The oligomerization of propene over cobalt catalysts

Bibliography: pages 136-140.This thesis set out to investigate the activity of various supported cobalt catalysts for high pressure propene oligomerization. This work was carried out as part of a larger research effort to upgrade light olefins to liquid fuels in the distillate range. The supports investigated included activated carbon, alumina, silica alumina, synthetic mica montmorillonite, zeolite Y and NH₄⁺-ZSM-5. A cobaltmolybdenum hydrodesulphurization catalyst was also tested. The synthesis procedures used in this work included double ammoniation (Co-C), incipient wetness impregnation (Co-C, alumina, NH₄⁺-ZSM-5), ion-exchange (NaY, NH₄⁺-ZSM-5), chemisorption (cobalt complex on activated carbon) and homogeneous deposition-precipitation (Co-Silica alumina)

Evaluation of a rehabilitation support service after acute stroke: Feasibility and patient/carer benefit

Background: Stroke survivors returning home after discharge from hospital and their carers require support to meet their rehabilitation needs (independence in Activities of Daily Living, exercise, psychosocial support). Voluntary or charitable care providers may be able to address some of these needs. Objective: To explore the feasibility of delivering and evaluating enhanced support to stroke survivors and their carers, with a Rehabilitation Support Worker (RSW). Methods: 16 consecutive stroke survivors and their carers were included. All participants received usual hospital care. Seven of these patients and their carers were also allocated an RSW from a charitable care provider. The RSW accompanied therapy training sessions with the patient, carer and therapist in hospital. On discharge, the RSW visited the patient and carer at home over the initial 6 week post-discharge period to support them in practising rehabilitation skills. Patient function (Barthel Index) and patient/carer confidence were independently assessed at discharge (Week 0). The above assessments and patient/carer mood (GHQ-12) and Carer Giver Strain were also assessed at Weeks 1, 6 and 12. RSWs were interviewed for their views about the service. Results: Participants’ functional ability at Week 1 post-discharge was significantly higher in the RSW group. At 6 and 12 weeks post-discharge, functional ability was not significantly different between groups. Carers in the intervention group were less confident at all time points, however, this was not significant. There was no significant effect on carer strain or well-being. Interviews with RSWs highlighted areas of their training that could be enhanced and the need for greater clarity as to their role. Conclusions: The results showed that a definitive trial of rehabilitation support is feasible. A number of obstacles however would need to be overcome including: difficulty in identifying suitable patients, clarity of the RSW role, and appropriate training content

Mouthpiece for Patients with Neuromuscular Disorders

Neuromuscular Disorders (NMDs) impact people throughout the world. An early hallmark of these disorders includes some degree of facial muscle weakness. Respiratory testing is important to evaluate the progression of these patients’ NMDs. However, these tests require that the patient purses their lips around a mouthpiece to create a tight seal. This is a difficult task for one with facial muscle degeneration. This often leads to results that fail to reflect the patient’s true respiratory ability and prevents their physician from providing the appropriate degree of care. The objective of this project was to develop a face mask or mouthpiece for Negative Inspiratory Force (NIF) testing to allow these users to create a proper seal without use of their facial muscles. Through the engineering design process, a 3D printed prototype was designed to interface with NIF testing equipment. This proposed design uses bite force to create a tight seal, allowing for accurate test results, enhanced comfort, and better patient outcomes

