Implementing Biomimicry Thinking from fundamental R&D to creating nature-aligned organizations

Fecheyr Lippens, Daphne

29 September 2017

No description available.

Architecture

Sustainability

Biophysics

Environmental Engineering

Biomimicry

sustainable development

light modulation

avian eggshells

photodegradation

ultra-violet protection

waste management

architecture

building envelope

adaptive thermal comfort

Natural Perceptual Characteristics and Psychosocial Impacts of Touch Evoked by Peripheral Nerve Stimulation

Graczyk, Emily Lauren

31 May 2018

No description available.

Biomedical Engineering

Neurosciences

Rehabilitation

peripheral nerve stimulation

neuroprosthesis

artificial touch

neural coding

limb loss rehabilitation

tactile sensation

psychophysics

grounded theory

biomimicry

computational modeling

sensory adaptation

perception

psychosocial outcomes

HEDGEMON: A HEDGEHOG-INSPIRED HELMET LINER

Swift, Nathan Butler, IV

01 June 2016

No description available.

Biomechanics

Biophysics

Entrepreneurship

Mechanics

Physics

Sports Medicine

Biomimicry

impact testing

helmet liner

hedgehog spines

football

concussion

3D printing

rotational acceleration

linear acceleration

A Characterization of Seal Whisker Morphology and the Effects of Angle of Incidence on Wake Structure

Rinehart, Aidan Walker

January 2016

No description available.

Aerospace Engineering

Aquatic Sciences

Engineering

Fluid Dynamics

Mechanical Engineering

seal

whisker

PIV

biomimicry

fluid dynamics

particle image velocimetry

bio-engineering

engineering

mechanical engineering

aerospace engineering

experimental fluid dynamics

Évolution et civilisation : report des pressions sélectives, émancipation et ‘technosymbiose’ : de l’anthropologie de Charles Darwin à l’économie évolutionniste étendue / Evolution and civilization : displacement of selective pressures, emancipation and ‘technosymbiosis’ : from Charles Darwin’s anthropology to the extended evolutionary economics

Fournier, Gérald

10 November 2010

Le processus sélectif est-il nié, persistant ou dialectiquement réalisé dans la civilisation ? De ce problème, deux thèses générales se dégagent : (1) celle de l’épuisement de la sélection naturelle, la société humaine témoignant d’une véritable émancipation vitale et (2) celle d’un report des pressions de sélection, le système de contraintes sélectives demeurant effectif. En fait, cette interrogation se trouve esquissée dès l’« anthropologie » de Charles Darwin (1871), sujette encore à débats, notamment sur l’existence du darwinisme social de ce dernier, forme, justement, de report des pressions de sélection. Face à la thèse de l’incohérence doctrinale de cette « anthropologie », qui légitime malgré elle qu’on fasse tout dire de Darwin, on proposera une cohérence articulée autour du concept de sympathie et des effets combinés de la sélection, de la culture et de l’habitude. Ensuite, il s’agira de proposer une théorie de l’émancipation vitale, mêlant report des pressions de sélection et émancipation par procès ‘technosymbiotique’, néologisme au lien fort avec la cultural niche construction (Odling-Smee). Prendre la civilisation comme une niche écologique, la culture comme un paramètre, résoudra une bonne part des problèmes théoriques et de ce dualisme identitaire qu’on retrouve si souvent dans notre approche de l’homme et de sa société. La réflexion sur la civilisation nous conduira à nous interroger sur le biotope économique, comme marque essentielle et originale de notre niche écologique. Notre émancipation biologique côtoie ainsi le maintien du système de contrainte sélectionniste, dans un biotope, dès lors, de plus en plus biomimétique / Is the selective process irrelevant, does it persist, or is it dialectically achieved in civilization? Two general theses arise from this question: (1) either the progressive extinction of natural selection, human society thus witnessing a genuine vital emancipation or (2) the persistence of selection pressures, the system of selective constraints thus remaining effective. In fact, this question was outlined in 1871 with Charles Darwin’s “anthropology”; his anthropology and notably his social Darwinism, a form of displacement of selection pressures continue to be debated today. Confronted with the thesis of the doctrinal inconsistency of this “anthropology” which allows Darwin’s words to be interpreted at will, we shall put forward a form of coherence based on the concept of sympathy and the combined effects of selection, culture and habits. We shall then put forward a theory of vital emancipation that combines the persistence of selection pressures and emancipation via a technosymbiotic process, a neologism similar to cultural niche construction (Odling-Smee). Considering civilization as an ecological niche and culture as a parameter will solve most theoretical problems, notably related to the identity dualism associated with a conventional approach to man and society. Our reflection on civilization will lead us to focus on and investigate into the economic biotope understood as an essential and specific feature of our ecological niche. Following this approach, man’s biological emancipation coexists with a system of selectionist constraint in a biotope that is, as a consequence, increasingly biomimetic

