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1. The phosphinoboration of thiosemicarbazones

Author

Baird, Samuel R., Vogels, Christopher M., Geier, Stephen J., Watanabe, Larak., Binder, Justin F., Macdonald, Charles L.B., and Westcott, Stephen A.

Subjects
Organosulfur compounds -- Identification and classification, Chemical reactions -- Methods -- Analysis, Chemistry
Abstract

This study reports on the exploration of the phosphinoboration reaction with several thiosemicarbazones ([R.sup.5][R.sup.4]NC(S)N[R.sup.3]N=C[R.sup.1][R.sup.2]). Reactions between either [Ph.sub.2]PBpin (pin =1,2-[O.sup.2][C.sup.2][Me.sup.4]) or [Ph.sup.2]PBcat (cat =1,2-[O.sup.2][C.sup.6][H.sup.4]) with thiosemi-carbazones containing a terminal primary or secondary amine afforded boron-containing heterocyclic 1,3,4-thiadiazoline products in excellent yield. The addition of [Ph.sub.2]PBpin to thiosemicarbazones containing an [NMe.sub.2] group in the terminal position generated novel five-membered heterocycles in moderate yield, which included boron, sulfur, and nitrogen atoms. Heterocy-clization of the thiosemicarbazones occurs preferentially in the presence of functional groups such as acetyl and pyridyl groups. Key words: boron, borylation, phosphinoboration, 1,3,4-thiadiazoline, thiosemicarbazone, Introduction Historically, the reactivity of B--E-containing reagents has concentrated on hydroboration (E = H), (1-4) diboration (E = B), (5-7) and silylboration (E = Si (8-10) reactions, while the chemistry [...]

Published
2023
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2. Audiovisual Speech Synthesis using Tacotron2

Author

Abdelaziz, Ahmed Hussen, Kumar, Anushree Prasanna, Seivwright, Chloe, Fanelli, Gabriele, Binder, Justin, Stylianou, Yannis, and Kajarekar, Sachin

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Computation and Language, Computer Science - Sound
Abstract

Audiovisual speech synthesis is the problem of synthesizing a talking face while maximizing the coherency of the acoustic and visual speech. In this paper, we propose and compare two audiovisual speech synthesis systems for 3D face models. The first system is the AVTacotron2, which is an end-to-end text-to-audiovisual speech synthesizer based on the Tacotron2 architecture. AVTacotron2 converts a sequence of phonemes representing the sentence to synthesize into a sequence of acoustic features and the corresponding controllers of a face model. The output acoustic features are used to condition a WaveRNN to reconstruct the speech waveform, and the output facial controllers are used to generate the corresponding video of the talking face. The second audiovisual speech synthesis system is modular, where acoustic speech is synthesized from text using the traditional Tacotron2. The reconstructed acoustic speech signal is then used to drive the facial controls of the face model using an independently trained audio-to-facial-animation neural network. We further condition both the end-to-end and modular approaches on emotion embeddings that encode the required prosody to generate emotional audiovisual speech. We analyze the performance of the two systems and compare them to the ground truth videos using subjective evaluation tests. The end-to-end and modular systems are able to synthesize close to human-like audiovisual speech with mean opinion scores (MOS) of 4.1 and 3.9, respectively, compared to a MOS of 4.1 for the ground truth generated from professionally recorded videos. While the end-to-end system gives a better overall quality, the modular approach is more flexible and the quality of acoustic speech and visual speech synthesis is almost independent of each other., Comment: This work has been submitted to the 23rd ACM International Conference on Multimodal Interaction for possible publication

Published
2020

3. Speaker-Independent Speech-Driven Visual Speech Synthesis using Domain-Adapted Acoustic Models

Author

Abdelaziz, Ahmed Hussen, Theobald, Barry-John, Binder, Justin, Fanelli, Gabriele, Dixon, Paul, Apostoloff, Nicholas, Weise, Thibaut, and Kajareker, Sachin

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Machine Learning, Computer Science - Sound, Statistics - Machine Learning, I.2.m, I.3.8
Abstract

