Mohamad S Kodaimati
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Explore the profile of Mohamad S Kodaimati including associated specialties, affiliations and a list of published articles.
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12
Citations
168
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Recent Articles
1.
Park J, Kodaimati M, Belding L, Root S, Schatz G, Whitesides G
ACS Nano
. 2022 Mar;
16(3):4206-4216.
PMID: 35230085
The problem this paper addresses is the origin of the hysteretic behavior in two-terminal molecular junctions made from an EGaIn electrode and self-assembled monolayers of alkanethiolates terminated in chelates (transition...
2.
Yang M, Xiong Q, Kodaimati M, Jiang X, Schweitzer N, Schatz G, et al.
J Phys Chem Lett
. 2021 Dec;
12(50):12135-12141.
PMID: 34913699
This paper describes a photocatalytic hydrogen evolution system that is dynamically and reversibly responsive to the pH of the surrounding solution through the actuation of a microhydrogel (microgel) matrix that...
3.
Gao R, Kodaimati M, Yan D
Chem Soc Rev
. 2021 Mar;
50(9):5564-5589.
PMID: 33690765
Molecular persistently luminescent materials have received recent attention due to their promising applications in optical displays, biological imaging, chemical sensing, and security systems. In this review, we systematically summarize recent...
4.
Garci A, Beldjoudi Y, Kodaimati M, Hornick J, Nguyen M, Cetin M, et al.
J Am Chem Soc
. 2020 Apr;
142(17):7956-7967.
PMID: 32233402
Collisional intermolecular interactions between excited states form short-lived dimers and complexes that lead to the emergence of excimer/exciplex emission of lower energy, a phenomenon which must be differentiated from the...
5.
Jiang Y, Wang C, Rogers C, Kodaimati M, Weiss E
Nat Chem
. 2019 Oct;
11(11):1034-1040.
PMID: 31654049
Light-driven [2+2] cycloaddition is the most direct strategy to build tetrasubstituted cyclobutanes, core components of many lead compounds for drug development. Significant advances in the chemoselectivity and enantioselectivity of [2+2]...
6.
Wang C, Kodaimati M, Lian S, Weiss E
Faraday Discuss
. 2019 Apr;
216(0):162-173.
PMID: 31012448
Lead chalcogenide quantum dots (QDs) are promising acceptors for photovoltaic devices that harness the singlet fission (SF) mechanism. The rate of singlet fission of polyacenes in the presence of QDs...
7.
Kodaimati M, Lian S, Schatz G, Weiss E
Proc Natl Acad Sci U S A
. 2018 Aug;
115(33):8290-8295.
PMID: 30068607
Excitonic energy transfer (EnT) is the mechanism by which natural photosynthetic systems funnel energy from hundreds of antenna pigments to a single reaction center, which allows multielectron redox reactions to...
8.
Kodaimati M, McClelland K, He C, Lian S, Jiang Y, Zhang Z, et al.
Inorg Chem
. 2018 Mar;
57(7):3659-3670.
PMID: 29561594
Colloidal semiconductor nanocrystals, or "quantum dots" (QDs), have several optical and chemical properties that give them the potential to enable nonincremental increases in the efficiencies of many types of photocatalytic...
9.
Lian S, Kodaimati M, Weiss E
ACS Nano
. 2018 Jan;
12(1):568-575.
PMID: 29298382
This paper describes the use of electrostatic assemblies of negatively charged colloidal CuInS/ZnS quantum dot (QD) sensitizers and positively charged, trimethylamino-functionalized iron tetraphenylporphyrin catalysts (FeTMA) to photoreduce CO to CO...
10.
Lian S, Kodaimati M, Dolzhnikov D, Calzada R, Weiss E
J Am Chem Soc
. 2017 Jun;
139(26):8931-8938.
PMID: 28608682
Photosensitization of molecular catalysts to reduce CO to CO is a sustainable route to storable solar fuels. Crucial to the sensitization process is highly efficient transfer of redox equivalents from...