Anthropologie de Charles Darwin

Darwinisme social

Sélection naturelle

Construction de niche

Espèce ingénieure

Émancipation vitale

Biomimétisme

Économie évolutionniste étendue

Charles Darwin’s anthropology

Social Darwinism

Natural selection

Niche construction

Engineer species

Vital emancipation

Biomimicry

Extended evolutionary economics

501

Analyzing the Interconnectedness Between Space, Place, and Human Interaction with the Natural Environment: "Ecological Reawakening: Organic DNA and Evolution"

Moos, Sarah

24 April 2009

I have organized this paper into four chapters: "The Environmental Situation," "Space and Place," "Art and the Natural Environment," and "Creating Work of My Own." Chapter 1 explains human beings' intrinsic interconnection to the natural environment, outlining why humans should be concerned about the current degraded state of the natural world. Chapter 2 discusses the concepts of space and place. It analyzes how human beings interact with and experience spaces, developing their sense of place - within physical, theoretical, and spiritual realms. It finally illustrates the importance that spaces and places have in humans' lives. Chapter 3 describes the Land Art phenomenon: its development, the different forms within it, and artists producing Land Artworks. The forms and artists included are those that have been inspirational for the development of my own work. It also emphasizes Land Art as a fundamental form for improving humans' relationship with the natural environment and the new realm of eco-feminism that resonates with Land Art ideals. Chapter 4 recounts the development of my art throughout my college career. It describes my work as site-specific, sculptural installations that use natural materials. It also states why this format is the most effective for my senior art thesis project. Focusing mainly on "Ecological Reawakening: organic DNA," it explains the mentality in designing, creating, installing, and completing the work. Overall, Chapter 4 emphasizes the work's two main goals: to demonstrate a new avenue for comprehending humankind's place within earth's environmental spaces, and to advocate for an environmental paradigm shift during the twenty-first century. Finally, Chapter 5 describes the transformation of "Ecological Reawakening: organic DNA" as it developed over time during the spring honors senior thesis course. It details my mentalities in adding living plant matter to the structure, incorporating a stool into the piece, and creating "Evolution," the digital photography composition that documents "Ecological Reawakening" and was included in the Scripps Senior Art Exhibition in the Ruth Chandler Williamson Gallery from May 1 – May 17, 2009.

Environmental analysis

Phenomenology

Space

Place

Natural environment

Land art

Ecological art

Earthworks

Installations (Art)-United States

Site-specific

Sculpture

Organic

All-natural

Plant matter

DNA

Biomimicry

Art and Design

Arts and Humanities

Biology, general

Modelling and controlling a bio-inspired flapping-wing micro aerial vehicle

Smith, David Everett

17 January 2012

The objective of this research is to verify the three degree of freedom capabilities of a bio-inspired quad flapping-wing micro aerial vehicle in simulation and in hardware. The simulation employs a nonlinear plant model and input-output feedback linearization controller to verify the three degree of freedom capabilities of the vehicle. The hardware is a carbon fiber test bench with four flapping wings and an embedded avionics system which is controlled via a PD linear controller. Verification of the three degree of freedom capabilities of the quad flapping-wing concept is achieved by analyzing the response of both the simulation and test bench to pitch, roll, and yaw attitude commands.

Simulation

Input-output linearization

Unmanned aerial vehicle

Micro aerial vehicle

Degree of freedom

Mav

Uav

PID

Flapping wing

Linear control

Feedback linearization

Nonlinear control

Biomimicry

Airplanes Wings

Micro air vehicles

Oscillating wings (Aerodynamics)

Développement d’un microréacteur biomimétique pour l'analyse in situ d'activités enzymatiques par couplage de l’électrochimie et de la microscopie de fluorescence / Development of a single biomimetic microreactor for enzymatic activities in situ analyzes by coupling electrochemistry and fluorescence microscopy

