Robert MacKenzie

Robert MacKenzie

Zürich, Zürich, Schweiz
3057 Follower:innen 500+ Kontakte

Info

I build world-changing products by building even greater organizations. The key theme of…

Artikel von Robert MacKenzie

Beiträge

Aktivitäten

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Berufserfahrung

  • ANYbotics Grafik

    ANYbotics

    Zurich, Switzerland

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    Zurich, Switzerland

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    Zürich Area, Switzerland

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    Zürich Area, Switzerland

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    Zurich, Switzerland

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    Berlin

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    Berlin Area, Germany

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    Zurich, Switzerland

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    Stuttgart Area, Germany

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    Bonn Area, Germany

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    Freiburg Area, Germany

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    Karlsruhe Area, Germany

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    Stuttgart Area, Germany

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    Raleigh-Durham, North Carolina Area

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    Toronto, Canada Area

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    Toronto, Canada Area

Ausbildung

  • ETH Zürich Grafik

    Eidgenössische Technische Hochschule Zürich

    3.5-year doctoral research and coordinated work into (bio)nanotechnology, nanoelectronics, biosensing and the integration of nanotechnology into medical devices, resulting in 9 publications, several patent applications, 1 registered patent. The dynamic nature of the work is emphasized by the coordination of 10 master and bachelor student projects, international speaking at conferences and ETH Spin-Off approval for the creating a company.

  • Activities and Societies: International Department, AIESEC

    M.A.Sc. - a two-year program, under a full academic scholarship worth 20 000€, completed with a Master Project at the Fraunhofer Institute IPM in Freiburg and the development of an interferometric optical biosensor.

  • Activities and Societies: National Engineering Challenge, AIESEC

    Top honours in a 4-year engineering program with integrated international and professional and fully-paid internship program

Bescheinigungen und Zertifikate

Ehrenamt

  • AIESEC Grafik

    International Facilitator, Coach, Conference Chairman

    AIESEC

    3 Jahre 9 Monate

    Human Rights

    Before professionally leading AIESEC in Germany as an elected member of the National Executive Board, I was active in the international leadership development and intercultural skill development of students worldwide:
    - Seminar & workshop design and delivery at over 80 conferences or events worldwide
    - Establishment of Train-the-Trainer programs in multiple countries
    - Leadership, team-building and coordination of all conference teams together with the role of main speaker and…

    Before professionally leading AIESEC in Germany as an elected member of the National Executive Board, I was active in the international leadership development and intercultural skill development of students worldwide:
    - Seminar & workshop design and delivery at over 80 conferences or events worldwide
    - Establishment of Train-the-Trainer programs in multiple countries
    - Leadership, team-building and coordination of all conference teams together with the role of main speaker and conference moderator of over 15 international conferences
    - Supporting the establishment of AIESEC in multiple countries, including China & Afghanistan

Veröffentlichungen

  • Vessel sealing device with nano-coating significantly reduces heat spread for neurovascular bundle preparation

    The Journal of Urology

    Vessel Sealing Devices (VSD) offer the advantage of less hemorrhage and shorter operation times. The blood vessel sealing is achieved through the application of bipolar high-frequency current and simultaneous compression of the tissue. However, the use of cautery instruments in the vicinity of sensitive structures may be of concern due to lateral temperature spread with potential damage to the neurovascular bundle resulting in poor continence and potency rates. To reduce this harm to…

    Vessel Sealing Devices (VSD) offer the advantage of less hemorrhage and shorter operation times. The blood vessel sealing is achieved through the application of bipolar high-frequency current and simultaneous compression of the tissue. However, the use of cautery instruments in the vicinity of sensitive structures may be of concern due to lateral temperature spread with potential damage to the neurovascular bundle resulting in poor continence and potency rates. To reduce this harm to surrounding tissue, we developed a coating with phase change material for the VSD (Ligasure) and investigated the reduction of lateral heat spread in an in vitro model.