Small molecule inhibitors of Mdm2 E3 ubiquitin ligase activity

Half of cancers retain wild type p53 but have alterations in the pathways involved in p53 regulation. Murine double minute 2 (Mdm2) regulates p53 by acting as an E3 ubiquitin ligase, which tags p53 for degradation through the proteasome. A small molecule inhibitor, a 5-deazaflavin analogue, has previously been identified by high throughput screening to inhibit Mdm2 E3 ubiquitin ligase activity, thereby reactivating apoptotic function of p53 selectively in cancer cells. Ninety 5-deazaflavin analogues have been synthesised by an optimized existing method and a novel method of synthesis, using the required 6-anilinouracil and 2-p-toluenesulfonyloxybenzaldehyde.The biological ability of the 5-deazaflavin analogues to act as inhibitors of Mdm2 E3 ubiquitin ligase activity to reactivate p53 has been ascertained. A new quantitative biological assay was developed, by scientists based at the Beatson Institute, for 5-deazaflavin compounds, showing excellent inhibition of Mdm2 E3 ubiquitin ligase activity on the previous qualitative biological assay, to yield IC50 data. The biological results have established a clear and logical structure-activity relationship comprising of an electron-withdrawing hydrophobic substituent at the nine position and the N10 phenyl being a prerequisite for activity as a Mdm2 inhibitor. Also meta substitution of the N10 phenyl improves activity against Mdm2 E3 ubiquitin ligase activity. Hit optimization has occurred with 10-(3-chlorophenyl)-9-trifluoromethyl-5-deazaflavin being thirty times more active than the previous identified hit compound, 10-(4-chlorophenyl)-7-nitro-5-deazaflavin. Using the X-ray crystal structure of the Mdm2/MdmX heterodimer, an improved understanding of how Mdm2 acts as an E3 ubiquitin ligase is described and used to form a hypothesis of how 5-deazaflavin analogues function as inhibitors of Mdm2. The work suggests the principle that small molecular weight compounds can inhibit E3 ubiquitin ligases as a possible anti-cancer therapy, and provide the foundation and framework for additional studies and investigation in a new and developing field of medicinal chemistry

The Eigenlearning Framework: A Conservation Law Perspective on Kernel Regression and Wide Neural Networks

We derive a simple unified framework giving closed-form estimates for the test risk and other generalization metrics of kernel ridge regression (KRR). Relative to prior work, our derivations are greatly simplified and our final expressions are more readily interpreted. These improvements are enabled by our identification of a sharp conservation law which limits the ability of KRR to learn any orthonormal basis of functions. Test risk and other objects of interest are expressed transparently in terms of our conserved quantity evaluated in the kernel eigenbasis. We use our improved framework to: i) provide a theoretical explanation for the "deep bootstrap" of Nakkiran et al (2020), ii) generalize a previous result regarding the hardness of the classic parity problem, iii) fashion a theoretical tool for the study of adversarial robustness, and iv) draw a tight analogy between KRR and a well-studied system in statistical physics

The Process and a Pitfall in Developing Biology and Chemistry Problems for Mathematics Courses

In this paper, we describe our process for developing applied problems from biology and chemistry for use in a differential calculus course. We describe our conversations and curricular analyses that led us to change from our initial focus on college algebra to calculus. We provide results that allowed us to see the overlaps between biology and mathematics and chemistry and mathematics and led to a specific focus on problems related to rates of change. Finally, we investigate the problems that were developed by the partner disciplines for use on recitation activities in calculus and how those problems were modified by the calculus coordinator. We compare what partner disciplines emphasize in scientific applications with what mathematics instructors emphasize in calculus and consider what that means for students’ understanding of science in mathematics. We also describe the role of the students, partner discipline colleagues, and calculus instructors in the development, refinement, and use of the problems

INTERDISCIPLINARY VARIATIONS IN THE PERCEPTION OF POWER: A STUDY IN IDEOLOGY

There have been marked disagreements in the literature on the structure of power in American society. The authors suggest that this controversy is an artifact of ideological differences between sociologists and political scientists. This hypothesis is tested through the use of a pluralism-elitism scale. Political scientists are found to score toward the pluralistic end of the spectrum, while sociologists are concentrated toward the elitist end, thus providing preliminary support for the hypothesis

Electrical resistivity of pure copper processed by medium-powered laser powder bed fusion additive manufacturing for use in electromagnetic applications

Pure copper is an excellent thermal and electrical conductor, however, attempts to process it with additive manufacturing (AM) technologies have seen various levels of success. While electron beam melting (EBM) has successfully processed pure copper to high densities, laser powder bed fusion (LPBF) has had difficulties achieving the same results without the use of very high power lasers. This requirement has hampered the exploration of using LPBF with pure copper as most machines are equipped with lasers that have low to medium laser power densities. In this work, experiments were conducted to process pure copper with a 200 W LPBF machine with a small laser spot diameter resulting in an above average laser power density in order to maximise density and achieve low electrical resistivity. The effects of initial build orientation and post heat treatment were also investigated to explore their influence on electrical resistivity. It was found that despite issues with high porosity, heat treated specimens had a lower electrical resistivity than other common AM materials such as the aluminium alloy AlSi10Mg. By conducting these tests, it was found that despite having approximately double the resistivity of commercially pure copper, the resistivity was sufficiently low enough to demonstrate the potential to use AM to process copper suitable for electrical applications