Past Talks
A very wet lab: Translating optical technology to the marine environment for ecophysiology measurement of free-ranging marine mammals
Tue05
Oct
18:15
A very wet lab: Translating optical technology to the marine environment for ecophysiology measurement of free-ranging marine mammals
Dr Chris McKnight
18:15, Tuesday 5 October 2021
We have a very exciting talk by Dr Chris McKnight, a research fellow at the Sea Mammal Research Unit at the University of St. Andrews. Check out the moodle page and facebook for event details and links!
Can we predict how organic molecules crystallise?
Tue12
Oct
18:15
Can we predict how organic molecules crystallise?
Professor Sally Price
18:15, Tuesday 12 October 2021
Join us on Tuesday for a talk by UCL's very own Professor Sally Price. Her research aims to model the intermolecular and intramolecular forces in organic molecules, such as pharmaceuticals, sufficiently realistically so that they can be used for predicting the crystallization and solid state properties of the molecules.
Superhero Science: The Next Time You Go to the Movies
Wed13
Oct
13:00
Superhero Science: The Next Time You Go to the Movies
Dr Sibrina Collins
13:00, Wednesday 13 October 2021
Dr Sibrina Collins will be talking about the uses of pop-culture as pedological resources in STEM education.
Sensors and Analytical Microsystems
Tue19
Oct
18:15
Sensors and Analytical Microsystems
Dr Ruchi Gupta
18:15, Tuesday 19 October 2021
Join us for a talk led by Dr Ruchi Gupta, a Senior Lecturer in the School of Chemistry at the University of Birmingham.
Banking the World’s Seeds, and other stories…
Wed20
Oct
13:00
Banking the World’s Seeds, and other stories…
Dr Christopher Cockel
13:00, Wednesday 20 October 2021
We have an exciting talk by Dr Christopher Cockel, the coordinator for the UK Native Seed Hub (UKNSH) at Kew Gardens.
The talk will look at the role of Millennium Seed Bank Partnership in safeguarding the world’s plant genetic resources at a time when plant populations globally are under unprecedented pressures from anthropogenic activities. I’ll explain why we do what we do and how we do it, and I’ll give some case study examples of recently concluded and active projects where seed banking is conserving these genetic resources for use in such activities as safeguarding future food security, for their medicinal properties, and in species conservation and habitat restoration more generally.
Bioinspired Processing of Soft Materials
Wed27
Oct
13:00
Bioinspired Processing of Soft Materials
Professor Esther Amstad
13:00, Wednesday 27 October 2021
This Wednesday lunchtime we have a super interesting talk by Professor Esther Amstad, a soft matter researcher at EPFL.
Nature produces materials possessing exceptional mechanical properties. These properties are to a large extent related to the well-defined structure and locally varying composition of natural materials. Key to the excellent control nature possesses over the structure and local composition of its materials is their fabrication: Many of these materials are formed from compartmentalized reagents that are transported to the desired locations where they are locally released. Inspired by nature, we use emulsion drops as compartments to build macroscopic granular load-bearing soft materials. In this talk, I will demonstrate how we use emulsion drops to produce self-healing capsules that controllably release reagents on demand and how we convert these capsules and microparticles into strong macroscopic hydrogels. These hydrogels can bear significant loads, a feature that is frequently seen in natural hydrogels, but very rarely obtained in synthetic counterparts.
Bioelectronics in Tissue Engineering and Disease Modeling
Thu28
Oct
18:15
Bioelectronics in Tissue Engineering and Disease Modeling
Dr Brian Timko
18:15, Thursday 28 October 2021
Join us for a talk led by Prof Brian Timko, an assistant professor in the Department of Biomedical Engineering at Tufts University.