    The Journal of Urology , Volume 189 , Issue 4 , e279

    Veröffentlichung anzeigen
  • Simultaneous electrical and plasmonic monitoring of potential induced ion adsorption on metal nanowire arrays

    Nanoscale

    Simultaneous LSPR and electronic sensing of potential induced ion adsorption onto gold nanowire arrays is presented. The formation of a Stern layer upon applying an electrochemical potential generated a complex optical response. Simulation of a lossy atomic layer on the nanowire array using the Multiple Multipole Program (MMP) corresponded very well to the experimentally observed peak position, intensity, and radius of curvature changes. Additionally, a significant voltage-dependent change in…

    Simultaneous LSPR and electronic sensing of potential induced ion adsorption onto gold nanowire arrays is presented. The formation of a Stern layer upon applying an electrochemical potential generated a complex optical response. Simulation of a lossy atomic layer on the nanowire array using the Multiple Multipole Program (MMP) corresponded very well to the experimentally observed peak position, intensity, and radius of curvature changes. Additionally, a significant voltage-dependent change in the resistance of the gold nanowire array was observed during the controlled formation of the electrical double layer. The results demonstrated that an applied electrochemical potential induces measurable changes in the optical and electrical properties of the gold nanowire surface. This is the first demonstration of combined plasmonic and nanowire resistance-based sensing of a surface process in the literature.

    Andere Autor:innen
    Veröffentlichung anzeigen
  • Controlled In Situ Nanoscale Enhancement of Gold Nanowire Arrays with Plasmonics

    Nanotechnology

    The controlled in situ growth of ordered gold nanoparticles and nanowire arrays has been studied by optically tracking changes in the local surface plasmon resonance (LSPR) spectrum. A spectrometer and custom-programmed analysis software track changes in the LSPR spectrum. The peak position, peak height (i.e. extinction intensity) and peak width (e.g. radius of curvature) were tracked over time to quantify the dynamic growth of gold as soon as the system was exposed to a commercial gold…

    The controlled in situ growth of ordered gold nanoparticles and nanowire arrays has been studied by optically tracking changes in the local surface plasmon resonance (LSPR) spectrum. A spectrometer and custom-programmed analysis software track changes in the LSPR spectrum. The peak position, peak height (i.e. extinction intensity) and peak width (e.g. radius of curvature) were tracked over time to quantify the dynamic growth of gold as soon as the system was exposed to a commercial gold enhancement solution. This enables the controlled dynamic growth of nano-objects without the necessity of characterizing the growth and aggregation kinetics of the gold enhancement solution. The result was the successful enhancement of their electrically conductive and plasmonic properties, as well as the controlled growth and transformation of line-patterned nanoparticles into conductive particle-based nanowires.

    Andere Autor:innen
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  • Optical Sensing with Simultaneous Electrochemical Control in Metal Nanowire Arrays

    Sensors

    This work explores the alternative use of noble metal nanowire systems in large-scale array configurations to exploit both the nanowires’ conductive nature and localized surface plasmon resonance (LSPR). The first known nanowire-based system has been constructed, with which optical signals are influenced by the simultaneous application of electrochemical potentials. Optical characterization of nanowire arrays was performed by measuring the bulk refractive index sensitivity and the limit of…

    This work explores the alternative use of noble metal nanowire systems in large-scale array configurations to exploit both the nanowires’ conductive nature and localized surface plasmon resonance (LSPR). The first known nanowire-based system has been constructed, with which optical signals are influenced by the simultaneous application of electrochemical potentials. Optical characterization of nanowire arrays was performed by measuring the bulk refractive index sensitivity and the limit of detection. The formation of an electrical double layer was controlled in NaCl solutions to study the effect of local refractive index changes on the spectral response. Resonance peak shifts of over 4 nm, a bulk refractive index sensitivity up to 115 nm/RIU and a limit of detection as low as 4.5 × 10−4 RIU were obtained for gold nanowire arrays. Simulations with the Multiple Multipole Program (MMP) confirm such bulk refractive index sensitivities. Initial experiments demonstrated successful optical biosensing using a novel form of particle-based nanowire arrays. In addition, the formation of an ionic layer (Stern-layer) upon applying an electrochemical potential was also monitored by the shift of the plasmon resonance.

    Andere Autor:innen
    Veröffentlichung anzeigen
  • Nanowires and Ordered Nanosystems for Simultaneous Optical and Electrochemical Sensing

    ETH Zürich

    The quantification of biological or biochemical processes is of great importance for medical,
    biological and biotechnological applications. However, converting the biological information via an
    electrical, optical or mechanical transducer to an easily processable electronic signal is challenging.
    This is due in part to the difficulty to bring biological and/or electrochemical environments into
    direct connection with the sensing element. The size and special physical properties (e.g.…

    The quantification of biological or biochemical processes is of great importance for medical,
    biological and biotechnological applications. However, converting the biological information via an
    electrical, optical or mechanical transducer to an easily processable electronic signal is challenging.
    This is due in part to the difficulty to bring biological and/or electrochemical environments into
    direct connection with the sensing element. The size and special physical properties (e.g. quantum
    conductance, plasmon resonance, etc.) of near-atomic and molecular nano-objects and complex
    nanostructures (e.g. nanowires) makes them capable candidates to overcome this challenge. The
    work of this thesis explores the fabrication, characterization and novel use of noble metal nanowire
    systems in large-scale array configurations. Both the conductive nature of nanowires and their
    favourable response to localized surface plasmon resonance (LSPR) is exploited for biosensing &
    electrochemical sensing applications ...

