Your search keyword '"Graham, Kenneth"' showing total 144 results

1. Controlled Dedoping and Redoping of N‐Doped Poly(benzodifurandione) (n‐PBDF).

Author

Ke, Zhifan, Chaudhary, Jagrity, Flagg, Lucas Q., Baustert, Kyle N., Yusuf, Augustine O., Liu, Guangchao, You, Liyan, Graham, Kenneth R., DeLongchamp, Dean M., and Mei, Jianguo

Subjects

CONDUCTING polymers, CHARGE exchange, PRINTED electronics, ORGANIC electronics, THIN films, CONJUGATED polymers

Abstract

The doping levels of conjugated polymers significantly influence their conductivity, energetics, and optical properties. Recently, a highly conductive n‐doped polymer called poly (3,7‐dihydrobenzo[1,2‐b:4,5‐b′]difuran‐2,6‐dione) (poly(benzodifurandione), n‐PBDF) is discovered, opening new possibilities for n‐type conducting polymers in printed electronics and other fields. Controlling the doping level of n‐PBDF is of great interest due to its wide range of potential applications. Here controlled dedoping and redoping of n‐PBDF is reported and a mechanistic understating of such a process is provided. Dedoping occurs through electron transfer and proton capture, wherein the ionic dopants, tris(4‐bromophenyl)ammoniumyl hexachloroantimonate (Magic Blue), exhibit efficient proton capture ability and stronger interaction with n‐PBDF, resulting in high dedoping efficiency. Moreover, chemically dedoped PBDF can be redoped using various proton‐coupled electron transfer agents. By manipulating the doping levels of n‐PBDF thin films, ranging from highly doped to dedoped states, the system demonstrates controllable conductivity in five orders of magnitude, adjustable optical properties, and energetics. As a result, these characteristics demonstrate the potential applications of n‐PBDF in organic electrochemical transistors and thermoelectrics. [ABSTRACT FROM AUTHOR]

Published

2024

2. Combination of Counterion Size and Doping Concentration Determines the Electronic and Thermoelectric Properties of Semiconducting Polymers.

Author

Baustert, Kyle N., Bombile, Joel H., Rahman, Md Tawabur, Yusuf, Augustine O., Li, Ruipeng, Huckaba, Aron J., Risko, Chad, and Graham, Kenneth R.

Published

2024

3. Air‐Stable Perylene Diimide Trimer Material for N‐Type Organic Electrochemical Transistors.

Author

Nguyen‐Dang, Tung, Bao, Si Tong, Kaiyasuan, Chokchai, Li, Kunyu, Chae, Sangmin, Yi, Ahra, Joy, Syed, Harrison, Kelsey, Kim, Jae Young, Pallini, Francesca, Beverina, Luca, Graham, Kenneth R., Nuckolls, Colin, and Nguyen, Thuc‐Quyen

Published

2024

4. Highly Conductive n‐Type Polymer Fibers from the Wet‐Spinning of n‐Doped PBDF and Their Application in Thermoelectric Textiles.

Author

Sarabia‐Riquelme, Ruben, Noble, Leah E., Alarcon Espejo, Paula, Ke, Zhifan, Graham, Kenneth R., Mei, Jianguo, Paterson, Alexandra F., and Weisenberger, Matthew C.

Subjects

CONDUCTING polymers, BISMUTH telluride, DOPING agents (Chemistry), THERMOELECTRIC power, SEEBECK coefficient, YOUNG'S modulus, POLYMERS

Abstract

The field of electronic textiles currently lacks n‐type polymer fibers that can complement the more established p‐type polymer fibers. Here, a highly conductive n‐type polymer fiber is obtained via wet‐spinning of n‐doped poly(3,7‐dihydrobenzo[1,2‐b:4,5‐b']difuran‐2,6‐dione) (n‐PBDF). The electrical conductivity of the fibers increases from 1000 to 1600 S cm−1 with increased draw during processing and correlates well with Young's modulus. Wide‐angle X‐ray scattering reveals the existence of a bimodal orientation of the polymer chains, favoring parallel alignment to the fiber axis with increased draw. After 14 d in 80% humid air, fiber conductivity stabilizes maintaining 81% of the initial conductivity. Although the electrical conductivity drops slightly over time, the Seebeck coefficient increases, resulting in the highest thermoelectric power factor being measured at 91 µW m−1 K−2 for the most drawn fiber 14 d after its fabrication. A proof‐of‐concept two‐couple thermoelectric textile is crafted by embroidering bundles of n‐type PBDF fibers and p‐type PEDOT:PSS fibers. The device generates 2.40 nW at a 22 °C temperature gradient. This work represents the initial steps and a crucial advancement toward fabricating high‐performance n‐type polymer fibers that can complement their p‐type counterparts to close the existing performance gap. [ABSTRACT FROM AUTHOR]

Published

2024

5. Exciton Binding Energy in Organic Polymers: Experimental Considerations and Tuning Prospects.

Author

Kashani, Somayeh, Rech, Jeromy James, Liu, Tuo, Baustert, Kyle, Ghaffari, Abbas, Angunawela, Indunil, Xiong, Yuan, Dinku, Abay, You, Wei, Graham, Kenneth, and Ade, Harald

Subjects

BINDING energy, PHOTOELECTRON spectroscopy, ULTRAVIOLET spectroscopy, ORGANIC semiconductors, DIELECTRIC materials

Abstract

Discrepancies in reported values of exciton binding energy (Eb) for organic semiconductors (OSs) necessitate a comprehensive study. Traditionally, Eb is defined as the difference between the transport gap (Et) and the optical gap (Eopt). Here, the Eb values of PBnDT‐TAZ polymer variants are determined using two commonly employed methods: a combination of ultraviolet photoemission spectroscopy and low‐energy inverse photoemission spectroscopy (UPS‐LEIPS) and solid‐state cyclic voltammetry (CV). Eb values obtained by UPS‐LEIPS show low dispersion and no clear correlation with the polymer structure and thedielectric properties. In contrast, CV reveals a larger dispersion (200 meV‐1 eV) and an apparent qualitative Eb‐molecular structure correlation, as the lowest Eb values are observed for oligo‐ethylene glycol side chains. This discrepancy is discussed by examining the implications of the traditional definition of Eb. Additionally, the impact of both intrinsic and extrinsic factors contributing to the derived experimental values of Et is discussed. The differences in intrinsic and extrinsic factors highlight the context‐dependent nature of measurement when drawing global conclusions. Notably, the observed Eb trend derived from CV is not intrinsic to the pure materials but likely linked to electrolyte swelling and associated changes in dielectric environment, suggesting that high‐efficiency single‐material organic photovoltaics with low Eb may be possible via high dielectric materials. [ABSTRACT FROM AUTHOR]

Published

2024

6. New Chemical Dopant and Counterion Mechanism for Organic Electrochemical Transistors and Organic Mixed Ionic–Electronic Conductors.

Author

Le, Vianna N., Bombile, Joel H., Rupasinghe, Gehan S., Baustert, Kyle N., Li, Ruipeng, Maria, Iuliana P., Shahi, Maryam, Alarcon Espejo, Paula, McCulloch, Iain, Graham, Kenneth R., Risko, Chad, and Paterson, Alexandra F.