Hybrid bioelectronic systems offer a unique route toward achieving two-way electronic communication with living cells and tissues. Recent advances in bioelectronics and bioactive materials have enabled multiplexed, stable and seamless interfaces with surrounding cells and tissues, representing a distinct advantage over conventional systems such as patch clamp and optical dyes. We will first present an overview of our recent heart-on-a-chip platform which integrated both extra- and intracellular devices for monitoring cardiac electrophysiology during episodes of acute hypoxia. This system allowed us to monitor not only cell-cell communication (e.g., wavefront propagation) but also action potentials at several spatially-distinct regions simultaneously. Our platform provided a unique route toward understanding the role of hypoxia on ion channel dynamics. For example, we found that APs narrowed during hypoxia, consistent with proposed mechanisms by which oxygen deficits activate ATP-dependent K+ channels that promote membrane repolarization. We will next discuss routes toward extending our bioelectronic platform to 3D, enabling new classes of hybrid, devices-embedded tissues. We developed a Photo-crosslinkable Silk Fibroin (PSF) derivative which was compatible with conventional photolithography processes and enabled flexible scaffolds with well-defined geometries and cm-scale uniformity. Our freestanding PSF-based scaffolds supported bioelectronic devices, provided excellent electrical passivation, and adhered both cardiac and neuron model cells, opening new avenues toward engineered brain hybrids. We will also present recent work to develop electromagnetic stimulation elements for spatially-selective cellular activation. Taken together, these research directions open new avenues for engineered, bioelectronics-innervated cardiac and brain systems. We will discuss prospects for merging our bioelectronic devices with state-of-the-art tissue engineering techniques.
Fragments of Crystalline Silicon via Target-Oriented Synthesis
Tue02
Nov
18:15
Fragments of Crystalline Silicon via Target-Oriented Synthesis
Professor Rebekka Klausen
18:15, Tuesday 2 November 2021
Join us for a talk led by Professor Rebekka Klausen, a associate professor at JHU Department of Chemistry.
Daily life depends on the ubiquitous semiconductor silicon: computers, solar cells, and many more. Yet silicon synthesis relies on top-down, high-temperature approaches that yield only the most thermodynamically stable forms of silicon. Uncovering new structure-function space demands a different synthetic vision. This talk will describe the synthesis of molecular and polymeric silanes inspired by the complexity, selectivity, and elegance of target-oriented organic synthesis. Topics include the chemoselective polymerization of novel bifunctional silane monomers, selective preparation of linear and cyclic polycyclosilanes, and the stereocontrolled synthesis of cis- and trans-siladecalin. Approaches to the structural characterization of novel silane architectures will also be discussed.
Molecular Organisation: A Journey Through Complex Structures
Wed03
Nov
13:00
Molecular Organisation: A Journey Through Complex Structures
Professor Neil Champness
13:00, Wednesday 3 November 2021
Join us for a talk by Professor Neil Champness, his work at the University of Birmingham focuses on supramolecular chemistry!
Synopsis:
Non-covalent directional intermolecular interactions provide a pre-determined recognition pathway which has been widely exploited in supramolecular chemistry to form functional nanostructures in the solid-state, in solution and on surfaces. Our studies using intermolecular interactions to enable the directed assembly of extended nanostructures will be presented.
The talk will include studies of solid-state self-assembly to create metal-organic frameworks (MOFs), including examples that enable the crystallographic study of reaction processes; solution-phase self-assembly of interlocked structures, including new molecular handcuff structures that facilitate studies of the effect of intermolecular stacking on optical and redox properties; and surface-based self-assembly studies including highly unusual random self-assembly.
Using Dietary Tracers to Understand the Feeding Ecology of North Atlantic Killer Whales
Tue16
Nov
18:15
Using Dietary Tracers to Understand the Feeding Ecology of North Atlantic Killer Whales
Anaïs Remili
18:15, Tuesday 16 November 2021
Join us on Tuesday for a talk by Anaïs Remili, a PhD candidate at McGill University. On top of her research on killer whales, Anaïs is the founder of Whale Scientists, a science communication platform about marine mammals that features early-career marine mammalogists.
Synopsis:
Killer whales (Orcinus orca) are among the most contaminated animals on the planet. Their exposure to high levels of contaminants like persistent organic pollutants (POPs) has been thought to contribute to reduced reproductive success and population growth. As a generalist apex predator with a tendency to adopt prey specializations at the individual or population level, killer whales may provide critical insights into how feeding ecology may influence/drive contaminant accumulation. The use of chemical tracers has increased in the last decades due to their relative ease of sampling and ability to reflect integrated diet signals over time. This talk will dive into the North Atlantic Ocean and apply chemical tracers to different killer whale populations to understand their diets and contaminant exposures.
