Search

Your search keyword '"Schmidt, T W"' showing total 18 results
Start Over "Schmidt, T W" Publication Year Range This year
18 results on '"Schmidt, T W"'

1. A framework for multiexcitonic logic.

Author

Hudson RJ, MacDonald TSC, Cole JH, Schmidt TW, Smith TA, and McCamey DR

Abstract

Exciton science sits at the intersection of chemical, optical and spin-based implementations of information processing, but using excitons to conduct logical operations remains relatively unexplored. Excitons encoding information could be read optically (photoexcitation-photoemission) or electrically (charge recombination-separation), travel through materials via exciton energy transfer, and interact with one another in stimuli-responsive molecular excitonic devices. Excitonic logic offers the potential to mediate electrical, optical and chemical information. Additionally, high-spin triplet and quintet (multi)excitons offer access to well defined spin states of relevance to magnetic field effects, classical spintronics and spin-based quantum information science. In this Roadmap, we propose a framework for developing excitonic computing based on singlet fission (SF) and triplet-triplet annihilation (TTA). Various molecular components capable of modulating SF/TTA for logical operations are suggested, including molecular photo-switching and multi-colour photoexcitation. We then outline a pathway for constructing excitonic logic devices, considering aspects of circuit assembly, logical operation synchronization, and exciton transport and amplification. Promising future directions and challenges are identified, and the potential for realizing excitonic computing in the near future is discussed., (© 2024. Springer Nature Limited.)

Published
2024
Full Text
View/download PDF

3. Photoswitchable Spiropyridine Enabled Photoactuation of Polymeric Hydrogels under Physiological pH Conditions.

Author

Liao, Cong, Du, Meng-Qi, and Li, Chuang

Subjects
MOLECULAR switches, VISIBLE spectra, HYDROGELS, THIN films, SWITCHING systems (Telecommunication), POLYMER networks
Abstract

The incorporation of molecular switches into polymer networks has been a powerful approach for the development of functional polymer materials that display macroscopic actuation and function enabled directly by molecular changes. However, such materials sometimes require harsh conditions to perform their functions, and the design of new molecular photoswitches that can function under physiological conditions is highly needed. Here, we report the design and synthesis of a spiropyridine-based photoswitchable hydrogel that exhibits light-driven actuation at physiological pH. Owing to its high pKa, spiropyridine maintains its ring-open protonated form at neutral pH, and the resulting hydrogel remains in a swollen state. Upon irradiation with visible light, the ring closure of spiropyridine leads to a decrease in the charge and a reduction in the volume of the hydrogel. The contracted gel could spontaneously recover to its expanding state in the dark, and this process is highly dynamic and reversible when the light is switched on and off. Furthermore, the hydrogel shows switchable fluorescence in response to visible light. Bending deformation is observed in the hydrogel thin films upon irradiation from one side. Importantly, the independence of this spiropyridine hydrogel from the acidic environment makes it biotolerant and shows excellent biocompatibility. This biocompatible spiropyridine hydrogel might have important biorelated applications in the future. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

4. Reduced seagrass resilience due to environmental and anthropogenic effects may lead to future die-off events in Florida Bay.

Author

de Fouw, Jimmy, Madden, Christopher J., Furman, Bradley T., Hall, Margaret O., Verstijnen, Yvon, Holthuijsen, Sander, Frankovich, Thomas A., Strazisar, Theresa, Blaha, Michelle, and Van Der Heide, Tjisse

Subjects
BIOCHEMICAL oxygen demand, SEAGRASSES, WATER temperature, CLIMATE change, ORGANIC compounds, ANOXIC zones
Abstract

