Reaction & Separation for Next-Generation Fuel Processing via Chemical Looping

Prof. Yury Gogotsi's talk at SE-MAT international meeting 2021 August 8th
https://youtu.be/phZpAdHnEQE

Prof Yury Gogotsi "Two-Dimensional Carbides and Nitrides (MXenes) for Energy Storage" SE-MAT Meeting SE-MAT International Meeting 2021, August 8th-9th

Dr. Sameh Elsaidi "Smartly Engineered Materials for Energy & Environmental Applications" SE-MAT International Meeting 2021

SE-MAT International Meeting 2021 is starting tomorrow at 10am EST

Below is the ZOOM link for the meeting.

https://zoom.us/j/92367701305?pwd=eFZON3FucDZwZ2IxKzB2anJXUC9Zdz09

"Smartly Engineered Materials for Energy & Environment

August 8-9, 2021"

Prof. Yury Gogotsi Dr. Dr. Sameh Elsaidi Dr. Mona Mohamed Prof. Götz Veser Dr. Osama Shekhah Prof. Mircea Dinca Prof. Shengqian Ma Prof. Silvana Andreescu Prof. Randy Larsen Prof. Ju Li Prof. Brian Space Dr. Carlos Peña Garay Prof. Francesco Paesani Dr. Maciej Haranczyk Prof. Omar Farha Prof. Mohammad Omary Dr. Praveen Thallapally and Dr. Mustapha Soukri

المؤتمر الدولى الاول برعايه شركه SE-Mat Smartly Engineered Materials, LLC وتنظيم الدكتور سامح الصعيدى Dr. Sameh Elsaidi والدكتوره منى محمد. يسعدنا ويشرفنا انضمام لفيف من ارقى علماء المواد النانومتريه فى مجال الطاقه والبيئه من انحاء العالم. التسجيل مجانا من خلال موقع الشركه تابعوا صفحتنا على مواقع التواصل الاجتماعى لكل جديد فى مجال المواد النانومتريه وتطبيقاتها فى مجالات الطاقه المتجدده والبيئه

SE-MAT international meeting August 2021

Website: https://lnkd.in/guTp-Zq

LinkedIn: https://lnkd.in/dP3aBVP

Facebook: https://lnkd.in/dddC76Z

Twitter: https://lnkd.in/d3T7MK5



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فخر كلية علوم الإسكندرية منى محمد - وضوح الاخبارى كتبت / أ.د.نادية حجازي نعمان   دكتوره منى ابنه كليه العلوم جامعة الإسكندرية الأولى على دفعه الكيمياء ٢٠٠٥ إمتياز مع مرتبه الشرف عملت فى الماجيستير مع دكتور عصام ....

Sign up for our upcoming international meeting and follow us on social media
SE-MAT International Meeting 2021
"Smartly Engineered Materials for Energy & Environment
August 8-9, 2021"

المؤتمر الدولى الاول برعايه شركه SE-Mat Smartly Engineered Materials, LLC وتنظيم الدكتور سامح الصعيدى Dr. Sameh Elsaidi والدكتوره منى محمد. يسعدنا ويشرفنا انضمام لفيف من ارقى علماء المواد النانومتريه فى مجال الطاقه والبيئه من انحاء العالم. التسجيل مجانا من خلال موقع الشركه تابعوا صفحتنا على مواقع التواصل الاجتماعى لكل جديد فى مجال المواد النانومتريه وتطبيقاتها فى مجالات الطاقه المتجدده والبيئه
SE-MAT international meeting August 2021
Website: https://lnkd.in/guTp-Zq
LinkedIn: https://lnkd.in/dP3aBVP
Facebook: https://lnkd.in/dddC76Z
Twitter: https://lnkd.in/d3T7MK5

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Call for papers MDPI
We are glad to extend the submission due for our Special Issue "Advances in M*F-Based Membranes" (IF 4.106, Q1 journal in JCR)
https://www.mdpi.com/journal/membranes/special_issues/M*F_Membrane
This special issue on “Advances in M*F-based membranes” of the journal Membranes seeks contributions to advance the field of pure M*F films and M*F composite membranes through experimental and computational studies. Topics include, but are not limited to, new strategies and techniques for the design, synthesis and processing of M*F-based membranes, fine-tuning of the M*F-polymer interface interactions, techniques for improving M*F adhesion to porous supports, overcoming the selectivity and permeability trade-off, improving the membrane mechanical strength, remarkable membrane performance, novel applications and paving the industrial exploitation of M*F-membranes. Authors are invited to submit their new findings; all research papers and reviews are welcome.