Speech-driven visual speech synthesis involves mapping features extracted from acoustic speech to the corresponding lip animation controls for a face model. This mapping can take many forms, but a powerful approach is to use deep neural networks (DNNs). However, a limitation is the lack of synchronized audio, video, and depth data required to reliably train the DNNs, especially for speaker-independent models. In this paper, we investigate adapting an automatic speech recognition (ASR) acoustic model (AM) for the visual speech synthesis problem. We train the AM on ten thousand hours of audio-only data. The AM is then adapted to the visual speech synthesis domain using ninety hours of synchronized audio-visual speech. Using a subjective assessment test, we compared the performance of the AM-initialized DNN to one with a random initialization. The results show that viewers significantly prefer animations generated from the AM-initialized DNN than the ones generated using the randomly initialized model. We conclude that visual speech synthesis can significantly benefit from the powerful representation of speech in the ASR acoustic models., Comment: 9 pages, 2 figures, 2 tables

Published
2019

10. Synthesis and structural characterization of new polyether complexes of germanium(II) and tin(II)

Author

Secara, Alina M., Binder, Justin F., Swidan, Ala'aeddeen, and Macdonald, Charles L.B.

Subjects
Chemical synthesis -- Methods, Polyethers -- Chemical properties -- Production processes, Chemistry
Abstract

A series of germanium(II) and tin(II) bromide polyether complexes have been synthesized. Specifically, [GeBr([15]crown-5)] [Ge[Br.sub.3]], [GeBr([18]crown-6)][Ge[Br.sub.3]], [GeBr(triglyme)][Ge[Br.sub.3]], [GeBr(tetraglyme)][Ge[Br.sub.3]], [SnBr([18]crown-6)][Sn[Br.sub.3]], [Sn[([15]crown-5).sub.2]][Sn[[Br.sub.3]].sub.2], [SnBr(triglyme)][Sn[Br.sub.3]], and [SnBr(tetraglyme)][Sn[Br.sub.3]] have been fully characterized including by single crystal X-ray diffraction. The synthesis of [GeBr(dibenzo[24]crown-8)][Ge[Br.sub.3]] and [GeCl(dibenzo[24]crown-8)][Ge[Cl.sub.3]] are also reported, along with the crystal structure of the latter's water adduct, which features a water molecule adjacent to the Ge[Cl.sup.+] ion within the cavity of the crown ether. Key words: main group, polyether, crown ether, germanium and tin halides, group 14. Nous avons synthétisé une série de complexes de bromure de germanium(II) et d'étain(II) à base de polyéthers. En particulier, le [GeBit[15]couronne-5)][Ge[Br.sub.3]], le [GeBr([18]couronne-6)][Ge[Br.sub.3]], [GeBr(triglyme)][Ge[Br.sub.3]], le [GeBr(tétraglyme)][Ge[Br.sub.3]], le [SnBr([18]couronne-6)][Sn[Br.sub.3]], le [Sn([15]couronne-5)2][Sn[[Br.sub.3]].sub.2], le [SnBr(triglyme)][Sn[Br.sub.3]] et le [SnBr(tétraglyme)][Sn[Br.sub.3]] ont été soumis à une caractérisation complète, dont la diffraction des rayons X sur monocristal. Nous décrivons également la synthèse du [GeBr(dibenzo[24]couronne-8)][Ge[Br.sub.3]] et du [GeCl(dibenzo[24]couronne-8)][Ge[Cl.sub.3]], ainsi que la structure cristalline du dernier sous forme de produit d'addition avec l'eau, lequel présente une molécule d'eau adjacente à l'ion Ge[Cl.sup.+] à l'intérieur de la cavité de l'éther couronne. [Traduit par la Rédaction] Mots-clés: groupe principal, polyéther, éther couronne, halogénures de germanium et d'étain, groupe 14., Introduction The chemistry involving group 14 cations and polyether ligands has been an area of great interest over the last decade. (1) The complexation of lead(II) ions by macrocyclic polyethers [...]