Coastal systems often depend on foundation species such as seagrasses that are supported by self-facilitation. Seagrass meadows, however, are threatened worldwide due to climate change and local human impact, disrupting self-facilitation leading to system instability. Florida Bay is a large seagrass dominated coastal ecosystem that suffered from multiple seagrass mortality events over the last half century driven by hypoxia, high water temperatures, hypersalinity, and high biological oxygen demand. These conditions reduce the amount of photosynthetically-derived oxygen in the plant causing sulphide intrusion into meristematic tissues. Using a bay-wide sampling design and long-term monitoring trends of seagrass condition, we investigated the current state of the meadows, sediment characteristics (e.g., organic matter, sulphide, nutrients) and discuss how climate stressors interact with plant and sediment oxygen dynamics. Our survey revealed that at sites where seagrass had been previously denuded by die-off, the dominant seagrass Thalassia testudinum had not recovered, while the pioneering seagrass Halodule wrightii recolonized the impacted areas. Organic matter and sulphide levels were higher at the impacted sites, apparently a persistent characteristic of the formerly dense T. testudinum meadows in central and western Florida Bay. These sediment conditions promote sulphide intrusion of T. testudinum belowground tissue under anoxic conditions. Plant oxidation initially buffers sulphide intrusion, but disruption of this oxidation mechanism due to changing environmental conditions results in widespread mortality and seagrass community collapse. Climate change cannot be fully mitigated by local management, however, attempts can be made to control critical salinity and oxygen levels by increasing freshwater input, reducing hypersalinity and aiming to keep the internal seagrass oxidation feedback intact. Our study shows that the Florida Bay seagrass ecosystem is still recovering four years post die-off and continues to be susceptible to future climate change and system degradation. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

5. The Role of Intraligand Charge Transfer Processes in Iridium(III) Complexes with Morpholine-Decorated 4 ′ -Phenyl-2,2′ :6′ ,2′′-terpyridine.

Author

Palion-Gazda, Joanna, Kwiecień, Aleksandra, Choroba, Katarzyna, Penkala, Mateusz, Kryczka, Anna, and Machura, Barbara

Abstract

To investigate the impact of the electron-donating morpholinyl (morph) group on the ground- and excited-state properties of two different types of Ir(III) complexes, [IrCl3(R-C6H4-terpy-κ3N)] and [Ir(R-C6H4-terpy-κ3N)2](PF6)3, the compounds [IrCl3(morph-C6H4-terpy-κ3N)] (1A), 4[Ir(morph-C6H4-terpy-κ3N)2](PF6)3 (2A), [IrCl3(Ph-terpy-κ3N)] (1B) and [Ir(Ph-terpy-κ3N)2](PF6)3 (2B) were obtained. Their photophysical properties were comprehensively investigated with the aid of static and time-resolved spectroscopic methods accompanied by theoretical DFT/TD-DFT calculations. In the case of bis-terpyridyl iridium(III) complexes, the attachment of the morpholinyl group induced dramatic changes in the absorption and emission characteristics, manifested by the appearance of a new, very strong visible absorption tailing up to 600 nm, and a significant bathochromic shift in the emission of 2A relative to the model chromophore. The emission features of 2A and 2B were found to originate from the triplet excited states of different natures: intraligand charge transfer (3ILCT) for 2A and intraligand with a small admixture of metal-to-ligand charge transfer (3IL-3MLCT) for 2B. The optical properties of the mono-terpyridyl iridium(III) complexes were less significantly impacted by the morpholinyl substituent. Based on UV-Vis absorption spectra, emission wavelengths and lifetimes in different environments, transient absorption studies, and theoretical calculations, it was demonstrated that the visible absorption and emission features of 1A are governed by singlet and triplet excited states of a mixed MLLCT-ILCT nature, with a dominant contribution of the first component, that is, metal-ligand-to-ligand charge transfer (MLLCT). The involvement of ILCT transitions was reflected by an enhancement of the molar extinction coefficients of the absorption bands of 1A in the range of 350-550 nm, and a small red shift in its emission relative to the model chromophore. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

7. Calcium-sensing receptor regulates Kv7 channels via G i/o protein signalling and modulates excitability of human induced pluripotent stem cell-derived nociceptive-like neurons.