We are looking forward to Prof. Randy Larsen talk at SE-MAT international meeting August 2021
Website: https://lnkd.in/guTp-Zq
LinkedIn: https://lnkd.in/dP3aBVP
Facebook: https://lnkd.in/dddC76Z
Twitter: https://lnkd.in/d3T7MK5

Title: Modulating Guest Photophysics in Metal Organic Frameworks

Abstract:
Metal organic framework (M*F) materials are attractive candidates for the development of solar energy applications due to the modularity of design, high porosity, and relative ease of functionalization of these materials. The encapsulation of photoactive guests into porous M*Fs is a particularly attractive strategy for the development of photosensitive M*Fs since a wide array of light sensitive catalysts have been developed that can be encapsulated within the associated M*F cavities. Transition metal complexes, including metalloporphyrins and transition metal polyimines, are of specific interest in the development of light harvesting systems as these systems display electronic transitions across a wide span of energy (spanning the solar spectrum), are generally structurally robust, exhibit significant photostability and can be readily functionalized to impart specific photophysics/redox properties. A variety of transition metal complexes have now been encapsulated as guests with M*Fs and these systems display pronounced perturbations in the guest photophysics. Here, the effects of encapsulation (confinement) on the photohysics of both Ru(II) polyimine and Zn(II) porphyrin complexes will be presented with an emphasis on the role of both non-covalent interactions between the guest and the framework as well as guest structural perturbations in both the ground and excited states. Understanding the complex interplay between guest photophysics and the framework cavity properties are important for the development of new light harvesting applications in M*Fs.

SE-Mat Smartly Engineered Materials, LLC
University of South Florida
USF Department of Chemistry
USF College of Engineering
UC San Diego
Drexel University
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
KAUST Official
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
University of Pittsburgh - Department of Chemistry
RTI International





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We are looking forward to Prof. Randy Larsen talk at SE-MAT international meeting August 2021
Website: https://www.se-mat.com/events-and-news
LinkedIn: https://www.linkedin.com/company/se-mat-smartly-engineered-materials-llc
Twitter: https://twitter.com/SeSmartly

Title: Modulating Guest Photophysics in Metal Organic Frameworks

Abstract:
Metal organic framework (M*F) materials are attractive candidates for the development of solar energy applications due to the modularity of design, high porosity, and relative ease of functionalization of these materials. The encapsulation of photoactive guests into porous M*Fs is a particularly attractive strategy for the development of photosensitive M*Fs since a wide array of light sensitive catalysts have been developed that can be encapsulated within the associated M*F cavities. Transition metal complexes, including metalloporphyrins and transition metal polyimines, are of specific interest in the development of light harvesting systems as these systems display electronic transitions across a wide span of energy (spanning the solar spectrum), are generally structurally robust, exhibit significant photostability and can be readily functionalized to impart specific photophysics/redox properties. A variety of transition metal complexes have now been encapsulated as guests with M*Fs and these systems display pronounced perturbations in the guest photophysics. Here, the effects of encapsulation (confinement) on the photohysics of both Ru(II) polyimine and Zn(II) porphyrin complexes will be presented with an emphasis on the role of both non-covalent interactions between the guest and the framework as well as guest structural perturbations in both the ground and excited states. Understanding the complex interplay between guest photophysics and the framework cavity properties are important for the development of new light harvesting applications in M*Fs.