Subjects

CHARGE carrier mobility, DOPING agents (Chemistry), ELECTRON transport, CONJUGATED polymers, ORGANIC field-effect transistors, TRANSISTORS

Abstract

Organic mixed ionic–electronic conductors (OMIECs) have varied performance requirements across a diverse application space. Chemically doping the OMIEC can be a simple, low‐cost approach for adapting performance metrics. However, complex challenges, such as identifying new dopant materials and elucidating design rules, inhibit its realization. Here, these challenges are approached by introducing a new n‐dopant, tetrabutylammonium hydroxide (TBA‐OH), and identifying a new design consideration underpinning its success. TBA‐OH behaves as both a chemical n‐dopant and morphology additive in donor acceptor co‐polymer naphthodithiophene diimide‐based polymer, which serves as an electron transporting material in organic electrochemical transistors (OECTs). The combined effects enhance OECT transconductance, charge carrier mobility, and volumetric capacitance, representative of the key metrics underpinning all OMIEC applications. Additionally, when the TBA+ counterion adopts an "edge‐on" location relative to the polymer backbone, Coulombic interaction between the counterion and polaron is reduced, and polaron delocalization increases. This is the first time such mechanisms are identified in doped‐OECTs and doped‐OMIECs. The work herein therefore takes the first steps toward developing the design guidelines needed to realize chemical doping as a generic strategy for tailoring performance metrics in OECTs and OMIECs. [ABSTRACT FROM AUTHOR]

Published

2023

7. Probing transport energies and defect states in organic semiconductors using energy resolved electrochemical impedance spectroscopy.

Author

Shahi, Maryam, Atapattu, Harindi R., Baustert, Kyle N., Anthony, John E., Brill, Joseph W., Johnson, Stephen, and Graham, Kenneth R.

Subjects

ORGANIC semiconductors, IMPEDANCE spectroscopy, SEMICONDUCTOR defects, PHOTOELECTRON spectroscopy, IONIZATION energy, PHOTOTHERMAL spectroscopy, ENERGY policy

Abstract

Determining the relative energies of transport states in organic semiconductors is critical to understanding the properties of electronic devices and in designing device stacks. Futhermore, defect states are also highly important and can greatly impact material properties and device performance. Recently, energy‐resolved electrochemical impedance spectroscopy (ER‐EIS) is developed to probe both the ionization energy (IE) and electron affinity (EA) as well as sub‐bandgap defect states in organic semiconductors. Herein, ER‐EIS is compared to cyclic voltammetry (CV) and photoemission spectroscopies for extracting IE and EA values, and to photothermal deflection spectroscopy (PDS) for probing defect states in both polymer and molecular organic semiconductors. The results show that ER‐EIS determined IE and EA are in better agreement with photoemission spectroscopy measurements as compared to CV for both polymer and molecular materials. Furthermore, the defect states detected by ER‐EIS agree with sub‐bandgap features detected by PDS. Surprisingly, ER‐EIS measurements of regiorandom and regioregular poly(3‐hexylthiophene) (P3HT) show clear defect bands that occur at significantly different energies. In regioregular P3HT the defect band is near the edge of the occupied states while it is near the edge of the unoccupied states in regiorandom P3HT. [ABSTRACT FROM AUTHOR]

Published

2023

8. Tailoring Molecular‐Scale Contact at the Perovskite/Polymeric Hole‐Transporting Material Interface for Efficient Solar Cells.

Author

Sun, Jiaonan, Ma, Ke, Lin, Zih‐Yu, Tang, Yuanhao, Varadharajan, Dharini, Chen, Alexander X., Atapattu, Harindi R., Lee, Yoon Ho, Chen, Ke, Boudouris, Bryan W., Graham, Kenneth R., Lipomi, Darren J., Mei, Jianguo, Savoie, Brett M., and Dou, Letian

Published

2023

9. Poetic Priesthood in the Seventeenth Century: Reformed Ministry and Radical Verse.

Author

Graham, Kenneth J. E.

Published

2024

10. Thermally Activated Aromatic Ionic Dopants (TA‐AIDs) Enabling Stable Doping, Orthogonal Processing and Direct Patterning.

Author

Ke, Zhifan, Ahmed, Mustafa H., Abtahi, Ashkan, Hsu, Shih‐Hsin, Wu, Wenting, Espenship, Michael F., Baustert, Kyle N., Graham, Kenneth R., Laskin, Julia, Pan, Liang, and Mei, Jianguo

Subjects

ORGANIC electronics, DOPING in sports, DOPING agents (Chemistry), POLYMERS, IMMISCIBILITY, ANIONS, POLARONS

Abstract

Doping plays a critical role in organic electronics, and dopant design has been central in the development of functional and stable doping. In this study, there is departure from conventional molecular dopants and a new class of dopants are reported – aromatic ionic dopants (AIDs). AIDs consist of a pair of aromatic cation and anion that are responsible for molecular doping reaction and charge balancing separately. It is shown that the first AID made from cycloheptatrienyl (tropylium) cation and pentacyanocyclopentadienide anion (PCCp), abbreviated as T‐PCCp, can function as an effective p‐type dopant to dope polydioxythiophenes. Here, tropylium cation induces the doping reaction while the PCCp anion stabilizes the generated polarons and bipolarons. With T‐PCCp, a highly doped (≈120 S/cm) and stable system is achieved up to 150 °C, an orthogonal (sequential)solution processing resulting from the immiscibility of the dopant and the polymer host, and a high‐resolution direct micropatterning with laser writing resulted from a thermally activated doping process. [ABSTRACT FROM AUTHOR]

Published

2023

11. Partial body cryotherapy exposure drives acute redistribution of circulating lymphocytes: preliminary findings.

Author

Rose, Catriona L., McGuire, Helen, Graham, Kenneth, Siegler, Jason, de St Groth, Barbara Fazekas, Caillaud, Corinne, and Edwards, Kate M.

Subjects

MONONUCLEAR leukocytes, KILLER cells, LYMPHOCYTES, COLD therapy, T cells

Abstract

Partial body cryotherapy (PBC) is proposed to alleviate symptoms of exercise-induced muscle damage (EIMD) by reducing associated inflammation. No studies have assessed acute PBC exposure on peripheral blood mononuclear cell mobilisation or compared these with cold water immersion (CWI), which may inform how PBC impacts inflammatory processes. This trial examined the impact of a single PBC exposure on circulating peripheral blood mononuclear cells compared to CWI or a control. 26 males were randomised into either PBC (3 min at − 110 to − 140 °C), CWI (3 min at 9 °C), or control (3 min at 24 °C), with blood samples, heart rate, and blood pressure taken before and after exposure. Cytometric analysis determined that CD8+ T-cell populations were significantly elevated after treatments, with PBC increasing CD8+ T cells to a greater degree than either CWI or CON. Natural killer cell counts were also elevated after PBC, with the increase attributed specifically to the CD56loCD16+ cytotoxic subset. This provides the first evidence for the effect of PBC exposure on redistribution of immune cells. An increase in circulating leukocyte subsets such as CD8+ T cells and CD56loCD16+ natural killer cells suggests that PBC may induce a transient mobilisation of lymphocytes. PBC may thus enable a more efficient trafficking of these cells from the circulation to the site of initial cellular insult from exercise, potentially accelerating the process of cellular recovery. This provides novel evidence on the use of PBC as a recovery treatment and may also have applicability in other clinical settings involving the recovery of damaged skeletal muscle. [ABSTRACT FROM AUTHOR]

Published

2023

12. Suppressing phase disproportionation in quasi-2D perovskite light-emitting diodes.

Author

Wang, Kang, Lin, Zih-Yu, Zhang, Zihan, Jin, Linrui, Ma, Ke, Coffey, Aidan H., Atapattu, Harindi R., Gao, Yao, Park, Jee Yung, Wei, Zitang, Finkenauer, Blake P., Zhu, Chenhui, Meng, Xiangeng, Chowdhury, Sarah N., Chen, Zhaoyang, Terlier, Tanguy, Do, Thi-Hoai, Yao, Yan, Graham, Kenneth R., and Boltasseva, Alexandra