Author

Chuinsiri N, Siraboriphantakul N, Kendall L, Yarova P, Nile CJ, Song B, Obara I, Durham J, and Telezhkin V

Subjects
Humans, Animals, Mice, GTP-Binding Protein alpha Subunits, Gi-Go metabolism, Nociceptors metabolism, Cells, Cultured, HEK293 Cells, Receptors, Calcium-Sensing metabolism, Induced Pluripotent Stem Cells metabolism, Signal Transduction, Ganglia, Spinal metabolism, Ganglia, Spinal cytology
Abstract

Background and Purpose: Neuropathic pain, a debilitating condition with unmet medical needs, can be characterised as hyperexcitability of nociceptive neurons caused by dysfunction of ion channels. Voltage-gated potassium channels type 7 (Kv7), responsible for maintaining neuronal resting membrane potential and thus excitability, reside under tight control of G protein-coupled receptors (GPCRs). Calcium-sensing receptor (CaSR) is a GPCR that regulates the activity of numerous ion channels, but whether CaSR can control Kv7 channel function has been unexplored until now., Experimental Approach: Experiments were conducted in recombinant cell models, mouse dorsal root ganglia (DRG) neurons and human induced pluripotent stem cell (hiPSC)-derived nociceptive-like neurons using patch-clamp electrophysiology and molecular biology techniques., Key Results: Our results demonstrate that CaSR is expressed in recombinant cell models, hiPSC-derived nociceptive-like neurons and mouse DRG neurons, and its activation induced depolarisation via Kv7.2/7.3 channel inhibition. The CaSR-Kv7.2/7.3 channel crosslink was mediated via the G i/o protein-adenylate cyclase-cyclicAMP-protein kinase A signalling cascade. Suppression of CaSR function demonstrated a potential to rescue hiPSC-derived nociceptive-like neurons from algogenic cocktail-induced hyperexcitability., Conclusion and Implications: This study demonstrates that the CaSR-Kv7.2/7.3 channel crosslink, via a G i/o protein signalling pathway, effectively regulates neuronal excitability, providing a feasible pharmacological target for neuronal hyperexcitability management in neuropathic pain., (© 2024 The Authors. British Journal of Pharmacology published by John Wiley & Sons Ltd on behalf of British Pharmacological Society.)

Published
2024
Full Text
View/download PDF

8. Triplet-triplet annihilation photon upconversion-mediated photochemical reactions.

Author

Huang L and Han G

Abstract

Photon upconversion is a method for harnessing high-energy excited states from low-energy photons. Such photons, particularly in the red and near-infrared wavelength ranges, can penetrate tissue deeply and undergo less competitive absorption in coloured reaction media, enhancing the efficiency of large-scale reactions and in vivo phototherapy. Among various upconversion methodologies, the organic-based triplet-triplet annihilation upconversion (TTA-UC) stands out - demonstrating high upconversion efficiencies, requiring low excitation power densities and featuring tunable absorption and emission wavelengths. These factors contribute to improved photochemical reactions for fields such as photoredox catalysis, photoactivation, 3D printing and immunotherapy. In this Review, we explore concepts and design principles of organic TTA-UC-mediated photochemical reactions, highlighting notable advancements in the field, as well as identify challenges and propose potential solutions. This Review sheds light on the potential of organic TTA-UC to advance beyond the traditional photochemical reactions and paves the way for research in various fields and clinical applications., (© 2024. Springer Nature Limited.)

Published
2024
Full Text
View/download PDF

12. Functional Fluorescent Materials : Applications in Sensing, Bioimaging, and Optoelectronics

Author

Vivek Mishra, Syed Sibtay Razi, Ajit Kumar, Vivek Mishra, Syed Sibtay Razi, and Ajit Kumar

Subjects
Biotechnology, Fluorescent probes, Fluorescence spectroscopy
Abstract

Functional Fluorescent Materials: Applications in Sensing, Bioimaging, and Optoelectronics explains functional molecular probes (organic/inorganic materials, polymers, nanomaterials), with a focus on those that represent spectroscopic properties with detection of different analytes and specific roles in molecular recognition and their applications. It broadly covers molecular recognition to applications of fluorescence reporters, starting from optoelectronic properties of materials, detection of heavy metals, through biological macromolecules, and further to a living cell, tissue imaging, and theranostics.Features:• Covers different aspects of fluorescence spectroscopy ranging from chemical, physical, and biological aspects along with optoelectronic properties, mechanisms, and applications. • Describes all types of chemical and functionalized fluorescent nanomaterials. • Provides additional information on different kinds of fluorescence reporters.• Explains the concept of fluorescence spectroscopy and its role in human health care. • Discusses changes in static and dynamic properties of fluorescent probes and molecular recognitions.This book is aimed at graduate students and researchers in materials, chemical engineering, and engineering physics.