    Veröffentlichung anzeigen
  • Nanowire Development and Characterization for Applications in Biosensing

    Springer

    A nanowire is an extremely thin wire with a diameter on the order of a few nanometers and with lengths orders of magnitude larger than its diameter. The physical properties of nanowires at this scale are expected to deviate significantly from the bulk metal, due to confinement and surface effects. For example, the electrical conductivity of the wires changes considerably, due to the drastic increase in the surface-to-volume ratio, which can be exploited for sensing. Mechanical properties, such…

    A nanowire is an extremely thin wire with a diameter on the order of a few nanometers and with lengths orders of magnitude larger than its diameter. The physical properties of nanowires at this scale are expected to deviate significantly from the bulk metal, due to confinement and surface effects. For example, the electrical conductivity of the wires changes considerably, due to the drastic increase in the surface-to-volume ratio, which can be exploited for sensing. Mechanical properties, such as the yield strength, are important parameters that need to be characterized for applications like flexible circuits. In order to study the nanowire properties one needs to arrange them on a surface in a controlled way.

    Veröffentlichung anzeigen
  • Large area arrays of metal nanowires

    Microelectronic Engineering

    We present novel modified lift-off processes for the fabrication of large-area, uniform metal nanowire arrays. In all processes, dense line arrays with periods in the 50–100 nm range were obtained in photoresist films with Extreme Ultraviolet Interference Lithography (EUV-IL). The critical problem of preparing lift-off masks with a negative resist profile is solved by the use of either a bilayer resist stack of HSQ/PMMA or deposition of a metal layer at oblique angles on top of the patterned…

    We present novel modified lift-off processes for the fabrication of large-area, uniform metal nanowire arrays. In all processes, dense line arrays with periods in the 50–100 nm range were obtained in photoresist films with Extreme Ultraviolet Interference Lithography (EUV-IL). The critical problem of preparing lift-off masks with a negative resist profile is solved by the use of either a bilayer resist stack of HSQ/PMMA or deposition of a metal layer at oblique angles on top of the patterned resist lines. As an added benefit, the metal deposition step enables fine-tuning of the width of the nanowires. Using the developed processes, Au and Cr nanowires with 8 nm–70 nm linewidth were obtained.

    Andere Autor:innen
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  • Electrochemical Biosensors - Sensor Principles and Architectures

    Sensors

    Quantification of biological or biochemical processes are of utmost importance for medical, biological and biotechnological applications. However, converting the biological information to an easily processed electronic signal is challenging due to the complexity of connecting an electronic device directly to a biological environment. Electrochemical biosensors provide an attractive means to analyze the content of a biological sample due to the direct conversion of a biological event to an…

    Quantification of biological or biochemical processes are of utmost importance for medical, biological and biotechnological applications. However, converting the biological information to an easily processed electronic signal is challenging due to the complexity of connecting an electronic device directly to a biological environment. Electrochemical biosensors provide an attractive means to analyze the content of a biological sample due to the direct conversion of a biological event to an electronic signal. Over the past decades several sensing concepts and related devices have been developed. In this review, the most common traditional techniques along with selected promising novel approaches are presented.

    Veröffentlichung anzeigen
  • Limiting Thermal Injury from Electrosurgical Devices with a Phase Change Coating

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    Electrosurgical (ES) devices, such as bipolar vessel-sealing devices, have advantages in surgery, including ease of handling, shorter operating time and reduced hemorrhage. However, the current-induced heat from the procedure results in temperatures high enough to cause unintended thermal injuries in surrounding tissue, which can result in tissue necrosis and/or damage to nerve cells. In previous studies the extent of lateral thermal spread was investigated using a reproducible in vitro model…