Subjects

LIGHT emitting diodes, PEROVSKITE, CRYSTALLIZATION kinetics, QUANTUM efficiency

Abstract

Electroluminescence efficiencies and stabilities of quasi-two-dimensional halide perovskites are restricted by the formation of multiple-quantum-well structures with broad and uncontrollable phase distributions. Here, we report a ligand design strategy to substantially suppress diffusion-limited phase disproportionation, thereby enabling better phase control. We demonstrate that extending the π-conjugation length and increasing the cross-sectional area of the ligand enables perovskite thin films with dramatically suppressed ion transport, narrowed phase distributions, reduced defect densities, and enhanced radiative recombination efficiencies. Consequently, we achieved efficient and stable deep-red light-emitting diodes with a peak external quantum efficiency of 26.3% (average 22.9% among 70 devices and cross-checked) and a half-life of ~220 and 2.8 h under a constant current density of 0.1 and 12 mA/cm2, respectively. Our devices also exhibit wide wavelength tunability and improved spectral and phase stability compared with existing perovskite light-emitting diodes. These discoveries provide critical insights into the molecular design and crystallization kinetics of low-dimensional perovskite semiconductors for light-emitting devices. Quasi-2D halide perovskites are attracting increasing attention for light-emitting devices. Here, the authors demonstrated efficient and stable quasi-2D perovskite LEDs enabled by suppressed phase disproportionation with newly designed organic ligands. [ABSTRACT FROM AUTHOR]

Published

2023

13. Prediction of long-term polysorbate degradation according to short-term degradation kinetics.

Author

Zhang, Sisi, Riccardi, Caterina, Carlson, Dane, Kamen, Douglas, Graham, Kenneth S., Shameem, Mohammed, Bak, Hanne, Xiao, Hui, and Li, Ning

Published

2023

14. Creativity among ICT professionals and students in Thailand.

Author

Winley, Graham Kenneth and Wongwuttiwat, Jittima

Subjects

CREATIVE ability, DEVELOPING countries, INFORMATION & communication technologies, BACHELOR'S degree

Abstract

Creativity and innovation related to Information and Communication Technology (ICT) leads to improved competitiveness among individuals, organizations, and nations. In the context of the cultural profile of the developing nation of Thailand, this exploratory study examines the practical problem of improving creativity among ICT professionals and students. The study compares the importance of creativity perceived by ICT lecturers and managers and the extent to which ICT students and officers believe that they display creativity. The purpose is to align perceptions about creativity among these groups in order to promote creativity in ICT. Creativity is characterized by traits derived from studies in neuroscience and this study contributes to the validation of this relatively new approach. Data is collected by questionnaire from: 182 students distributed across the 4 years of ICT bachelor degree programs in three universities in Bangkok and 126 lecturers in these programs; 190 ICT managers and 210 ICT officers from 60 organizations in Bangkok. The findings identify: differences (gaps) among the groups' perceptions of creativity; and possible influences due to cultural characteristics of Thai society. The number of gaps is greatest between lecturers and managers followed by lecturers and students and managers and officers. The gaps are noticeable between males and females but less evident in relation to levels of education and ICT experience. The findings provide practical insights relevant to ICT academics, educators, practicing ICT professionals, and those concerned with the relationships among creativity, innovation, and competitiveness at organizational or national levels, especially in developing nations. [ABSTRACT FROM AUTHOR]

Published

2022

15. King Lear and Blessing.

Author

Graham, Kenneth J E

Subjects

PLAYWRITING, BLESSING & cursing, BIBLE stories

Abstract

The article focusses on blesses and blessings in William Shakespeare's tragedy "King Lear" and the effect of reformation in his playwriting. Topics include the reformation changes in the way that the language of blessing are used; the trend of using prominent religious word in the play; and literary analysis of biblical story of Jacob and Esau and their competition for parental blessing in the play.

Published

2022

16. How additives for tin halide perovskites influence the Sn4+ concentration.

Author

Joy, Syed, Atapattu, Harindi R., Sorensen, Stephanie, Pruett, Henry, Olivelli, Alexander B., Huckaba, Aron J., Miller, Anne-Frances, and Graham, Kenneth R.

Abstract

Tin halide perovskite (Sn-HPs) photovoltaics could potentially equal or exceed the performance of their more toxic Pb-based analogues if defect state densities, particularly originating from the presence of Sn4+, can be significantly decreased. Numerous additives are incorporated into Sn-HPs to minimize the amount of Sn4+, including SnF2, reducing agents such as hydrazine derivatives, and various antioxidants. Despite the frequent use of additives to reduce Sn4+ content, there is limited understanding of how they function and consequently limited guidance for the development of new additives. Herein, we use cyclic voltammetry to probe the redox behavior of SnI2, SnI4, Sn-HP precursor solutions, and 18 different additives. Through 119Sn NMR measurements we show that hydrochloride containing additives undergo halide exchange with SnI4 to form SnIxCly, which results in decreased Sn4+ concentrations and less p-type character in the Sn-HP films. We find that the most effective additive at lowering the Sn4+ content in FASnI3 is not capable of reducing SnI4 or forming SnIxCly, but rather it acts as a sacrificial and coordinating antioxidant. In general, when selecting additives for Sn-HPs it is important to account for the redox potential, coordination with Sn species, ability to react with oxygen, and the potential for halide exchange. [ABSTRACT FROM AUTHOR]

Published

2022

17. All-perovskite tandem solar cells with improved grain surface passivation.

Author

Lin, Renxing, Xu, Jian, Wei, Mingyang, Wang, Yurui, Qin, Zhengyuan, Liu, Zhou, Wu, Jinlong, Xiao, Ke, Chen, Bin, Park, So Min, Chen, Gang, Atapattu, Harindi R., Graham, Kenneth R., Xu, Jun, Zhu, Jia, Li, Ludong, Zhang, Chunfeng, Sargent, Edward H., and Tan, Hairen

Abstract

All-perovskite tandem solar cells hold the promise of surpassing the efficiency limits of single-junction solar cells1–3; however, until now, the best-performing all-perovskite tandem solar cells have exhibited lower certified efficiency than have single-junction perovskite solar cells4,5. A thick mixed Pb–Sn narrow-bandgap subcell is needed to achieve high photocurrent density in tandem solar cells6, yet this is challenging owing to the short carrier diffusion length within Pb–Sn perovskites. Here we develop ammonium-cation-passivated Pb–Sn perovskites with long diffusion lengths, enabling subcells that have an absorber thickness of approximately 1.2 μm. Molecular dynamics simulations indicate that widely used phenethylammonium cations are only partially adsorbed on the surface defective sites at perovskite crystallization temperatures. The passivator adsorption is predicted to be enhanced using 4-trifluoromethyl-phenylammonium (CF3-PA), which exhibits a stronger perovskite surface-passivator interaction than does phenethylammonium. By adding a small amount of CF3-PA into the precursor solution, we increase the carrier diffusion length within Pb–Sn perovskites twofold, to over 5 μm, and increase the efficiency of Pb–Sn perovskite solar cells to over 22%. We report a certified efficiency of 26.4% in all-perovskite tandem solar cells, which exceeds that of the best-performing single-junction perovskite solar cells. Encapsulated tandem devices retain more than 90% of their initial performance after 600 h of operation at the maximum power point under 1 Sun illumination in ambient conditions.A certified efficiency of 26.4% in all-perovskite tandem solar cells, exceeding that of the best-performing single-junction perovskite solar cells, is achieved by control over surface defects in the Pb–Sn subcell. [ABSTRACT FROM AUTHOR]