Solvation and Sorption: The old thermodynamic questions that still haunt us today
Wed17
Nov
13:00
Solvation and Sorption: The old thermodynamic questions that still haunt us today
Dr Seishi Shimizu
13:00, Wednesday 17 November 2021
Join us for a talk by Dr Seishi Shimizu on the complexities of Thermodynamics!
Synopsis:
There are questions that trouble us when we apply chemistry. Why does this molecule dissolve so poorly? Why isn't this macromolecule stable in water? Why does this powder mixture suck up so much moisture? These questions are very difficult to answer because prediction schemes are still quite limited. The difficulty comes from the theoretical foundation: statistical thermodynamics. I will try my best to tell you why these questions are difficult and why statistical thermodynamics, despite its difficulty, is a fascinating and rewarding subject that reveals the fundamental principles beneath real-life and industrial questions.
Chemical Biology Studies of the Thalidomide Binding Domain of Cereblon
Tue23
Nov
18:15
Chemical Biology Studies of the Thalidomide Binding Domain of Cereblon
Professor Christina Woo
18:15, Tuesday 23 November 2021
Join us for a talk led by Professor Christina Woo, an Associate Professor in the Department of Chemistry and Chemical Biology at Harvard University, and an affiliate member of the Broad Institute. Christina’s research focuses on the design of small molecule and protein approaches to alter post-translational modifications and the signaling outcomes they produce.
Synopsis:
The E3 ligase adaptor cereblon is a target of thalidomide and lenalidomide, therapeutic agents that are used in the treatment of hematopoietic cancers despite teratogenic toxicity. These agents act in part by modulating substrate selection and degradation through the thalidomide binding domain of cereblon. However, despite the expanding use of cereblon in targeted protein degradation technologies, identification of a degron, the recognition domain that controls the endogenous substrate selection mechanisms of cereblon, has remained elusive. Here, I will describe chemoproteomics approaches to target identification in the study of molecular glues like lenalidomide, and how these chemical biology approaches can reveal new insights about the thalidomide binding domain of cereblon.
Two Centuries of the Rare Earths
Wed01
Dec
13:00
Two Centuries of the Rare Earths
Dr Simon Cotton
13:00, Wednesday 1 December 2021
We have an exciting talk by Dr Simon Cotton, a science communicator who has written over 7 books about transition metals, lanthanides and actinides!
Synopsis:
There are seventeen rare earths - scandium, yttrium and the lanthanides. At the time that Mendeleev published his first Periodic Table (1869), only five of these elements were known; their discovery and isolation extended from 1794 until 1947. In the last half century or so, many developments have taken place in their chemistry - extending the range of their coordination numbers, an increasing number of compounds in unusual oxidation states, and most recently lanthanide-containing enzymes, raising questions about their role in living systems. Applications bring rare earths into our lives – batteries, lighting, hard drives in PCs and wind turbines are among the examples. This talk will examine several aspects of these remarkable elements.
Plants of the São Paulo State Cerrado as Sources of Bioactive Compounds and Sustainability
Tue07
Dec
18:15
Plants of the São Paulo State Cerrado as Sources of Bioactive Compounds and Sustainability
Professor Patrícia Pauletti
18:15, Tuesday 7 December 2021
Join us for a talk led by Prof Patrícia Mendonca Pauletti, a professor and researcher at the University of Franca (UNIFRAN), state of São Paulo, Brazil.
Synopsis:
In the past, the São Paulo State Cerrado vegetation occupied 14% of the territory of the state of São Paulo. However, today this vegetation constitutes only 1% of the territory of this state due to growing loss of biodiversity and occupation of this biome by various economic activities. Consequently, the Cerrado areas have become cause for environmental concern and have been included among the most threatened natural ecosystems. In this scenario, protecting and promoting rational exploitation of plant biodiversity as a source of new products, such as medicines, has strategic importance for sustainable use. Plants have been selected for chemical studies and in vitro bioassays involving human cell cultures and parasites. The chemical studies have identified the presence of flavonoids, triterpenes, norneolignans, alkyl-phenols, and phenylethanoids glycosides mainly. Most of these compounds display moderate to weak activity in vitro; few present promising activity. Therefore, studies on crude extracts of new plant species should continue to contribute to chemical knowledge and chemosystematics, and some compounds deserve to be further investigated, so that their mechanism of action and activity in vivo can be established.