Published
2018
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12. The phosphinoboration of thiosemicarbazones

Author

Baird, Samuel R., primary, Vogels, Christopher M., additional, Geier, Stephen J., additional, Watanabe, Lara K., additional, Binder, Justin F., additional, Macdonald, Charles L. B., additional, and Westcott, Stephen A., additional

Published
2022
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14. Audiovisual Speech Synthesis using Tacotron2

Author

Hussen Abdelaziz, Ahmed, primary, Kumar, Anushree Prasanna, additional, Seivwright, Chloe, additional, Fanelli, Gabriele, additional, Binder, Justin, additional, Stylianou, Yannis, additional, and Kajareker, Sachin, additional

Published
2021
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16. Additional file 1 of Synthesis, characterization and stress-testing of a robust quillaja saponin stabilized oil-in-water phytocannabinoid nanoemulsion

Author

Banerjee, Abhinandan, Binder, Justin, Salama, Rayan, and Trant, John F.

Abstract

Additional file 1 See additional file named SI.pdf for quantitative analysis of the CBD-enriched cannabis distillate used in this study, droplet size distribution profiles for CDCBD nanoemulsions at various lipid phase compositions, variation of the droplet sizes of the optimized nanoemulsion as a function of the number of homogenization cycles, photographic representation of nanoemulsion destabilization and phase separation in the presence of added CaCl2, cryo-SEM of the optimized nanoemulsion in the presence of 100 mM sucrose, and data for the variation of CDCBD concentration in the optimized nanoemulsion as a function of pH.

Published
2021
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17. The hydroboration of α-diimines

Author

Geier, Stephen J., primary, Binder, Justin F., additional, Vogels, Christopher M., additional, Watanabe, Lara K., additional, Macdonald, Charles L. B., additional, and Westcott, Stephen A., additional

Published
2021
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22. The phosphinoboration of acyl chlorides

Author

Murphy, Maia C., primary, Trofimova, Alina, additional, LaFortune, James H. W., additional, Vogels, Christopher M., additional, Geier, Stephen J., additional, Binder, Justin F., additional, Macdonald, Charles L. B., additional, Stephan, Douglas W., additional, and Westcott, Stephen A., additional

Published
2020
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23. Fundamental Chemistry Involving Carbon-Donor-Stabilized Phosphorus(I) and Arsenic(I) Salts