Published

2022

18. Gd‐Ni‐Sb‐SnO2 electrocatalysts for active and selective ozone production.

Author

Lansing, James L., Zhao, Lingyan, Siboonruang, Tana, Attanayake, Nuwan H., Leo, Angela B., Fatouros, Peter, Park, So Min, Graham, Kenneth R., Keith, John A., and Tang, Maureen

Subjects

OZONE, ELECTROCATALYSTS, QUANTUM chemistry, CONDUCTION bands, DESCRIPTOR systems

Abstract

Direct electrochemical production of dissolved ozone could potentially provide economic wastewater treatment and sanitation or a valuable chemical oxidant. Although Ni‐Sb‐SnO2 electrocatalysts have the highest known faradaic efficiencies for electrochemical ozone production, the activity and selectivity are not yet sufficient for commercial implementation. This work finds that co‐doping Ni and Gd increases the ozone selectivity by a factor of three over Ni alone. These findings are the first demonstration of an active dopant other than Ni in SnO2. Electrochemical and physical characterization show that trends in ozone activity are caused by chemical catalysis, not morphology effects, and that conduction band alignment is not a catalytic descriptor for the system. Selective radical quenching experiments and quantum chemistry calculations of thermodynamic energies suggest that the kinetic barriers to form solution‐phase intermediates are important for understanding the role of dopants in electrochemical ozone production. [ABSTRACT FROM AUTHOR]

Published

2021

19. Multifunctional Conjugated Ligand Engineering for Stable and Efficient Perovskite Solar Cells.

Author

Ma, Ke, Atapattu, Harindi R., Zhao, Qiuchen, Gao, Yao, Finkenauer, Blake P., Wang, Kang, Chen, Ke, Park, So Min, Coffey, Aidan H., Zhu, Chenhui, Huang, Libai, Graham, Kenneth R., Mei, Jianguo, and Dou, Letian

Published

2021

20. Effect of Palladium‐Tetrakis(Triphenylphosphine) Catalyst Traces on Charge Recombination and Extraction in Non‐Fullerene‐based Organic Solar Cells.

Author

Schopp, Nora, Brus, Viktor V., Lee, Jaewon, Dixon, Alana, Karki, Akchheta, Liu, Tuo, Peng, Zhengxing, Graham, Kenneth R., Ade, Harald, Bazan, Guillermo C., and Nguyen, Thuc‐Quyen

Subjects

SOLAR cells, SILICON solar cells, FULLERENE polymers, TRIPHENYLPHOSPHINE, SURFACE recombination, CATALYSTS, CHARGE carriers, THIOPHENES

Abstract

The effect of the cross‐coupling catalyst tetrakis(triphenylphosphine)palladium(0) (Pd(PPh3)4) on the performance of a model organic bulk‐heterojunction solar cell composed of a blend of poly([2,6′‐4,8‐di(5‐ethylhexylthienyl)benzo[1,2‐b;3,3‐b]dithiophene]{3‐fluoro‐2[(2‐ethylhexyl)carbonyl]thieno[3,4‐b]thiophenediyl}) (PTB7‐Th) donor and 3,9‐bis(2‐methylene‐((3‐(1,1‐dicyanomethylene)‐6,7‐difluoro)‐indanone))‐5,5,11,11‐tetrakis(4‐hexylphenyl)‐dithieno[2,3‐d:2′,3′‐d′]‐s‐indaceno[1,2‐b:5,6‐b′]dithiophene (IOTIC‐4F) non‐fullerene acceptor is investigated. The effect of intentional addition of different amounts of Pd(PPh3)4 on morphology, free charge carrier generation, non‐geminate bulk trap‐ and surface trap‐assisted recombination as well as bimolecular recombination and charge extraction is quantified. This work shows that free charge carrier generation is affected significantly, while the impact of Pd(PPh3)4 on non‐geminate recombination processes is limited because the catalyst does not facilitate efficient trap‐assisted recombination. The studied system shows substantial robustness towards the addition of Pd(PPh3)4 in small amounts. [ABSTRACT FROM AUTHOR]

Published

2021

21. Container Closure and Delivery Considerations for Intravitreal Drug Administration.

Author

Parenky, Ashwin C., Wadhwa, Saurabh, Chen, Hunter H., Bhalla, Amardeep S., Graham, Kenneth S., and Shameem, Mohammed

Abstract

Intravitreal (IVT) administration of therapeutics is the standard of care for treatment of back-of-eye disorders. Although a common procedure performed by retinal specialists, IVT administration is associated with unique challenges related to drug product, device and the procedure, which may result in adverse events. Container closure configuration plays a crucial role in maintaining product stability, safety, and efficacy for the intended shelf-life. Careful design of primary container configuration is also important to accurately deliver small volumes (10-100 μL). Over- or under-dosing may lead to undesired adverse events or lack of efficacy resulting in unpredictable and variable clinical responses. IVT drug products have been traditionally presented in glass vials. However, pre-filled syringes offer a more convenient administration option by reducing the number of steps required for dose preparation there by potentially reducing the time demand on the healthcare providers. In addition to primary container selection, product development studies should focus on, among other things, primary container component characterization, material compatibility with the formulation, formulation stability, fill volume determination, extractables/leachables, and terminal sterilization. Ancillary components such as disposable syringes and needles must be carefully selected, and a detailed administration procedure that includes dosing instructions is required to ensure successful administration of the product. Despite significant efforts in improving the drug product and administration procedures, ocular safety concerns such as endophthalmitis, increased intraocular pressure, and presence of silicone floaters have been reported. A systematic review of available literature on container closure and devices for IVT administration can help guide successful product development. [ABSTRACT FROM AUTHOR]

Published

2021

22. IS WHAT STUDENTS WANT WHAT THEY REALLY NEED? A VALUES VIEW OF UNDERGRADUATE MARKETING ELECTIVE COURSE OFFERINGS.

Author

Graham, Kenneth W., Achenreiner, Gwen, McDermott, Maggie, and Crosby, Elizabeth

Subjects

HIGHER education costs, EXPECTANCY-value theory, OCCUPATIONAL achievement, CURRICULUM planning, STUDENT attrition

Abstract

Prior research on marketing curriculum design suggests that new course offerings are driven by inputs from faculty resources and interests, student demand and willingness to enroll in the course, and feedback from alumni and employers regarding the skills students need to be successful in the workplace. In the face of the rising costs of higher education and declining enrollments, it is critical that curriculum be developed that strikes a balance between the values and needs of faculty, students, and employers. The current study explores the disconnect between courses students most desire to take and courses business professionals most recommend they take for career success. Utilizing Expectancy-Value Theory (EVT) and the Theory of Consumption Values (TCV) as lenses to explore student choice in regard to marketing elective course selection, this study offers empirical data on courses preferred by marketing students and recommended by employers. Findings elucidate similarities and differences between these two stakeholders, which faculty making curriculum decisions will need to navigate. Implications for theory and practice are discussed, including recommendations for curriculum design and strategies for balancing the preferences of students with the recommendations and demands of potential employers. [ABSTRACT FROM AUTHOR]

Published

2020

23. An exploration of creativity traits among ICT lecturers and students in Thailand.

Author

Wongwuttiwat, Jittima and Winley, Graham Kenneth

Subjects

LECTURERS, CREATIVE ability, COMPETITIVE advantage in business, STUDENTS, ACADEMIC degrees

Abstract

This is an exploratory classroom project involving lecturers and students in an ICT degree program at a university in Thailand. Twenty creativity traits derived from neuroscience are used as a framework to examine and compare: (a) the importance that lecturers assign to these traits as attributes of students; and (b) the extent to which students believe that these traits are applicable to them. The findings are expected to be of interest to educators and individuals concerned with the relationships among creativity, innovation, and competitive advantage at organizational or national levels. [ABSTRACT FROM AUTHOR]

Published

2020

24. Spin-coated fluorinated PbS QD superlattice thin film with high hole mobility.

Author

Xia, Pan, Davies, Daniel W., Patel, Bijal B., Qin, Maotong, Liang, Zhiming, Graham, Kenneth R., Diao, Ying, and Tang, Ming Lee

Published

2020

25. Mixed metal zero-mode guides (ZMWs) for tunable fluorescence enhancement.

Author

Masud, Abdullah Al, Martin, W. Elliott, Moonschi, Faruk H., So Min Park, Srijanto, Bernadeta R., Graham, Kenneth R., Collier, C. Patrick, and Richards, Christopher I.