    Electrosurgical (ES) devices, such as bipolar vessel-sealing devices, have advantages in surgery, including ease of handling, shorter operating time and reduced hemorrhage. However, the current-induced heat from the procedure results in temperatures high enough to cause unintended thermal injuries in surrounding tissue, which can result in tissue necrosis and/or damage to nerve cells. In previous studies the extent of lateral thermal spread was investigated using a reproducible in vitro model for the standardized assessment of ES devices. Using this model it was the main objective of this study to demonstrate the effectiveness of a thermoactive coating as a method to limit thermal spread and to reduce unintended thermal injuries from ES devices. Excess energy, which would otherwise spread through the tissue, is absorbed at the ES device - tissue interface into the coating. The coating is comprised of two phase change materials (PCM) lauric acid and palmitic acid imbedded in a biocompatible Polydimethylsiloxane (PDMS) substrate. Thermal spread and thermal injury in bovine muscle strips were measured using an infrared camera, temperature probes, histology and molecular assays. While uncoated devices showed a significant lateral thermal spread of 2.3 mm, the lateral thermal spread of coated devices was reduced to 1.4 mm. Histology results confirmed a corresponding reduction in collateral tissue damage. The integration of this technology could increase ES device performance and enable surgeons to better prevent collateral tissue damage, while justifying the use of ES devices in more sensitive surgical procedures.

Patente

Kurse

  • 3D Printing

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Projekte

  • Holmes' Journey in Switzerland

    Dr. Watson and the world thought that Sherlock Holmes fell to his death while fighting his arch enemy Prof. Moriarty on the ridge of the Reichenbach Falls in Switzerland on May 4th 1891. Before this infamous date Sherlock Holmes and Dr. Watson travelled and hiked for a week in Switzerland, from Geneva to Meiringen, along lakes, through valleys and over the Alps.

    This year marks the 125th anniversary of this fictional, yet famous event. Holmes’ week in Switzerland is often overshadowed by…

    Dr. Watson and the world thought that Sherlock Holmes fell to his death while fighting his arch enemy Prof. Moriarty on the ridge of the Reichenbach Falls in Switzerland on May 4th 1891. Before this infamous date Sherlock Holmes and Dr. Watson travelled and hiked for a week in Switzerland, from Geneva to Meiringen, along lakes, through valleys and over the Alps.

    This year marks the 125th anniversary of this fictional, yet famous event. Holmes’ week in Switzerland is often overshadowed by his death scene and remains unknown to many readers of Sherlock Holmes. So, we traveled and retraced the steps of Sherlock Holmes in Switzerland, captured what he may have seen and experienced and shared the resulting short film with all Sherlock Holmes fans.

    Imagine being able to see and experience scenic lake and mountain views, visit vineyards, relax in a 19th century spa, visit homely Alpine villages and cross the snow-covered alps by foot via lonely mountain passes, just like Holmes and Watson. We did exactly this, remaining as true to the story as possible, using the deductive logic and clues in the novels to choose locations.

    Our journey from April 28th 2016 (Geneva) to Meiringen on May 3rd followed the day-to-day events of the book. On May 4th, visited the Reichenbach Falls by foot, capturing the ledge where Holmes hid after vanquishing Prof. Moriarty, not falling to his death, and in homage to their original intent, continued to hike to the Rosenlaui to end our journey.

    With an exciting mix of history with fiction, culture, adventure and nature, we hope to enable Sherlock Holmes fans to experience the story on a deeper imaginative level, while simultaneously capturing and transmitting the magic of Switzerland, creating a comparison of selected locations and how they have changed, if at all, between 1891 and today.

    A parallel crowdfunding campaign ended on May 4th, 2016 enabled us to integrate our followers and to finance the film-creation process.

    Projekt anzeigen
  • Human Rights DiploHack

    The Human Rights DIPLOHACK is a hackathon where hackers, human rights activists, and diplomats join forces to work on issues that concern millions of people around the world. Over a 48-hour period, participants from all over Europe and beyond will gather in Geneva to experiment and innovate on projects on challenges presented by the Office of the High Commissioner for Human Rights that directly impact people’s lives.

    The results were presented to the Human Rights Council on February 29th…

    The Human Rights DIPLOHACK is a hackathon where hackers, human rights activists, and diplomats join forces to work on issues that concern millions of people around the world. Over a 48-hour period, participants from all over Europe and beyond will gather in Geneva to experiment and innovate on projects on challenges presented by the Office of the High Commissioner for Human Rights that directly impact people’s lives.