Published
2024

13. Handbook of Semiconductors : Fundamentals to Emerging Applications

Author

Ram K. Gupta and Ram K. Gupta

Subjects
Semiconductors
Abstract

This book provides readers with state-of-the-art knowledge of established and emerging semiconducting materials, their processing, and the fabrication of chips and microprocessors. In addition to covering the fundamentals of these materials, it details the basics and workings of many semiconducting devices and their role in modern electronics and explores emerging semiconductors and their importance in future devices.• Provides readers with latest advances in semiconductors.• Covers diodes, transistors, and other devices using semiconducting materials.• Covers advances and challenges in semiconductors and their technological applications.• Discusses fundamentals and characteristics of emerging semiconductors for chip manufacturing.This book provides directions to scientists, engineers, and researchers in materials engineering and related disciplines to help them better understand the physics, characteristics, and applications of modern semiconductors.

Published
2024

14. Rigor and Reproducibility in Genetics and Genomics : Peer-reviewed, Published, Cited

Author

Douglas F. Dluzen, Monika Schmidt, Douglas F. Dluzen, and Monika Schmidt

Subjects
Reproducible research, Genetics--Research--Methodology, Genomics--Research--Methodology
Abstract

Rigor and Reproducibility in Genetics and Genomics: Peer-reviewed, Published, Cited provides a full methodological and statistical overview for researchers, clinicians, students, and post-doctoral fellows conducting genetic and genomic research. Here, active geneticists, clinicians, and bioinformaticists offer practical solutions for a variety of challenges associated with several modern approaches in genetics and genomics, including genotyping, gene expression analysis, epigenetic analysis, GWAS, EWAS, genomic sequencing, and gene editing. Emphasis is placed on rigor and reproducibility throughout, with each section containing laboratory case-studies and classroom activities covering step-by-step protocols, best practices, and common pitfalls. Specific genetic and genomic technologies discussed include microarray analysis, DNA-seq, RNA-seq, Chip-Seq, methyl-seq, CRISPR gene editing, and CRISPR-based genetic analysis. Training exercises, supporting data, and in-depth discussions of rigor, reproducibility, and ethics in research together deliver a solid foundation in research standards for the next generation of genetic and genomic scientists. - Provides practical approaches and step-by-step protocols to strengthen genetic and genomic research conducted in the laboratory or classroom - Presents illustrative case studies and training exercises, discussing common pitfalls and solutions for genotyping, gene expression analysis, epigenetic analysis, GWAS, genomic sequencing, and gene editing, among other genetic and genomic approaches - Examines best practices for microarray analysis, DNA-seq, RNA-seq, gene expression validation, Chip-Seq, methyl-seq, CRISPR gene editing, and CRISPR-based genetic analysis - Written to provide trainees and educators with highly applicable tools and strategies to learn or refine a method toward identifying meaningful results with high confidence in their reproducibility

Published
2024

15. Emerging Carbyne : Truly One-Dimensional Form of Carbon

Author

Yahachi Saito and Yahachi Saito

Subjects
Carbynes
Abstract

Molecular carbon chains have attracted much interest for more than 130 years, but the length of chains is limited to 44 atoms even by sophisticated chemical synthesis. Recently, the artificial synthesis of long linear carbon chains, “carbynes,” has revived, and their existence was firmly substantiated using the latest advanced analytical methods, such as high-resolution electron microscopy and Raman scattering spectroscopy. Until the 1980s, graphite and diamond were the well-known allotropic forms of elemental carbon, which were two-dimensional (2D) and 3D crystals, respectively. Carbyne is the ultimate 1D nanowire with atomic diameter and its synthesis has opened prospects for versatile properties of carbon materials. Carbyne is a 1D semiconductor with a direct transition energy gap and interesting properties such as extreme mechanical strength are expected from it. This book comprehensively reviews and describes the latest chemical and physical synthesis methods, theoretically predicted properties, and possible applications of carbyne.