Published

2020

26. Consumer-brand identity and online advertising message elaboration: Effect on attitudes, purchase intent and willingness to share.

Author

Graham, Kenneth Wilson and Wilder, Kelly M.

Abstract

Purpose: The purpose of this paper is to use social identity theory and the elaboration likelihood model to explore differences in consumer response to positive and negative online brand advertising based on the degree to which the consumer identifies with the brand featured in the ad. Dependent variables include attitude toward the ad, attitude toward the brand, willingness to share the ad and purchase intention. Design/methodology/approach: This study uses a posttest-only, 2 (low consumer–brand identification v. high consumer–brand identification) × 2 (negative advertisement v. positive advertisement) between-subjects factorial design for two separate brands based on the pretest results. Findings: Results show, in support of extant research, that consumer–brand identification enhances consumer perceptions of positive brand advertising. In addition, this research shows that consumer–brand identification also minimizes the potentially detrimental effects of negative advertisements on the dependent variables. Further, results suggest that those with a low consumer–brand identification are more likely to share negative online brand advertising. Practical implications: Building consumer–brand identification among target consumers results in positive brand attitudes and behaviors while at the same time shielding brands from negative online attack advertising. However, consumers with weak consumer–brand identification can be influenced through peripheral cues in online ads. This research indicates that managers need to focus on strengthening consumer–brand identity with target audiences and closely monitor negative online sentiment. Originality/value: This exploratory research extends current consumer–brand relationship scholarship and adds support for application of the elaboration likelihood model in an online environment. To the best of the authors' knowledge, this study is the first to examine the role of consumer–brand identity and its role in explaining consumer responses to online display advertising. [ABSTRACT FROM AUTHOR]

Published

2020

27. Computationally aided design of a high-performance organic semiconductor: the development of a universal crystal engineering core.

Author

Petty, Anthony J., Ai, Qianxiang, Sorli, Jeni C., Haneef, Hamna F., Purdum, Geoffrey E., Boehm, Alex, Granger, Devin B., Gu, Kaichen, Rubinger, Carla Patricia Lacerda, Parkin, Sean R., Graham, Kenneth R., Jurchescu, Oana D., Loo, Yueh-Lin, Risko, Chad, and Anthony, John E.

Published

2019

28. The Effect of Prior Endurance Training on Nap Sleep Patterns.

Author

Davies, Daniel J., Graham, Kenneth S., and Chow, Chin Moi

Subjects

NAPS (Sleep), ENDURANCE athletes, ENDURANCE sports, ENDURANCE sports training, PHYSICAL training & conditioning, POLYSOMNOGRAPHY, SLOW wave sleep

Abstract

Purpose: The use of daytime napping as a recovery tool following exercise is virtually unexplored. The objective of this study was to assess the quality of daytime nap sleep following endurance training in an athletic population, and to appraise the optimal circadian timing of the nap and the time interval between training and the nap. Methods: Six physically trained male subjects (22.5 ± 2.4 y) performed four separate standardized 90-min endurance training sessions followed by a 90-min daytime nap either 1 or 2 h after training (time interval), commencing at either 10:30 or 11:30 (circadian timing). During the nap, sleep was monitored using polysomnography. Subjective measurements of sleep quality, alertness and preparedness to train following a nap were recorded using a visual analog scale. Results: The duration of slow wave sleep (SWS) was significantly greater during the 11:30 naps (13.7 ± 9.0 min) compared with the 10:30 naps (6.9 ± 8.8 min) (P = .049). There was no significant difference in SWS duration between a 1-h (10.6 ± 10.2 min) or 2-h (10.0 ± 9.0 min) time interval between training and the nap (P = .82). No other sleep variables differed significantly according to circadian timing or time interval. Conclusion: Recovery naps commenced later in the morning contain more SWS than earlier naps. The data imply that daytime naps have a potential role as a valuable recovery tool following endurance exercise, given the suggested energy restorative functions of SWS. [ABSTRACT FROM AUTHOR]

Published

2010

29. Longer exercise duration delays post-exercise recovery of cardiac parasympathetic but not sympathetic indices.

Author

Michael, Scott, Jay, Ollie, Graham, Kenneth, Davis, Glen, Graham, Kenneth S, and Davis, Glen M

Subjects

HEART rate monitoring, LOGARITHMS, DYSAUTONOMIA, COOLDOWN, PUBLIC health, MANAGEMENT

Abstract

Purpose: This study investigated non-invasive indices of post-exercise parasympathetic reactivation (using heart rate variability, HRV) and sympathetic withdrawal (using systolic time intervals, STI) following different exercise durations.Methods: 13 healthy males (age 26.4 ± 4.7 years) cycled at 70% heart rate (HR) reserve for two durations-8 min (SHORT) and 32 min (LONG)-on separate occasions: HRV (including natural logarithm of root mean square of successive differences, Ln-RMSSD) and STI (including pre-ejection period, PEP) were assessed throughout 10 min seated recovery.Results: Exercise HR was similar between SHORT and LONG (146 ± 7 and 147 ± 6 b min-1, respectively; p = 0.173), as was HR deceleration during 10 min recovery (p = 0.199). HR remained elevated above baseline (p < 0.001) throughout recovery for both trials (SHORT 82 ± 13 b min-1; LONG 86 ± 10 b min-1, at 10 min post-exercise). Ln-RMSSD was similar at end-exercise between trials (SHORT 1.10 ± 0.30 ms; LONG 1.05 ± 0.73 ms; p = 0.656), though it recovered more rapidly following SHORT (p = 0.010), with differences apparent from 1 min (SHORT 2.29 ± 1.08 ms; LONG 1.85 ± 0.82 ms; p = 0.005) to 10 min post-exercise (SHORT 2.89 ± 0.80 ms; LONG 2.46 ± 0.70 ms; p = 0.007). Ln-RMSSD remained suppressed below baseline throughout recovery following both trials (p < 0.001). PEP was the same at end exercise for both trials (70 ± 6 ms), with exercise duration having no effect on recovery (p = 0.659). By 10 min post-exercise, PEP increased to 130 ± 21 ms (SHORT) and 131 ± 20 ms (LONG), which was similar to baseline (p ≥ 0.143).Conclusions: Prolonged exercise duration attenuated the recovery of HRV indices of parasympathetic reactivation, but did not influence STI indices of sympathetic withdrawal. Therefore, duration must be considered when investigating post-exercise HRV. Monitoring these measures simultaneously can provide insights not revealed by underlying HR or either measure alone. [ABSTRACT FROM AUTHOR]

Published

2017

30. Designing π-conjugated polymer blends with improved thermoelectric power factors.

Author

Abtahi, Ashkan, Johnson, Stephen, Park, So Min, Luo, Xuyi, Liang, Zhiming, Mei, Jianguo, and Graham, Kenneth R.