    The results were presented to the Human Rights Council on February 29th 2016. I was proud to be selected to speak to the Human Rights Council about our team's solution and to meet the Minister of Foreign Affairs of the Netherlands.

    http://www.diplohack.org/geneva-diplohack-for-human-rights.html

    Projekt anzeigen
  • International Leadership Development Seminar 2004

    Main project and content coordinator of the international leadership conference NaLDS, a 10-day facilitated experience exploring personal leadership with over 150 participants from over 30 nations and selected professional speakers.

Auszeichnungen/Preise

  • VR ENABLEMENT OF FULLY ONLINE BIOLOGY UNDERGRADUATE DEGREES

    Reimagine Education

    https://www.reimagine-education.com/vr-ar/

    Labster has worked constantly to grow its product since the company’s inception in 2012 with the end aim of opening up the potential for experiential, outcome-driven education to a wider student audience. Boundaries to allowing distance learning of methodologies and scientific techniques have been removed by Labster with the development of 30 fully VR enabled simulations specifically for Biology undergraduate courses. For the first time, a fully…

    https://www.reimagine-education.com/vr-ar/

    Labster has worked constantly to grow its product since the company’s inception in 2012 with the end aim of opening up the potential for experiential, outcome-driven education to a wider student audience. Boundaries to allowing distance learning of methodologies and scientific techniques have been removed by Labster with the development of 30 fully VR enabled simulations specifically for Biology undergraduate courses. For the first time, a fully online undergraduate degree is being delivered with practical laboratory experience, learning of laboratory methods and techniques, the opportunity for experimentation and practice of skills all being achieved in the virtual environment.

  • "People's Choice" for Best Product Design

    Index Design Award

    https://designtoimprovelife.dk/labster-2017-peoples-choice-winner/

  • Overall Winner: In the future everyone can build their own 3D virtual high-tech laboratory for laptops, tablets and in virtual reality

    Reimagine Education

    https://content.qs.com/re2016/new_REIMAGINE_EDUCATION_AWARDS_BOOKLET.pdf

    Labster provides virtual lab simulations used for scientific experiments that are too costly, difficult, or
    dangerous to perform in physical labs, showing an increase in learning outcomes and self-efficacy for
    participant students. Their partners include more than 120 educational institutions, with 6 of the world’s
    10 most renowned universities among them.

  • UX Design Award

    International Design Center Berlin (IDZ)

    Jury Statement
    "Using concepts of gamification, Valedo has effectively transformed the traditionally unappealing themes of health care and physical therapy into an engaging and playful form of entertainment. Interactive games and easily mounted, wearable sensors encourage deliberate and slow movements that are aimed at optimal health."

    Valedo®
    Valedo is the first personal digital back coach for guided exercising of the lower back. The certified consumer medical device introduces an…

    Jury Statement
    "Using concepts of gamification, Valedo has effectively transformed the traditionally unappealing themes of health care and physical therapy into an engaging and playful form of entertainment. Interactive games and easily mounted, wearable sensors encourage deliberate and slow movements that are aimed at optimal health."

    Valedo®
    Valedo is the first personal digital back coach for guided exercising of the lower back. The certified consumer medical device introduces an innovative, self-guided therapy that can help people around the world to better deal and treat low back pain. The purpose-driven wearable technology features sophisticated, yet intuitive software. Valedo transforms therapeutic exercises developed by medical experts and therapists into fun, interactive games.

  • Medical Design Excellence Award - Bronze

    MDEA Team UBM Canon

    Valedo has been selected as the Bronze Winner in the General Hospital Devices and Therapeutic Products category of the 18th Annual Medical Design Excellence Awards competition.

    The MDEA are the medtech industry’s premier design competition committed to searching worldwide for the highest caliber finished medical devices, products, systems, or packaging available on the market. The awards program celebrates the achievements of the medical device manufacturers, their suppliers, and the…

    Valedo has been selected as the Bronze Winner in the General Hospital Devices and Therapeutic Products category of the 18th Annual Medical Design Excellence Awards competition.

    The MDEA are the medtech industry’s premier design competition committed to searching worldwide for the highest caliber finished medical devices, products, systems, or packaging available on the market. The awards program celebrates the achievements of the medical device manufacturers, their suppliers, and the many people behind the scenes—engineers, scientists, designers, and clinicians—who are responsible for the cutting-edge products that are saving lives; improving patient healthcare; and transforming medtech—one innovation at a time.