Lefrançois, Pauline

30 November 2017

De nombreuses réactions enzymatiques sont à l’origine de processus physiologiques au sein des organismes vivants. Ces réactions sont basées sur des transferts de protons et d’électrons et con-duisent souvent à la production d’espèces secondaires. Parmi elles, les espèces réactives de l’oxygène et de l’azote (ROS, RNS) présentent un intérêt particulier puisqu’elles jouent un double rôle : d’une part en permettant à l’organisme de réagir à un stress par l’activation de voie de signalisation redox, et d’autre part ces ROS et RNS peuvent causer des dommages tissulaires et être à l’origine de dys-fonctionnement (stress oxydant) au sein de l’organisme. La haute réactivité de ces espèces induit leurs faibles durées de vie (ns-min) et rend l’étude de certaines réactions enzymatiques difficiles en solu-tion. Ce projet de thèse a pour objectif de développer un microréacteur biomimétique pour l’étude d’activités enzymatiques produisant des ROS/RNS. En effet, en confinant une réaction au sein d’un compartiment de taille équivalente à celle d’une cellule (20-100 μm de diamètre), les espèces générées (H2O2, NO•, NO2-) doivent pouvoir être sondées in situ avec une résolution cinétique et quantitative. Des vésicules unilamellaires géantes sont formées en conditions physiologiques et servent de micro-réacteurs pour l’analyse des activités enzymatiques de la glucose oxydase et des NO-synthases. La microscopie de fluorescence permet l’observation des vésicules et le suivi du déclenchement de la réaction assuré par microinjection. Les espèces produites sont ensuite détectées en temps réel par électrochimie afin de déchiffrer à terme les différentes voies enzymatiques des NO-Synthases. / Enzymatic reactions are involved in many physiological phenomena in living organisms. These reactions are based on protons and electrons transfers and can lead to the production of by-products. Among them, reactive oxygen and nitrogen species (ROS and RNS) are of great interest as they play a double role: on the one hand by allowing the organism to react to a stress by the activation of signaling redox pathways, and on the other hand, ROS and RNS can cause oxidative damages to tissues ensuing dysfunctions in the organism. The high reactivity of such species induce their short lifetimes (ns-min) and leads to uncertainties when it comes to the study of some enzymatic reactions in bulk. This PhD project aims to develop a biomimetic microreactor for the study of enzymatic ac-tivities producing ROS/RNS. Indeed, by confining a reaction within a cell-sized compartment (20-100 μm diameter), the generated species (H2O2, NO•, NO2-) could be analyzed in situ with a quantita-tive and kinetic resolution. Giant unilamellar vesicles are formed in physiological conditions and are used as microreactors for the monitoring of enzymatic activities of glucose oxidase and NO-synthases. Fluorescence microscopy allows individual vesicle observation and the monitoring of reactions trig-gered by microinjection. Then, released species are detected in real-time by electrochemistry in order to decipher the diverse enzymatic pathways of NO-Synthases.

Liposomes

Biomimétisme

Enzymes

Glucose oxydase

NO-Synthase

Peroxyde d’hydrogène

Monoxyde d’azote

Liposomes

Biomimicry

Enzymes

Glucose oxidase

NO-Synthase

Reactive Ox-ygen and Nitrogen Species

Hydrogen peroxide

Nitric oxide

Microlentilles et micro-miroirs en cristal liquide cholestérique / Cholesteric liquid-crystalline microlenses and micro-mirrors