Abstract

Blending two or more π-conjugated polymers together provides a means of manipulating charge transport properties and potentially improving the performance of organic thermoelectrics. Previous results have shown that π-conjugated polymer blends can display higher Seebeck coefficients than either of the individual polymers; however, significantly increased power factors and improved thermoelectric performance in polymer blends as compared to the individual polymers has not yet been demonstrated. The purpose of this work is to theoretically and experimentally probe how the electronic properties of the individual polymers influence the Seebeck coefficient, electrical conductivity, and power factor in polymer blends. Specifically, the influence of energetic disorder, energy offsets between the transport states in the two polymers, and charge-carrier localization lengths are investigated based on a theoretical model introduced by Arkhipov and Bässler. These calculations show that gains in the power factor should be attainable when the two polymers have a small (e.g., 0.1–0.2 eV) offset in their density of states (DOS) distributions and the polymer with the higher energy DOS has a wider DOS distribution and a larger localization length. Experimentally, power factors in an appropriate polymer blend are demonstrated to exceed the power factors of the individual polymers by nearly two-fold. Through the applied theoretical and experimental approach, this work provides guidance in regards to the energetics, density of states, and charge-carrier mobilities for designing higher performing organic thermoelectrics with π-conjugated polymer blends. [ABSTRACT FROM AUTHOR]

Published

2019

31. Halide exchange and surface modification of metal halide perovskite nanocrystals with alkyltrichlorosilanes.

Author

Uddin, Md Aslam, Calabro, Rosemary L., Kim, Doo-Young, and Graham, Kenneth R.

Published

2018

32. Influence of dopant size and electron affinity on the electrical conductivity and thermoelectric properties of a series of conjugated polymers.

Author

Liang, Zhiming, Zhang, Yadong, Souri, Maryam, Luo, Xuyi, Boehm, Alex M., Li, Ruipeng, Zhang, Yan, Wang, Tairan, Kim, Doo-Young, Mei, Jianguo, Marder, Seth R., and Graham, Kenneth R.

Abstract

Chemical doping is widely used to manipulate the electrical and thermoelectric properties of organic semiconductors, yet intelligent design of polymer–dopant systems remains elusive. It is challenging to predict the electrical and thermoelectric properties of doped organic semiconductors due to the large number of variables impacting these properties, including film morphology, dopant and polymer energetics, dopant size, and degree of polaron delocalization. Herein, a series of dopants with varying sizes and electron affinities (EAs) are combined with polymers of differing ionization energies (IEs) to investigate how the difference between polymer IE and dopant EA influences the doping efficiency and electrical conductivity, and how the dopant size influences the thermoelectric properties. Our experiments demonstrate that at low doping levels the doping efficiency strongly depends on the difference between the polymer IE and dopant EA; the effectiveness of doping on increasing electrical conductivity drastically decreases at high loadings for the molybdenum dithiolene complexes, while FeCl3 remains effective at high loadings; and the large molybdenum complexes lead to more delocalized polarons as compared to FeCl3. To take advantage of the complementary doping characteristics of the molybdenum complexes and FeCl3, both dopants are employed simultaneously to reach high power factors at relatively low dopant concentrations. [ABSTRACT FROM AUTHOR]

Published

2018

33. An investigation of ICT knowledge and skills in Vietnam.

Author

Khanh, Tran Ngo Nhu and Winley, Graham Kenneth

Subjects

ABILITY, FORECASTING, PROFESSIONAL associations

Abstract

This study examines the present and future demands for knowledge and skills among IT professionals in organizations in Vietnam. A theoretical framework with 3 components is used: 6 domains of IT professional expertise; items representing knowledge and skills associated with the domains; and sourcing strategies that organizations may implement in order to procure basic IT knowledge and skills. The findings provide insights that are not found in existing studies of ICT in Vietnam which instead are focused on specific ICT issues and ICT development at a national level rather than at the level of organizations. In particular, findings are compared with predictions presented in the only 2 similar recent studies conducted in 2011. [ABSTRACT FROM AUTHOR]

Published

2018

34. Whole-body Cryotherapy as a Recovery Technique after Exercise: A Review of the Literature.

Author

Rose, Catriona, Edwards, Kate M., Siegler, Jason, Graham, Kenneth, and Caillaud, Corinne

Subjects

INFLAMMATION treatment, MUSCLE injuries, MYALGIA treatment, ATHLETIC ability, CINAHL database, COLD therapy, CONVALESCENCE, EXERCISE, INFORMATION storage & retrieval systems, MEDLINE, ONLINE information services, SPORTS, TEMPERATURE, SYSTEMATIC reviews

Abstract

This review aims to evaluate the current body of literature investigating the effect of whole body cryotherapy on recovery after exercise. A systematic search was conducted to investigate the effect of whole body cryotherapy (WBC, exposure to temperatures between - 110 to - 190 °C) on markers of recovery after damaging exercise in healthy, physically active subjects. Of the 16 eligible articles extracted, ten induced muscle damage using controlled exercise in a laboratory setting, while six induced damage during sport-specific training. Results indicated that muscle pain was reduced in 80 % of studies following WBC. Two applied studies found recovery of athletic capacity and performance with WBC improved, variables of this nature were also improved in 71 % of studies using controlled exercise. Further benefits of WBC treatment included reduction of systemic inflammation and lower concentrations of markers for muscle cell damage. These results suggest that WBC may improve recovery from muscle damage, with multiple exposures more consistently exhibiting improvements in recovery from pain, loss of muscle function, and markers of inflammation and damage. The diversity in muscle damage protocols, exposure timing with regards to exercise, as well as temperatures, duration and frequencies of exposure, make specific recommendations preliminary at present. [ABSTRACT FROM AUTHOR]

Published

2017

35. Depression, Anxiety, and Alcohol Use in Elite Rugby League Players Over a Competitive Season.

Author

Du Preez, Etienne J., Graham, Kenneth S., Gan, Thomas Y., Moses, Bassam, Ball, Chris, and Kuah, Donald E.

Published

2017

36. The validation and application of Inertial Measurement Units to springboard diving.

Author

Walker, Cherie, Sinclair, Peter, Graham, Kenneth, and Cobley, Stephen

Subjects

PHYSIOLOGICAL effects of acceleration, ATHLETIC ability, BIOMECHANICS, BIOPHYSICS, COMPARATIVE studies, DIVING, KINEMATICS, PROBABILITY theory, ROTATIONAL motion, SCIENTIFIC apparatus & instruments, EVALUATION research, MEDICAL equipment reliability

Abstract

Inertial Measurement Units (IMUs) may offer an ecologically valid, reliable, and practical method for biomechanical performance analysis. With such potential in mind, Part 1 of this study examined the accuracy of IMUs gyroscopes with an optical system (Cortex 3.3). A calibration formula standardised the IMUs angular velocity output with the optical system. The percentage differences between the two measures = 0.5% (p < 0.05), suggest IMU’s efficacy for application. In Part 2, the aim was to examine and understand how dive flight angular velocity time series plots change and increase according to dive degree of difficulty. With IMUs attached to three competitive divers performing forward somersault dives, dive flight kinematics were assessed. Biomechanically, a 4½ tuck somersault dive differed to lower degree of difficulty dives in terms of: (1) a rotational delay immediately after takeoff (to gain greater vertical translation); (2) increased total time of flight; (3) greater muscle effort to resist increased centrifugal forces produced by the increased angular velocity (1,090 °/s); and (4) greater eccentric control during deceleration allow a safe and vertical entry into the water. IMUs can be effectively utilised and integrated into contexts such as springboard diving for performance analysis and optimisation purposes. [ABSTRACT FROM AUTHOR]

Published

2017

37. THE REFORMATION OF MANNERS AND THE GRACE OF THE REFORMATION: MEASURE FOR MEASURES DISCIPLINARY MINGLE-MANGLE.

Author

Graham, Kenneth

Subjects

REFORMATION, GRACE (Theology), FAITH (Christianity), PROTESTANTS, GOD in Christianity

Published

2017

38. Increased power factors of organic–inorganic nanocomposite thermoelectric materials and the role of energy filtering.