SE-Mat Smartly Engineered Materials, LLC
University of South Florida
USF Department of Chemistry
USF College of Engineering
UC San Diego
Drexel University
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
KAUST Official
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
University of Pittsburgh - Department of Chemistry
RTI International





*Fs

We are looking forward to our collaborator Prof. Brian Space talk at SE-MAT international meeting August 2021
Website: https://lnkd.in/guTp-Zq
LinkedIn: https://lnkd.in/dP3aBVP
Facebook: https://lnkd.in/dddC76Z
Twitter: https://lnkd.in/d3T7MK5

Title: Better Porous Materials via Superior Simulation
Abstract:
An overview of the ongoing efforts in the Space group to develop and apply molecular
simulation machinery to pressing problems in porous materials will be presented. Over the
past two decades the Space group has developed the algorithms, codes and force fields to
model porous materials with both predictive and explanatory fidelity. These products have
been produced to fully exploit the capabilities and developments in modern computation and
include a world class Monte Carlo code that also has a full suite of potential energy
development tools. Indeed, with our experimental partners our efforts have demonstrated
the role of many body polarization and the dominance of dispersion interactions at short and intermediate molecular distances in a series of papers with leading experimental groups around the world. These efforts have recently culminated in the development of a new force field and associated development paradigm with unprecedented transferability and accuracy and the Space group approach to this problem will be reviewed. Applications to model problems in porous materials and recent efforts at modeling methane sorption for vehicular transport applications in flexible porous solids will be presented.

We are looking forward to our collaborator Prof. Brian Space talk at SE-MAT international meeting August 2021
Website: https://lnkd.in/guTp-Zq
LinkedIn: https://lnkd.in/dP3aBVP
Facebook: https://lnkd.in/dddC76Z
Twitter: https://lnkd.in/d3T7MK5

Title: Better Porous Materials via Superior Simulation
Abstract:
An overview of the ongoing efforts in the Space group to develop and apply molecular
simulation machinery to pressing problems in porous materials will be presented. Over the
past two decades the Space group has developed the algorithms, codes and force fields to
model porous materials with both predictive and explanatory fidelity. These products have
been produced to fully exploit the capabilities and developments in modern computation and
include a world class Monte Carlo code that also has a full suite of potential energy
development tools. Indeed, with our experimental partners our efforts have demonstrated
the role of many body polarization and the dominance of dispersion interactions at short and
intermediate molecular distances in a series of papers with leading experimental groups
around the world. These efforts have recently culminated in the development of a new force
field and associated development paradigm with unprecedented transferability and accuracy
and the Space group approach to this problem will be reviewed. Applications to model
problems in porous materials and recent efforts at modeling methane sorption for vehicular
transport applications in flexible porous solids will be presented.
SE-Mat Smartly Engineered Materials, LLC
UC San Diego
Drexel University
University of South Florida
USF Department of Chemistry
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
KAUST Official
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
University of Pittsburgh - Department of Chemistry
RTI International



*Fs

We are looking forward to Prof. Shengqian Ma talk at SE-MAT international meeting 2021.
Website www.se-mat.com
LinkedIn: https://www.linkedin.com/company/se-mat-smartly-engineered-materials-llc
Twitter: https://twitter.com/SeSmartly
Title: Porous Organic Polymer-based Nanotraps for Water Purification
Abstract:
Porous organic polymers (POPs) both amorphous and crystalline represent an emerging class of nanoporous materials, and they feature robust covalent framework structures with high water and chemical stability. This, together with their high surface areas and tunable pore sizes, makes them hold promise for a variety of applications. We will demonstrate how POPs can be task-specific designed and functionalized as nanotraps via either de novo synthesis or stepwise post-synthetic modification for applications in water purification including heavy metal removal and nuclear waste treatment.