Author

Binder, Justin Frank

Subjects
Synthesis, Cyanide, Pnictogen, Phosphorus, Carbene, Arsenic
Abstract

The overarching theme of this dissertation is the use of the conveniently prepared, air- and moisture-stable phosphorus(I) and arsenic(I) sources [Pndppe][X] (Pn = P and As; dppe = 1,2-bis(diphenylphosphino)ethane ; X = non-specific anion) as reagents for the synthesis and subsequent study of new or underexplored carbon-donor-stabilized phosphorus and arsenic compounds. Chapter 1 gives a historical account of the discovery and development of low-coordinate phosphorus- and arsenic-centred molecules. It provides insight into the nature of the bonding in these systems and recent successes in the field are highlighted. In Chapter 2, a convenient one-pot synthetic approach to chelating bis-N-heterocyclic carbene-ligated phosphorus(I) salts is described. The solid-state structures of these remarkably stable phosphamethine cyanine dyes with various N-alkyl groups and counterions were determined using single crystal X-ray diffraction. Initial reactivity results reveal that they may act as ligands towards gold(I). In Chapter 3, the synthesis and solid-state structures of various thiazolium iodide salts are reported. Their use as S,N-heterocyclic carbene synthons for the generation of classical phosphamethine cyanine dyes is expounded. Oxidation of the phosphamethine cyanines with elemental sulfur results in cationic dithiophosphinates that are air- and moisture-stable. In Chapter 4, a convenient, reliable, and high-yielding synthesis of N-heterocyclic carbene-stabilized phosphorus(I) cations is reported. Characterization of the materials by nuclear magnetic resonance spectroscopy, ultraviolet-visible spectroscopy, single crystal X-ray diffraction, and quantum chemical calculations was done. They reveal that increasing N-alkyl group size causes twisting of the carbene fragments from the C−P−C plane, which decreases the magnitude of negative hyperconjugation between the π-type lone pair on phosphorus and the carbene fragments. Furthermore, increasing the N-alkyl group size increases the stability of the dyes towards air and moisture. The reactivity profile of these compounds was assessed and include oxidation by elemental sulfur to give cationic dithiophosphinates; coordination chemistry with gold(I) to yield mono- and bi-metallic complexes; and protonation/alkylation using triflate-based electrophiles, to afford dicationic phosphines. In Chapter 5, general synthetic approaches for accessing asymmetrically substituted phosphorus(I) cations are reported. The first method grants access to acyclic derivatives and is accomplished by sequential substitution of bis(diphenylphosphino)ethane. The second method grants access to cyclic derivatives and utilizes hybrid phosphine/N-heterocyclic carbene ligands. In this case, modifying the stoichiometries or ligand type can also generate homoleptic derivatives with pendant phosphines. In Chapter 6, the synthesis, isolation and full characterization of a series of cationic metal-carbonyl complexes bearing an N‐heterocyclic carbene-stabilized phosphorus(I) ligand are reported. The donor ability of the ligand was assessed by infrared spectroscopy of its metal-carbonyl complexes and by quantum chemical calculations. The results indicate that the new PI ligands are weak π‐acceptors with moderate σ-donor strength. In Chapter 7, the synthesis of dicyanopnictides using [Pndppe][BPh4] is reported. The protocol requires three synthetic steps from commercially available starting materials. As the heavy homologues of dicyanamide – a long-known and industrially-important anion – these materials should find use in a variety of synthetic applications. Chapter 8 summarizes the conclusions drawn from this research and provides initial results to guide future endeavours.

Published
2019

35. Diphosphoniodiphosphene Formation by Transition Metal Insertion into a Triphosphenium Zwitterion.

Author

Kosnik, Stephanie C., Binder, Justin F., Nascimento, Maxemilian C., Swidan, Ala'aeddeen, and Macdonald, Charles L. B.

Subjects
*DIPHOSPHONATES, *TRANSITION metals, *ZWITTERIONS, *CHEMICAL reactions, *X-ray diffraction
Abstract

Treatment of two equivalents of the triphosphenium zwitterion L with sources of Ni0 and Pd0 form the mononuclear η2‐diphosphoniodiphosphene complexes 1 and 2. The reaction between L and [FeCp(CO)2]2 results in the binuclear μ‐η1:η1‐diphosphoniodiphosphene iron complex 3, which features an alternative bonding motif of the diphosphoniodiphosphene unit. The formation of these species has been confirmed by spectroscopic methods and single‐crystal X‐ray diffraction analysis, and their electronic structures have been elucidated using computational methods. A diphosphoniodiphosphene is unexpectedly formed by insertion of Ni0, Pd0, and FeI into the P−P bonds of a triphosphenium zwitterion, giving rise to structurally confirmed μ2‐bound monometallic or μ‐η1:η1‐bimetallic species. [ABSTRACT FROM AUTHOR]

Published
2019
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42. 1,3,5-Triazine(trithiophenylcarboxylate) esters form metastable monotropic nematic discotic liquid crystal phases.

Author

Hi Taing, Rothera, Jacob G., Binder, Justin F., Macdonald, Charles L. B., and Eichhorn, S. Holger

Subjects
MONOTROPIC transitions, CARBOXYLATES, NEMATIC liquid crystals, DISCOTIC liquid crystals, CRYSTAL growth, DIFFERENTIAL scanning calorimetry
Abstract