Author

Liang, Zhiming, Boland, Mathias J., Butrouna, Kamal, Strachan, Douglas R., and Graham, Kenneth R.

Abstract

Significant enhancements in the performance of organic–inorganic nanocomposite thermoelectrics may be obtained through appropriately adjusting energetics at the organic–inorganic interfaces. Through altering these interfacial energetics, the energy dependence of the electrical conductivity, and therefore the Seebeck coefficient, can in principle be readily manipulated through energy filtering. In this work, we controllably vary the energetic barrier between transport states in the conjugated polymer poly(3-hexylthiophene) and tellurium nanowires. The energetic barrier is adjusted from 0.08 to 0.88 eV by altering the concentration of the p-type dopant (FeCl3) present in the polymer phase. We show that the maximum power factors in these composites are increased beyond that of either the pure polymer or pure nanowires for barriers of both 0.08 and 0.88 eV. With both doping concentrations the Seebeck coefficient increases with the concentration of tellurium nanowires. Through comparison of the experimentally measured Seebeck coefficients with models for parallel and series connected composites, we determine that the enhanced Seebeck coefficients and power factors do not likely arise from energy filtering. Furthermore, we find that the electrical conductivity of the 5% FeCl3 doped blend can exceed that of either of the pure components by nearly an order of magnitude. [ABSTRACT FROM AUTHOR]

Published

2017

39. Higher exercise intensity delays postexercise recovery of impedance-derived cardiac sympathetic activity.

Author

Michael, Scott, Jay, Ollie, Graham, Kenneth S., and Davis, Glen M.

Subjects

AUTONOMIC nervous system physiology, CARDIOGRAPHY, CLINICAL trials, CROSSOVER trials, CYCLING, CARDIAC contraction, HEART rate monitoring, PROBABILITY theory, STATISTICAL sampling, TIME, COOLDOWN, RANDOMIZED controlled trials, EXERCISE intensity, DESCRIPTIVE statistics, VENTRICULAR ejection fraction

Abstract

Copyright of Applied Physiology, Nutrition & Metabolism is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

40. Open-Circuit Voltage in Organic Solar Cells: The Impacts of Donor Semicrystallinity and Coexistence of Multiple Interfacial Charge-Transfer Bands.

Author

Ndjawa, Guy O. Ngongang, Graham, Kenneth R., Mollinger, Sonya, Wu, Di M., Hanifi, David, Prasanna, Rohit, Rose, Bradley D., Dey, Sukumar, Yu, Liyang, Brédas, Jean‐Luc, McGehee, Michael D., Salleo, Alberto, and Amassian, Aram

Subjects

OPEN-circuit voltage, SOLAR cells, ELECTRODE reactions, CHARGE transfer, HETEROGENEITY

Abstract

In organic solar cells (OSCs), the energy of the charge-transfer (CT) complexes at the donor-acceptor interface, ECT, determines the maximum open-circuit voltage ( VOC). The coexistence of phases with different degrees of order in the donor or the acceptor, as in blends of semi-crystalline donors and fullerenes in bulk heterojunction layers, influences the distribution of CT states and the VOC enormously. Yet, the question of how structural heterogeneities alter CT states and the VOC is seldom addressed systematically. In this work, we combine experimental measurements of vacuum-deposited rubrene/C60 bilayer OSCs, with varying microstructure and texture, with density functional theory calculations to determine how relative molecular orientations and extents of structural order influence ECT and VOC. We find that varying the microstructure of rubrene gives rise to CT bands with varying energies. The CT band that originates from crystalline rubrene lies up to ≈0.4 eV lower in energy compared to the one that arises from amorphous rubrene. These low-lying CT states contribute strongly to VOC losses and result mainly from hole delocalization in aggregated rubrene. This work points to the importance of realizing interfacial structural control that prevents the formation of low ECT configurations and maximizes VOC. [ABSTRACT FROM AUTHOR]

Published

2017

41. Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals--A Review.

Author

Michael, Scott, Graham, Kenneth S., and Davis, Glen M.

Subjects

HEART rate monitoring, CARDIAC contraction, PAROXYSMAL sympathetic hyperactivity, SYMPATHETIC nervous system, ALLOSTASIS

Abstract

Cardiac parasympathetic activity may be non-invasively investigated using heart rate variability (HRV), although HRV is not widely accepted to reflect sympathetic activity. Instead, cardiac sympathetic activity may be investigated using systolic time intervals (STI), such as the pre-ejection period. Although these autonomic indices are typically measured during rest, the "reactivity hypothesis" suggests that investigating responses to a stressor (e.g., exercise) may be a valuable monitoring approach in clinical and high-performance settings. However, when interpreting these indices it is important to consider how the exercise dose itself (i.e., intensity, duration, and modality) may influence the response. Therefore, the purpose of this investigation was to review the literature regarding how the exercise dosage influences these autonomic indices during exercise and acute post-exercise recovery. There are substantial methodological variations throughout the literature regarding HRV responses to exercise, in terms of exercise protocols and HRV analysis techniques. Exercise intensity is the primary factor influencing HRV, with a greater intensity eliciting a lower HRV during exercise up to moderate-high intensity, with minimal change observed as intensity is increased further. Post-exercise, a greater preceding intensity is associated with a slower HRV recovery, although the dose-response remains unclear. A longer exercise duration has been reported to elicit a lower HRV only during low-moderate intensity and when accompanied by cardiovascular drift, while a small number of studies have reported conflicting results regarding whether a longer duration delays HRV recovery. "Modality" has been defined multiple ways, with limited evidence suggesting exercise of a greater muscle mass and/or energy expenditure may delay HRV recovery. STI responses during exercise and recovery have seldom been reported, although limited data suggests that intensity is a key determining factor. Concurrent monitoring of HRV and STI may be a valuable noninvasive approach to investigate autonomic stress reactivity; however, this integrative approach has not yet been applied with regards to exercise stressors. [ABSTRACT FROM AUTHOR]

Published

2017

42. The Influence of Technology Addiction on Technology Acceptance and Use: An Exploration of Mobile Communications Technology.

Author

Graham, Kenneth W.

Published

2015

43. Correction to: Partial body cryotherapy exposure drives acute redistribution of circulating lymphocytes: preliminary findings.

Author

Rose, Catriona L., McGuire, Helen, Graham, Kenneth, Siegler, Jason, de St Groth, Barbara Fazekas, Caillaud, Corinne, and Edwards, Kate M.

Subjects

COLD therapy, LYMPHOCYTES, PERSONAL names

Abstract

The given name and family names of five author were incorrectly structured. The correct given name and family names should be: Helen McGuire. Correction to: Partial body cryotherapy exposure drives acute redistribution of circulating lymphocytes: preliminary findings. [Extracted from the article]

Published

2023

44. The Roles of Structural Order and Intermolecular Interactions in Determining Ionization Energies and Charge-Transfer State Energies in Organic Semiconductors.