Stradivarius Crystal Clear
Tue04
Oct
18:15
Stradivarius Crystal Clear
Dr Kreso Bucar
18:15, Tuesday 4 October 2022
A luthier and chemist looks back at two centuries of investigations of violins made during the golden age of violin making in Cremona and explains the science behind the good vibrations of a Stradivarius.
Biomimetic Colour Engineering from Nature to Applications
Wed05
Oct
13:00
Biomimetic Colour Engineering from Nature to Applications
Prof Silvia Vignolini
13:00, Wednesday 5 October 2022
The most brilliant colours in nature are obtained by structuring transparent materials on the scale of the wavelength of visible light. By designing the dimensions of such nanostructures, it is possible to achieve extremely intense colourations over the entire visible spectrum without using pigments or colorants. Colour obtained through structure, namely structural colour, is widespread in the animal and plant kingdom [1]. Such natural photonic nanostructures are generally synthesised in ambient conditions using a limited range of biopolymers. Given these limitations, an amazing range of optical structures exists: from very ordered photonic structures [2], to partially disordered [3], to completely random ones [4].
In this seminar, I will introduce some striking example of natural photonic structures [2-4] and share some insight on their development. Then I will review our recent advances to fabricate bio-mimetic photonic structures using the same material as nature. Developing biomimetic structures with cellulose enables us to fabricate novel photonic materials using low cost polymers in ambient conditions [6-7]. Importantly, it also allows us to understand the biological processes at work during the growth of these structures in plants.
[1] Kinoshita, S. et al. (2008). Physics of structural colors. Rep. Prog. Phys. 71(7), 076401.
[2] Vignolini, S. et al. (2012). Pointillist structural color in Pollia fruit. PNAS 109, 15712-15716.
[3] Moyroud, E. et al. (2017). Disorder in convergent floral nanostructures enhances signalling to bees. Nature 550, 469.
[4] Burresi M. et al. (2014) Bright-White Beetle Scales Optimise Multiple Scattering of Light. Sci. Rep. 4, 727
[5] Parker R. et al. (2018) The Self-Assembly of Cellulose Nanocrystals: Hierarchical Design of Visual Appearance. Adv Mat 30, 1704477
[6] Parker R. et al. (2016). Hierarchical Self-Assembly of Cellulose Nanocrystals in a Confined Geometry. ACS Nano, 10 (9), 8443–8449
[7] Liang H-L. et al. (2018). Roll-to-roll fabrication of touch-responsive cellulose photonic laminates, Nat Com 9, 4632
Synthetic Sensory Physiology
Thu06
Oct
18:15
Synthetic Sensory Physiology
Prof Dirk Trauner
18:15, Thursday 6 October 2022
Dirk Trauner was born and raised in Linz, Austria, studied biology and chemistry at the University of Vienna, and received his Master’s degree in chemistry from the Free University, Berlin. He then pursued a Ph.D. in chemistry under the direction of Prof. Johann Mulzer, with whom he moved to the University of Frankfurt and then back to Vienna. Subsequently, he became a postdoctoral fellow with Prof. Samuel J. Danishefsky at the Memorial Sloan-Kettering Cancer Center. After two years in New York City, Dr. Trauner joined the Department of Chemistry at the University of California, Berkeley, where he rose through the ranks to become an Associate Professor of chemistry and a member of the Lawrence Berkeley National Laboratory. In the summer of 2008, he moved to the University of Munich, where he served as a Professor of Chemical Biology and Chemical Genetics. In March of 2017 he returned to the U.S. to become the Janice Cutler Chair of Chemistry at New York University. In the Summer of 2022, be became a Penn Integrates Knowledge Professor at the University of Pennsylvania with an appointment in the Perelman School of Medicine and in the Department of Chemistry. He is a member of the Leopoldina Academy of Sciences and the Austrian Academia of Sciences, and a recipient of the Otto Bayer Award, the Emil Fischer Medal, an ACS Cope Scholar Award, and a Sloan Fellowship.
The broad objective of Prof. Trauner’s research is to demonstrate the awesome power of chemical synthesis and to use it toward the precision control of biological pathways, especially in neuroscience.