We are looking forward to Prof. Omar Farha talk at SE-MAT international meeting 2021.
Website https://www.se-mat.com/events-and-news
LinkedIn: https://www.linkedin.com/company/se-mat-smartly-engineered-materials-llc
Twitter: https://twitter.com/SeSmartly
Title: Smart and Programmable Sponges for protection From Bench to Market
Abstract: M*Fs are a class of porous, crystalline materials composed of metal-based nodes and organic ligands that self-assemble into multi-dimensional lattices. In contrast to conventional porous materials such as zeolites and activated carbon, an abundantly diverse set of molecular building blocks allows for the realization of M*Fs with a broad range of properties. We have developed an extensive understanding of how the physical architecture and chemical properties of M*Fs affect material performance in applications such as catalytic activity for chemical warfare agent detoxification. This talk will focus on metal–organic frameworks (M*Fs) for hydrolysis from solution-phase to solid-state reactivity. Moving M*Fs from bench to market within industrial sectors will be discussed as well.
USF CONNECT
University of South Florida
USF Department of Chemistry
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
Drexel University
KAUST Official
KAUST Solar Center
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
UC San Diego
University of Pittsburgh - Department of Chemistry
RTI International

We are looking forward to Prof. Mircea Dincă talk at SE-MAT international meeting 2021.
Website: https://www.se-mat.com/events-and-news
LinkedIn: https://www.linkedin.com/company/se-mat-smartly-engineered-materials-llc
Twitter: https://twitter.com/SeSmartly
Title: Understanding Charge Transport in Electrically Conductive 2D M*Fs

Abstract:

The emergence of electrically conductive metal-organic frameworks (M*Fs) has been one of the most paradoxical developments in the field in the last few years. Indeed, how can one transport charges through a material that is “mostly” empty space? In this sense, M*Fs made from layers of organic ligands connected by (typically) square-planar metal ions have shown particularly good electrical conductivity. However, a precise mechanism for charge transport is still the subject of debate, with various experimental and computational reports describing these materials as metals, semiconductors, semimetals, or even borderline insulators. Most of the discussion on this point has been focused on the effects of in-plane metal-ligand conjugation and the efficiency of in-plane transport. This lecture will describe the latest efforts from our group to understand the intrinsic properties of these materials, especially as related to single-crystal electrical measurement studies, and will discuss in particular the unexpectedly large influence of out-of-plane transport.
USF CONNECT
University of South Florida
USF Department of Chemistry
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
Drexel University
KAUST Official
KAUST Solar Center
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
UC San Diego
University of Pittsburgh
RTI International
University of Pittsburgh - Department of Chemistry

We are looking forward to Prof. Silvana Andreescu talk at SE-MAT international meeting 2021.
Website: https://www.se-mat.com/events-and-news
LinkedIn: https://www.linkedin.com/company/se-mat-smartly-engineered-materials-llc
Twitter: https://twitter.com/SeSmartly
Title: Nanostructured materials for field deployable biosensors
Abstract: The need for field portable devices that could respond to the today’s requirements for low cost and rapid detection with on-site measurement capabilities continues to grow. A key requirement in the development of these devices is to integrate materials with biological systems and create a suitable surface chemistry for the selective binding of target analytes. This presentation will discuss development, manufacturing, analytical characterization and deployment of portable biosensors that incorporate functional redox active nanomaterials integrated with biological receptors. The modified surface integrates biorecognition, signal amplification and detection capabilities and can function as an all-in-one device that can be used for environmental, clinical and food monitoring. The biosensors can be mass produced by printing which enables roll-to-roll manufacturing using a low cost, versatile and controllable process. Opportunities and challenges for translating this technology into practical applications will also be addressed.
USF CONNECT
University of South Florida
USF Department of Chemistry
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
Drexel University
KAUST Official
KAUST Solar Center
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
UC San Diego
University of Pittsburgh - Department of Chemistry
RTI International

We are looking forward to Prof. Yury Gogotsi talk at SE-MAT international meeting 2021.
Website: https://www.se-mat.com/events-and-news
LinkedIn: https://www.linkedin.com/company/se-mat-smartly-engineered-materials-llc
Twitter: https://twitter.com/SeSmartly