Author

Graham, Kenneth R., Ndjawa, Guy O. Ngongang, Conron, Sarah M., Munir, Rahim, Vandewal, Koen, Chen, John J., Sweetnam, Sean, Thompson, Mark E., Salleo, Alberto, McGehee, Michael D., and Amassian, Aram

Subjects

ORGANIC semiconductors, INTERMOLECULAR interactions, IONIZATION energy, CHARGE transfer, QUANTUM efficiency, PHOTOELECTRON spectroscopy

Abstract

The energy landscape in organic semiconducting materials greatly influences charge and exciton behavior, which are both critical to the operation of organic electronic devices. These energy landscapes can change dramatically depending on the phases of material present, including pure phases of one molecule or polymer and mixed phases exhibiting different degrees of order and composition. In this work, ultraviolet photoelectron spectroscopy measurements of ionization energies (IEs) and external quantum efficiency measurements of charge-transfer (CT) state energies ( ECT) are applied to molecular photovoltaic material systems to characterize energy landscapes. The results show that IEs and ECT values are highly dependent on structural order and phase composition. In the sexithiophene:C60 system both the IEs of sexithiophene and C60 shift by over 0.4 eV while ECT shifts by 0.5 eV depending on molecular composition. By contrast, in the rubrene:C60 system the IE of rubrene and C60 vary by ≤0.11 eV and ECT varies by ≤0.04 eV as the material composition varies. These results suggest that energy landscapes can exist whereby the binding energies of the CT states are overcome by energy offsets between charges in CT states in mixed regions and free charges in pure phases. [ABSTRACT FROM AUTHOR]

Published

2016

45. Personality Traits among Information Technology Officers and the Expectations of Human Resource Personnel.

Author

Singhapong, Puckpimon and Winley, Graham Kenneth

Published

2016

46. Submaximal exercise intensity modulates acute post-exercise heart rate variability.

Author

Michael, Scott, Jay, Ollie, Halaki, Mark, Graham, Kenneth, Davis, Glen, and Davis, Glen M

Subjects

EXERCISE intensity, HEALTH behavior, HEART beat, EXERCISE physiology, CARDIOVASCULAR system, AUTONOMIC nervous system physiology, ANALYSIS of variance, EXERCISE, STATISTICAL sampling

Abstract

Purpose: This study investigated whether short-term heart rate variability (HRV) can be used to differentiate between the immediate recovery periods following three different intensities of preceding exercise.Methods: 12 males cycled for 8 min at three intensities: LOW (40-45 %), MOD (75-80 %) and HIGH (90-95 %) of heart rate (HR) reserve. HRV was assessed during exercise and throughout 10-min seated recovery.Results: 1-min HR recovery was reduced following greater exercise intensities when expressed as R-R interval (RRI, ms) (p < 0.001), but not b min(-1) (p = 0.217). During exercise, the natural logarithm of root mean square of successive differences (Ln-RMSSD) was higher during LOW (1.66 ± 0.47 ms) relative to MOD (1.14 ± 0.32 ms) and HIGH (1.30 ± 0.25 ms) (p ≤ 0.037). Similar results were observed for high-frequency spectra (Ln-HF-LOW: 2.9 ± 1.0; MOD: 1.6 ± 0.6; HIGH: 1.6 ± 0.3 ms(2), p < 0.001). By 1-min recovery, higher preceding exercise intensities resulted in lower HRV amongst all three intensities for Ln-RMSSD (LOW: 3.45 ± 0.58; MOD: 2.34 ± 0.81; HIGH: 1.66 ± 0.78 ms, p < 0.001) and Ln-HF (LOW: 6.0 ± 1.0; MOD: 4.3 ± 1.4; HIGH: 2.8 ± 1.4 ms(2), p < 0.001). Similarly, by 1-min recovery 'HR-corrected' HRV (Ln-RMSSD: RRI × 10(3)) was different amongst all three intensities (LOW: 3.64 ± 0.49; MOD: 2.90 ± 0.65; HIGH: 2.40 ± 0.67, p < 0.001). These differences were maintained throughout 10-min recovery (p ≤ 0.027).Conclusion: Preceding exercise intensity has a graded effect on recovery HRV measures reflecting cardiac vagal activity, even after correcting for the underlying HR. The immediate recovery following exercise is a potentially useful period to investigate autonomic activity, as multiple levels of autonomic activity can be clearly differentiated between using HRV. When investigating post-exercise HRV it is critical to account for the relative exercise intensity. [ABSTRACT FROM AUTHOR]

Published

2016

47. An Exploratory Study of Expectation in IT Skills in a Developing Nation: Vietnam.

Author

Sim Kim Lau, Winley, Graham Kenneth, Leung, Nelson K. Y., Tsang, Nicole, and Sim Yee Lau

Subjects

INFORMATION technology research, TECHNOLOGY, JOB skills, CORE competencies, DEVELOPING countries

Abstract

The purpose of this study is to explore expectations in information technology skills for organizations in Vietnam, a developing country in South East Asia. Previous research in Vietnam has mainly focused on information technology adoption; this study offers an insight into the demands of information technology skills in Vietnam. A theoretical framework consisting of five domains of expertise is used to examine the nature and structure of information technology profession in Vietnam. Results from the study show that there is an anticipated increase in demand for information technology professionals who possess deep skills in a broad scope of roles and experience both in information technology and other business domains. Technical skills in the technology infrastructure and services domain in combination with strong communication and problem solving qualities are highly valued by Vietnamese employers. [ABSTRACT FROM AUTHOR]

Published

2016

48. THE HISTORY OF THE UCLAW MUSICAL.

Author

GRAHAM, KENNETH

Subjects

COLLEGE musicals, MUSICAL theater writing, LAW schools, TWENTIETH century

Abstract

The article discusses the history of musicals produced and performed by students at the University of California, Los Angeles (UCLA) School of Law. It states that Bill Peters and Bryan Hull wrote first show “My Fair Law Student", following with professor Graham wrote musicals including " "S.O.U.L.S" and included musicians like Mark Swanson. Other shows discussed include "Carcinoma", "Obfuscate" and "Soporific".

Published

2016

49. Determinants of the Success of Information Techology Project Management in Thailand.

Author

Winley, Graham Kenneth

Abstract

Abstract: A theoretical model of information technology (IT) project management was formulated based on the results of previous studies incorporating transactional and transformational leadership styles, team diversity, and team culture as determinants of team processes and project outcomes. The study addresses the lack of previous studies of IT projects and is concerned with infrastructure and software projects conducted in cross‐functional environments with co‐located teams in the context of Thailand. The model was tested and developed to a final model using data collected from a sample of 219 professionals with experience in IT projects in Thailand. The results confirmed several reported effects of leadership styles, team diversity, and culture on team cooperation, cohesion, and conflict and their subsequent effects on performance and psychosocial project outcomes. The findings highlighted results not commonly reported in previous studies of IT project management concerning the role of dominant cultural characteristics of Thai society at the level project teams as well as important direct effects of leadership styles and aspects of team diversity on performance and psychosocial outcomes. Based on the findings practical recommendations for improving IT project outcomes are presented. [ABSTRACT FROM AUTHOR]

Published

2015

50. Near Infrared Fluorescent and Phosphorescent Organic Light-Emitting Devices.

Author

Yang, Yixing, Farley, Richard T., Steckler, Timothy T., Sommer, Jonathan, Eom, Sang-Hyun, Graham, Kenneth R., Reynolds, John R., Schanze, Kirk S., and Xue, Jiangeng

Published

2009