Published
2024

16. Ante el cáncer, muévete : Cómo el ejercicio mejora tu salud durante y después del cáncer

Author

Soraya Casla and Soraya Casla

Abstract

Descubre los beneficios del ejercicio físico contra el cáncer. Si nos preguntan qué hábitos de vida son saludables, todos diremos: hacer ejercicio y comer bien. Sabemos que esos dos factores mejoran la salud y previenen numerosas enfermedades. Pero ¿sabemos qué impacto tiene la actividad física ante el cáncer? La realidad es que tanto la propia enfermedad como el tratamiento, por su impacto global, generan diferentes efectos secundarios que disminuyen la salud en las personas con cáncer. Efectos que, a largo plazo, pueden aumentar el riesgo de padecer otras enfermedades. En este libro, Soraya Casla nos acerca a los beneficios de la actividad física para prevenir estos efectos e incluso tratarlos y conseguir así una mayor calidad de vida. Ana Rosa Quintana ha dicho: «Nunca imaginé lo importante que ha sido el ejercicio en mi recuperación. Soraya Casla no solo es mi entrenadora. Es mi asesora».

Published
2024

17. A framework for multiexcitonic logic

Author

Hudson, RJ, Macdonald, TSC, Cole, JH, Schmidt, TW, Smith, TA, McCamey, DR, Hudson, RJ, Macdonald, TSC, Cole, JH, Schmidt, TW, Smith, TA, and McCamey, DR

Abstract

Exciton science sits at the intersection of chemical, optical and spin-based implementations of information processing, but using excitons to conduct logical operations remains relatively unexplored. Excitons encoding information could be read optically (photoexcitation-photoemission) or electrically (charge recombination-separation), travel through materials via exciton energy transfer, and interact with one another in stimuli-responsive molecular excitonic devices. Excitonic logic offers the potential to mediate electrical, optical and chemical information. Additionally, high-spin triplet and quintet (multi)excitons offer access to well defined spin states of relevance to magnetic field effects, classical spintronics and spin-based quantum information science. In this Roadmap, we propose a framework for developing excitonic computing based on singlet fission (SF) and triplet-triplet annihilation (TTA). Various molecular components capable of modulating SF/TTA for logical operations are suggested, including molecular photo-switching and multi-colour photoexcitation. We then outline a pathway for constructing excitonic logic devices, considering aspects of circuit assembly, logical operation synchronization, and exciton transport and amplification. Promising future directions and challenges are identified, and the potential for realizing excitonic computing in the near future is discussed.

Published
2024

18. Magnetic fields reveal signatures of triplet-pair multi-exciton photoluminescence in singlet fission

Author

Feng, J, Hosseinabadi, P, de Clercq, DM, Carwithen, BP, Nielsen, MP, Brett, MW, Prasad, SKK, Farahani, AAD, Li, HL, Sanders, SN, Beves, JE, Ekins-Daukes, NJ, Cole, JH, Thordarson, P, Huang, DM, Tayebjee, MJY, Schmidt, TW, Feng, J, Hosseinabadi, P, de Clercq, DM, Carwithen, BP, Nielsen, MP, Brett, MW, Prasad, SKK, Farahani, AAD, Li, HL, Sanders, SN, Beves, JE, Ekins-Daukes, NJ, Cole, JH, Thordarson, P, Huang, DM, Tayebjee, MJY, and Schmidt, TW

Abstract

The photophysical processes of singlet fission and triplet fusion have numerous emerging applications. They involve the separation of a photo-generated singlet exciton into two dark triplet excitons and the fusion of two dark triplet excitons into an emissive singlet exciton, respectively. The role of the excimer state and the nature of the triplet-pair state in these processes have been a matter of contention. Here we analyse the room temperature time-resolved emission of a neat liquid singlet fission chromophore and show that it exhibits three spectral components: two that correspond to the bright singlet and excimer states and a third component that becomes more prominent during triplet fusion. This spectrum is enhanced by magnetic fields, confirming its origins in the recombination of weakly coupled triplet pairs. It is thus attributed to a strongly coupled triplet pair state. These observations unite the view that there is an emissive intermediate in singlet fission and triplet fusion, distinct from the broad, unstructured excimer emission.

Published
2024

Catalog

Books, media, physical & digital resources
See catalog results