Title: Two-Dimensional Carbides and Nitrides (MXenes) for Energy Storage

Abstract:
2D carbides and nitrides, known as MXenes, are among the most recent, but quickly expanding material families. The field is experiencing very fast growth with the number of papers on MXenes doubling every year with about 850 journal papers in 2019 and the same number in the first 6 months of 2020. Major breakthroughs have been achieved in the past 2-3 years, including the discovery of 2D M5C4 carbides with the twinned layers and CVD synthesis of MoSi2N4, representing a new family of 2D nitrides. Synthesis of dozens of predicted MXenes, demonstration of superconductivity in MXenes with specific surface terminations, stronger interactions with electromagnetic waves compared to metals, metallic conductivity combined with hydrophilicity and redox activity, led to numerous applications. MXenes are promising candidates for energy storage and related electrochemical applications, but applications in optoelectronics, plasmonics, electromagnetic interference shielding, electrocatalysis, medicine, sensors, or water purification are equally exciting. Reversible redox activity of transition metal atoms in the outer layers of MXene flakes combined with high electronic conductivity led to applications in a variety of batteries and electrochemical capacitors.

Drexel University
USF CONNECT
University of South Florida
USF Department of Chemistry
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
KAUST Official
KAUST Solar Center
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
UC San Diego
University of Pittsburgh - Department of Chemistry
RTI International


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We are looking forward to our collaborator and Keynote speaker Prof. Ju Li talk at SE-MAT international meeting 2021

Website: https://www.se-mat.com/events-and-news
LinkedIn: https://www.linkedin.com/company/se-mat-smartly-engineered-materials-llc
Twitter: https://twitter.com/SeSmartly

Title Opportunities and Challenges for Battery Energy Storage
Abstract:
The market price of Li-ion battery cells dropped by a factor of ~6× since 2010. This epic cost-down is on par with the development of solar photovoltaics and is the best news for Renewable Energies and Climate Grand Challenges in the last decade. With LIB cell cost at ~$90/kWh today, battery chemistries well validated in the electrical vehicles industry at 500GWh scale with cycle life up to 10,000 cycles are ready to “move the needle” in a big way. Grid-scale LIB offers one possible way to keep human beings on track in the near-term to meet the IPCC goal of halving global CO2 emission by 2040-2050, that demands Terawatts and 100s of TWh. However, there are still key technical challenges in fire safety and recycling. There were >20 fire accidents amongst ~500 battery energy storage stations in South Korea within 3 years. Better fire extinguishers, sensors, software, electrical systems, and safer electrolytes/electrodes are needed. In terms of recycling, waste LIB contains toxic chemicals and heavy metals. Currently, less than ~10% of LIBs are recycled. Without state-of-the-art recycling technologies, scaling up would be environmentally disastrous. Tremendous materials and chemical engineering work remain in order to fully close the loop in Li, Co/Ni, F, P, Cu. Further reducing the cost and integration with software are also essential. To scale up the current LIB industry by another factor of 100×-1000× is a civilization-scale endeavor. It must be done “Right”.
Ju Li has held faculty positions at the Ohio State University, the University of Pennsylvania, and is presently a chaired professor at MIT. His group (http://Li.mit.edu) works on energy materials and systems. Ju is a recipient of the 2005 Presidential Early Career Award for Scientists and Engineers, the 2006 Materials Research Society Outstanding Young Investigator Award, and the TR35 award from Technological Review. Ju was elected Fellow of the American Physical Society in 2014, a Fellow of the Materials Research Society in 2017 and a Fellow of AAAS in 2020. In 2016 Ju Li co-founded one of the MIT Energy Initiative (MITEI) Low-Carbon Energy Centers, the Center for Materials in Energy and Extreme Environments (CME). Li is the chief organizer of MIT A+B Applied Energy Symposia that aim to develop solutions to global climate change challenges with "A-Action before 2040" and "B-Beyond 2040 technologies ( http://li.mit.edu/ab/20 http://li.mit.edu/ab/19 )

UC San Diego
Drexel University
USF CONNECT
University of South Florida
USF Department of Chemistry
Clarkson University Graduate School
Massachusetts Institute of Technology (MIT)
NC State University
KAUST Official
KAUST Solar Center
Pacific Northwest National Laboratory
USF Chemical and Biomedical Engineering
University of North Texas
University of Pittsburgh - Department of Chemistry
RTI International



*Fs