How to Enable a Low Carbon and Sustainable Electric Revolution
Tue11
Oct
18:15
How to Enable a Low Carbon and Sustainable Electric Revolution
Sean Sargent
18:15, Tuesday 11 October 2022
Sean will provide an overview of a new process to refine battery-grade lithium salts for lithium-ion batteries. He will describe Green Lithium’s plans to decarbonise the process and employ circular economies to minimise the wastes produced and ensure sustainability. The process, developed by Green Lithium’s technology provider, uses an evolution of a traditional method employing pyrometallurgy and hydrometallurgy.
State of Play with Fusion Energy
Tue18
Oct
18:15
State of Play with Fusion Energy
Dr. Thomas Davis
18:15, Tuesday 18 October 2022
For sustainable, non-carbon dioxide emitting, long-term energy production, nuclear fusion energy is widely perceived to be the ultimate terrestrial energy source. Fusion energy is experiencing a rapid period of investment, innovation, and growth that has never been seen before. As of today, many governments are enabling and funding public fusion energy projects, such as the UK Atomic Energy Authority (UKAEA) whilst private fusion companies work towards commercialising fusion energy. Private fusion companies have received approximately $4.9 billion of private funding to date, with a high % invested in 2021 alone. The industry has been gaining momentum and this decade should yield milestone results to demonstrating fusion energy as a real source of energy. However, fusion energy environmental conditions for the structural and functional materials are extreme and still unsolved. This talk will discuss the latest commercial and technical developments (and challenges) in fusion energy from the perspective of a nuclear materials scientist.
Investigation into corrosion protection at the Port of Dover
Tue25
Oct
18:15
Investigation into corrosion protection at the Port of Dover
Dr. Aaron Berko
18:15, Tuesday 25 October 2022
Corrosion, an electrochemical process requiring oxygen and water is an expensive and common problem, it is estimated that it costs 3 - 4% of the world’s GDP for corrosion maintenance every year. It is an inevitable process that is extremely difficult to stop. It can, however, be slowed down as it is heavily contingent on the environment that the material undergoing corrosion is in.
Marine environments such as the Port of Dover which increase the wettability of iron or steel structures promote corrosion. This along with other local conditions at the Port exacerbates corrosion of steel assets.
Investigation into these conditions and the chemistry of corrosion revealed some interesting results which will be discussed in this presentation along with some protective measures that can be employed.
CO2 Utilization and Water Treatment Opportunities Enabled by Molecular Electrocatalysis
Thu27
Oct
18:15
CO2 Utilization and Water Treatment Opportunities Enabled by Molecular Electrocatalysis
Dr. Hailiang Wang
18:15, Thursday 27 October 2022
Transition to clean energy, mitigation of carbon emissions, and protection of water resources are critical challenges for the world. Solving these challenges requires precise control of many important chemical reactions with sluggish kinetics and myriad possible reaction pathways and associated products. There is a critical need for selective, active, durable and low-cost catalysts. This talk will present our research efforts aimed at bridging the gap between homogenous catalysis and heterogeneous catalysis to realize materials with new or improved electrocatalytic properties for the CO2 and nitrate reduction reactions. Combining molecule-nanocarbon hybridization and second-coordination-sphere tailoring, we discovered the first molecular electrocatalyst for CO2-to-methanol conversion in significant yield and stability. The reduction proceeds via formaldehyde, an intermediate potentially reactive to N nucleophiles. Following this path, we developed the first electrosynthesis of methylamine from CO2 and nitrate. This 15-proton 14-electron reduction reaction proceeds via an 8-step catalytic cascade with the spontaneous condensation reaction between the formaldehyde and hydroxylamine intermediates to form the C-N bond. Further, we advanced the chemistry to ethylamine formation and N-methylation reactions, opening the door for our electrocatalytic reactions to be used for organic synthesis using CO2/nitrate as a C1/N1 building block.
Labwork gone wild, taking hormone research from the bench to the great outdoors
Tue01
Nov
18:15
Labwork gone wild, taking hormone research from the bench to the great outdoors
Dr Kelly Robinson
18:15, Tuesday 1 November 2022
Studying how physiology responds to problems like pollution or disturbance are key for understanding individual health and survival, but doing this with wildlife species is challenging, especially if your study species spends most of its life underwater. With some ingenuity and perseverance, adapting laboratory techniques to unusual locations and tricky study species is possible and can yield great results. This talk will cover the ways we have been able to achieve this and my resulting work on hormones in wild marine mammals, which includes understanding bonding behaviour in mothers and offspring via oxytocin research and using tissue culture to uncover the problems exposure to persistent organic pollutants causes for energetic balance during key life history stages.