Conformationally flexible cores that generate large free volume when stacked and have an insufficient number of side-chains for filling the lateral space around each core have been proposed as design criteria for discotic liquid crystals that display nematic rather than columnar mesophases. Presented here are 1,3,5-triazines substituted with three thiophene carboxylate ester groups that fulfil these design criteria. Nine derivatives with linear, branched, and chiral ester chains were synthesised and their mesomorphism was studied by polarised optical microscopy, differential scanning calorimetry, and powder x-ray diffraction. Triazines with linear propyl to octyl chains display monotropic nematic discotic mesophases that crystallise within hours or days or when mechanically agitated. Packing structures for the nematic phases are proposed based on the single crystal structure of the ethyl ester. Their unusually slow nucleation and crystal growth can be attributed to the large number of possible low energy conformations that arise from the conformationally flexible core. Incorporation of racemic and chiral branched chains expectedly lowers the melting points of these derivatives but, unexpectedly, enhances nucleation and crystal growth well above the temperature ranges of their hypothetical nematic phases. Chiral nematic discotic mesophases were obtained for binary mixtures of derivatives with chiral branched and linear chains. [ABSTRACT FROM AUTHOR]

Published
2018
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44. Synthesis of Heavy Dicyanamide Homologues from Air-Stable Precursors.

Author

Binder JF, Kosnik SC, St Onge PBJ, and Macdonald CLB

Abstract

A convenient synthesis of dicyanophosphide and dicyanoarsenide anions is reported. These heavy homologues of the long-known and fundamentally important dicyanamide anion were formed through the nucleophilic displacement of bis(diphenylphosphino)ethane (dppe) from the pnictogen + transfer agents [dppePn][BPh 4 ] (Pn=P, As) by exposure to cyanide salts. The protocol requires three synthetic steps from commercially available materials and the [dppePn][BPh 4 ] salts are remarkably temperature, air, and moisture stable. All products have been fully characterized by spectroscopic methods and by single-crystal X-ray diffraction, and the electronic structures of the DCPn anions have been assessed computationally., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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45. Synthesis of Heteroleptic Phosphorus(I) Cations by P + Transfer.

Author

Binder JF, Swidan A, and Macdonald CLB

Abstract

Reported are general synthetic approaches for the syntheses of asymmetrically substituted phosphorus(I) cations by P + transfer from [dppeP] + (dppe = 1,2-bis(diphenylphosphino)ethane). The first method grants access to acyclic derivatives and is accomplished by the sequential substitution of dppe using first a sterically encumbered ligand which cannot form a stable homoleptic complex, followed by a second equivalent of a less sterically demanding ligand. The second method grants access to cyclic derivatives and utilizes asymmetric hybrid phosphine/N-heterocyclic carbene ligands. Interplay between the different ligand types and their stoichiometries relative to those of [dppeP] + also allows for the isolation of symmetrical derivatives with pendant phosphines.

Published
2018
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46. Assessing the Ligand Properties of NHC-Stabilised Phosphorus(I) Cations.

Author

Binder JF, Kosnik SC, and Macdonald CLB

Abstract

The isolation and full characterisation of a series of cationic metal-carbonyl complexes bearing an N-heterocyclic carbene stabilised phosphorus(I) ligand are reported. Specifically, the mononuclear coordination complexes [LM(CO) 5 ][BPh 4 ] (M=Cr, Mo, W), [LFe(CO) 4 ][BPh 4 ] and the dinuclear complexes [LMn 2 (CO) 8 ][BPh 4 ] and [LCo 2 (CO) 6 ][BPh 4 ], in which L=[bis(1,3,4,5-tetramethylimidazol-2-ylidene)phosphanide] + , have all been isolated in the solid state and structurally confirmed by single-crystal X-ray diffraction. The dicationic platinum complex trans-[L 2 PtCl 2 ][BPh 4 ] 2 is also reported and fully characterised. The donor ability of [L] + has been assessed by IR spectroscopy of its metal-carbonyl complexes and by using DFT calculations. The results suggest that [L] + is a weak π-acceptor with moderate donor strength and thus it bridges the gap that exists between phosphines and amines in terms of ligand properties. Collectively, these molecules represent the first crystallographically characterised cationic metal-carbonyl derivatives of a P I -centred ligand and are a rare collection of cationic metal-carbonyl complexes., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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