Bayon, Chloé

12 October 2015

La structure moléculaire d'un cristal liquide cholestérique (CLC) est hélicoïdale et donne lieu à des propriétés optiques remarquables comme la réflexion sélective de la lumière. La structure cholestérique soulève des questions fondamentales comme la relation entre chiralités moléculaire et mésoscopique, et son impact sur les propriétés optiques. Elle est omniprésente en biologie (organisation de la chitine, de la cellulose, du collagène ou de la chromatine). Elle est aussi utilisée en technologie : en cosmétologie, dans les afficheurs nématiques super-torsadés, les écrans réflecteurs, les capteurs de température ou pression, les matériaux pour les applications photoniques en général. Le but du présent travail est de décrire et comprendre l'interaction de la lumière avec différents types de structures hélicoïdales non-monotones élaborées dans cette thèse - films cholestériques synthétiques (monocomposant ou hybrides i.e. dopés en nanoparticules d'or) - ou dans un matériau biologique (carapace du scarabée Chrysina gloriosa). Différentes techniques de caractérisation optique ont été utilisées suivant le matériau à étudier et les questions posées. La partie principale du manuscrit est dédiée aux microlentilles et micro-miroirs cholestériques. Nous avons étudié la texture polygonale cholestérique et mis en évidence qu'elle se comporte comme un réseau de microlentilles chirales à l'aide de la microscopie confocale couplée à la spectrophotométrie. Ces microlentilles organiques, élaborées en deux étapes par auto-assemblage, ont la particularité d'être sélectives en longueur d'onde. Nous avons ensuite montré que la texture polygonale de la carapace de Chrysina gloriosa, analogue biologique, est un réseau de micro-miroirs sphériques et de microlentilles convergentes. La seconde partie du manuscrit est consacrée à l'élaboration de matériaux hybrides CLC et nanoparticules d'or et à l'étude de leurs propriétés optiques. Les propriétés optiques de ces nanocomposites ont été sondées à l'aide de différentes techniques (résonance plasmon, spectrométrie Raman etc). / The molecular structure of a cholesteric liquid crystal (CLC) is helical and gives rise to outstanding optical properties like the selective reflection of the light. Cholesteric structure raises fundamental questions such as the relationship between molecular chirality and mesoscopic chirality, and its impact on optical properties. It is omnipresent in biology (organisation of chitin, cellulose, collagen or chromatin). It is also used in technology: cosmetology, super-twisted nematic displays, reflective screens, temperature or pressure sensors, materials for photonic applications in general. The purpose of this work is to describe and understand the interaction of light with different types of non-monotonous helical structures elaborated in this thesis - synthetic cholesteric films (single-component or hybrid i.e. doped with gold nanoparticles) - or in a biological material (Chrysina gloriosa beetle). Several optical characterisation techniques have been used, depending on the sample to study and the questions which are rised. The main part of the manuscript is dedicated to cholesteric microlenses and micro-mirrors. We studied the cholesteric polygonal texture and highlighted that it acts as a chiral microlens array by using confocal microscopy coupled to spectrophotometry. These organic microlenses, developed in a two-step process by self-assembly, have the specificity of being wavelength-selective. We then showed that the polygonal texture of Chrysina gloriosa, as a biological analogous, is an array of spherical micro-mirrors and convergent microlenses. The second part of the manuscript is devoted to the elaboration of hybrid materials composed of CLC and gold nanoparticules and the study of their optical properties. Optical properties of these nanocomposites were probed using various techniques (plasmon resonance, Raman spectroscopy etc).

Cristal liquide cholestérique

Chiralité

Microlentilles

Micro-miroirs

Biomimétisme

Scarabée

Nanoparticules d'or

Propriétés optiques

Microscopie optique

Microscopie électronique

Cholesteric liquid crystal

Chirality

Microlenses

Micro-mirrors

Biomimicry

Beetle

Gold nanoparticles

Optical properties

Optical microscopy

Electron microscopy

AN UNDERSTANDING OF MUSSEL ADHESION TO INFLUENCE MATERIALS DEVELOPMENT

Samuel L Huntington (8983913)

12 October 2021

<p>The development of new materials has been inspired by lessons learned from natural systems. In the area of underwater adhesion and adhesives, inspiration has come from the complex protein adhesives generated by marine organism such as barnacle and mussels. These protein systems have a high incorporation of a unique amino acid, dihydroxyphenylalanine, and provides the unique adhesive qualities synthetic systems strive to emulate.</p> <p>By understanding how marine mussels stick to a variety of surfaces, new strategies can be explored for preventing the adhesion of biological organisms to various substrates. A continuous concern for marine vessels is the detrimental impact caused by biofouling on the hull of the ship. Fuel consumption can increase as the vessel’s drag increasing fuel consumption and non-native species can be introduced into new environments. Taking inspiration from catechol curing, new oxidative surfaces were investigated as potential antifouling coatings.</p> <p>Further insight into the marine mussels ability to apply and cure its adhesive on a variety of substrate has also inspired various synthetic polymers. The catechol moiety can be incorporated into a polymer backbone to give a new solvent based adhesive. Further investigation of the poly(styrene-co-(3,4-dihydroxystyrene)) adhesive system was done to formulate an underwater adhesive for unique use cases. A terpolymer was also explored as an ideal adhesive taking inspiration from the mussels by incorporating flexible, stiff, and sticky components to give a tunable adhesive.</p> <p>Having a strong bonding synthetic adhesive that can be used on a laboratory scale is good for academic investigation, but not of use outside the lab if it cannot easily be produced on a commercial scale. With the goal of large scale synthesis, a new polymerization method was introduced addressing some of the issues currently preventing commercial scale production.</p><br>

Bioinorganic Chemistry

Chemical Characterisation of Materials

Polymerisation Mechanisms

Industrial Chemistry

Underwater Adhesion

Underwater Adhesive

bio-inspired materials

Biomimicry

Synthetic Polymers

Formulation

Mussel Adhesion

Catechol Groups