Biohybrid Approaches to Renewable Energy Conversion
Tue15
Nov
18:15
Biohybrid Approaches to Renewable Energy Conversion
Dr. Jenny Zhang
18:15, Tuesday 15 November 2022
Bioenergy, generated in the form of biomass and biofuels, makes up approximately 13% of the global energy market. The UK has ambitious plans to increase bioenergy production to delivery up to 21% of the nation’s energy needs in 2050 in an approach to curb carbon emissions. Currently, there are many limitations associated with the use of bioenergy as a renewable energy source - these include the inefficiency of its production, the air-polluting nature of its combustion and the added pressure on agricultural land-use. Scientists are taking a variety of approaches to address these problems, from bioengineering photosynthesis for higher efficiency, to re-designing photosynthesis completely using artificial materials to carry out energy conversion. This talk will briefly look at these, and then introduce a novel biohybrid approach that could blend the strengths of all these approaches.
Developing a Polyvalent Multifunctional Nanoparticle Strategy
Wed16
Nov
13:00
Developing a Polyvalent Multifunctional Nanoparticle Strategy
Prof. Dejian Zhou
13:00, Wednesday 16 November 2022
A great healthcare challenge facing the society today is to find solutions to some of the most devastating diseases, such as cancer, and bacterial and viral infections. This requires rapid and sensitive diagnostic tools as well as effective treatments. In this regard, we are pursuing a polyvalent multifunctional nanoparticle (PMN) strategy to exploit the power of multivalency (e.g. greatly enhanced affinity & specificity), surface chemistry, and functional nanoparticles to address this challenge. Here, I will talk about some of our recent work on developing glycan-PMNs as new tools for probing the structural & biophysical mechanisms of multivalent protein-glycan interactions and for potent blocking Ebola virus infection.1 I will also share our work on developing dual-/multi-ligand functionalised gold nanoclusters for antibacterial and anticancer applications.
A Tale of Two Stained Glasses
Thu17
Nov
18:15
A Tale of Two Stained Glasses
Dr. Laura Kaufman
18:15, Thursday 17 November 2022
It is commonly stated that stained glass windows in medieval cathedrals are thicker on the bottom than on the top because glass flows, albeit very slowly. Learn whether this is true and how my laboratory uses modern imaging technologies to “stain glass” and look at the behaviour of individual molecules within the glassy systems known as supercooled liquids. I will describe the unusual dynamics – termed spatially heterogeneous dynamics – present in these systems. Tracking the rotational motion of individual fluorescent probe molecules, we investigate the time scales over which these heterogeneous dynamics persist. Most recently, we undertook challenging experiments in which we monitored rotational and translational motions of single molecules to understand the origins of a puzzling phenomenon that suggests that molecules move slowly rotationally but quickly translationally in these supercooled systems.
Applying Science & Finance To Stop Climate Change
Tue22
Nov
18:15
Applying Science & Finance To Stop Climate Change
Prof. Michael Mainelli
18:15, Tuesday 22 November 2022
In 1997 at COP3 in Tokyo, the world agreed to use carbon pricing as the principal financial mechanism to avert climate change. According to the Economist, by the end of 2021 more than 21% of the world’s emissions were covered by some form of carbon pricing, up from 15% in 2020, with some 64 countries either having a carbon tax and/or an emissions trading system. A quarter of a century later, the COP3 agreement is making a difference. Yet, if you were to listen to the financial services industry itself, most recently at COP26 in Glasgow, the world will be saved by tracking environmental, social, and governance (ESG) indicators, with scarcely a mention of full carbon trading. How can it be that the financial services industry isn’t promoting a market-based solution?