  • Red Dot Award - Valedo

    Red Dot

    Hocoma proved its design excellence in the most important competition for product design, which is celebrating its 60th anniversary this year. The international experts discussed and assessed each of the 4,928 entries from 56 countries. But only the designs that displayed high quality and innovative power were given an award. Valedo won the award “Honourable Mention”.

    An Honourable Mention is awarded by the Red Dot jury members to a particularly well-executed aspect of design work…

    Hocoma proved its design excellence in the most important competition for product design, which is celebrating its 60th anniversary this year. The international experts discussed and assessed each of the 4,928 entries from 56 countries. But only the designs that displayed high quality and innovative power were given an award. Valedo won the award “Honourable Mention”.

    An Honourable Mention is awarded by the Red Dot jury members to a particularly well-executed aspect of design work. Products that convince the jury with a well thought-out design solution are recognised with this distinction.

    Jury Statement
    "This therapeutic device for the back pleases with the compact design of its sensors, which stay attached to the body and can hardly be felt by the wearer."

  • Wearable Award 2015 - 4 Awards!

    Wearable Technology Show

    Best wearable app: Hocoma for Valedo 1st place
    Best Medical wearable: Hocoma for Valedo 2nd place
    Best Consumer product: Hocoma for Valedo 3rd place
    Overall wearable winner: Hocoma for Valedo 3rd place

  • Best App 2014 - Silver

    Best Mobile App Awards

    Winner of 2014 Overall Awards - Overall Best App of 2014 "Silver"

    https://bestmobileappawards.com/app-submission/valedo-2

  • CES 2015 Innovation Award - Wearable Devices

    Consumer Electronics Association (CEA)®

    Valedo is the first wearable medical device for the low back that combines physical sensors with sophisticated, yet intuitive software to motivate and guide users through fun and interactive exercises. Grounded in movement science and physiotherapy, Valedo helps users improve movement awareness for increased stability and balance, restore motion to vertebral joints, and redevelop deep muscles for enhanced strength. Through consistent use, these movements can help back pain sufferers achieve…

    Valedo is the first wearable medical device for the low back that combines physical sensors with sophisticated, yet intuitive software to motivate and guide users through fun and interactive exercises. Grounded in movement science and physiotherapy, Valedo helps users improve movement awareness for increased stability and balance, restore motion to vertebral joints, and redevelop deep muscles for enhanced strength. Through consistent use, these movements can help back pain sufferers achieve sustained back health.

  • DeviceMed Award

    Compramed

    Cicor was presented with the award in the Outsourcing Partner category for its work as outsourcing partner for Hocoma AG's therapeutic back training device Valedo.

    http://www.cicor.com/news-and-media/press-releases/2014-11-13-cicor-wins-devicemed-award-2014/

  • First prize for ‘Best Review Paper’ from the journal “Sensors”

    Sensors

    Since 2011, Sensors has been instituting an annual award to recognize outstanding papers that are related to sensing technologies and applications and meet the aims, scope and high standards of this journal: http://www.mdpi.com/journal/sensors

  • Audience with the Federal President of Germany

    German Federal Government

    In recognition of leadership development work with German and international youth, students and professional organizations our National Executive Board was awarded a private audience with the Federal President of Germany Horst Köhler.

  • Full Two-Year Academic Scholarship

    International Department, Universität Karlsruhe

    An award in value of over 20 000 € in recognition of academic and personal excellence.

  • Edison Award - Bronze

    Edison Awards™

    The Edison Awards™ is an annual competition honoring excellence in new product and service development, marketing, human-centered design, and innovation.

    Being recognized with an Edison Award™ is one of the highest accolades a company can receive in the name of innovation and business success. The Edison Awards honor excellence in new product and service development, marketing, human-centered design and innovation.

Sprachen

  • English

    Muttersprache oder zweisprachig

  • German

    Muttersprache oder zweisprachig

  • French

    Fließend

  • Russian

    Gute Kenntnisse

  • Spanish

    Gute Kenntnisse

Organisationen

  • ETH Alumni

    -

    –Heute
  • AIESEC

    National Executive Board

    –Heute

    AIESEC is a world-leading international organization fostering cultural understanding, youth development and peace. Now an alumnus, I was highly active from 2000-2005 as a leader of the national organisation in Germany, with additional roles as a key note speaker, seminar facilitator, a national trainer (i.e. to train other trainers) and as an international strategy and implementation coach. I led or was involved in over 20 projects, 75 conferences in over 20 countries.

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