Organisations are looking at how to score well in the ESG rankings but is ESG a driver for change? It is likely that ESG has a place in a number of areas, but one of them might not be emissions. Professor Michael Mainelli questions the use of ESG in reducing emissions and will use this session to explore ETS history, assess its promise, and probe its relevance to the City. He argues that financial services role is to bind with markets to help people make better decisions, trillions of small economic decisions on sustainability. Decisions based on hard financial transactions will aid market enforcement and supply chain tracking. He observes that traditional market drivers could be applied, e.g. competition, open data, better regulation, and voluntary standards markets.
In order to better unite financial markets and government policies, since 2005 he and his firm, Z/Yen, the City of London’s leading commercial think-tank, have successfully promoted the use of a complementary financial instrument, policy performance bonds (aka sustain for climate change purposes as sustainability-linked bonds). The policy performance bond market rose to US$110bn in 2021, and this year saw the first issuance of a sovereign bond, Chile’s US$2bn sustainability-linked bond in March 2022. Michael recommends that financial services should lobby for costed carbon and financial cuffs on government policy (policy performance bonds). The implication for financial services is a shift from lipstick on financial institutions to the straightforward incorporation of emissions costs in everyday decision-making across the economy, not just for investment analysts.
A Vegetarian Scientist (and can vegetarians eat coral?)
Tue03
Oct
18:15
A Vegetarian Scientist (and can vegetarians eat coral?)
Cally Haynes
18:15, Tuesday 3 October 2023
Scientific questions and ethical dilemmas I’ve encountered growing up as a life-long vegetarian, including: dissecting what vegetarians “can” eat; well-known vegetarian scientists; the science of plant-based meat-substitutes, and whether they really are a green alternative. This talk is not designed to preach, guilt-trip or convert the audience, but instead to share my own (occasionally humorous) experiences and perspective on where our (plant-based) food comes from.
Financial Wellbeing
Tue17
Oct
18:15
Financial Wellbeing
HSBC
18:15, Tuesday 17 October 2023
Experienced financial advisers from HSBC would be sharing advices on managing and growing wealth, starting our careers, first time buying home, retirement plans, and making the most with our money.
Wither The Pharmaceutical Industry?
Tue24
Oct
18:15
Wither The Pharmaceutical Industry?
David Lathbury
18:15, Tuesday 24 October 2023
Despite decades of success, there still remain large areas of unmet medical need. Many of the major causes of suffering e.g., acute inflammation, pain. Although it is common to look at these as predominantly scientific challenges, there are also some deep-seated issues with respect to the NPV (net present value) of drug projects. I will outline these challenges and offer some possible solutions but also suggest that the length of exclusivity is also something that needs to be debated.
Supercriticality: From Blue Fluid to Green Chemistry
Tue31
Oct
18:15
Supercriticality: From Blue Fluid to Green Chemistry
Sir Martyn Poliakoff
18:15, Tuesday 31 October 2023
This lecture describes how I became fascinated in supercritical fluids (SCFs), which are gases such as CO2, compressed until they are nearly as dense as liquids. SCFs display an unusual combination of some of the properties of gases and liquids. I explain how SCFs led me to work in Green Chemistry, developing cleaner, more sustainable ways of making chemicals and materials. I also show how chance played a big role in determining how things developed for me and led me to the interface of chemistry and engineering. I thank all of my students, coworkers, collaborators, technicians and collaborators, particularly Professor Mike George, for all of their help and support. I also that all of the organisations that have funded my research.
Commercialising and Scaling University Research from Bench to Product
Tue21
Nov
18:15
Commercialising and Scaling University Research from Bench to Product
Jon-Paul Griffiths
18:15, Tuesday 21 November 2023
The talk will highlight the opportunities and challenges with the commercialisation of early-stage University research from the lab bench through to products which are used in industry. The process of forming, financing and running a spin-out will be covered along with the practical aspects of progressing commercial R&D, product design and effective protection of intellectual property.
Space Propulsion – A Chemist’s Insight
Tue05
Dec
18:15
Space Propulsion – A Chemist’s Insight
Sam Wilson
18:15, Tuesday 5 December 2023
This talk will place a spotlight on in-space rocket propulsion, highlighting the exciting work that goes on at companies such as Airbus (Europe’s largest space company). The speaker will reflect on his own journey within propulsion R&D and outline some of the key challenges & technologies set to shape the next 10+ years. The talk aims to illustrate the important role chemists & chemistry play in this evolving field.