https://physicsworld.com/a/kirigami-inspired-parachute-falls-on-target/

Skip to main content
[iop-publishing-logo-white] IOP Publishing site
Menu

  * Sign in
  * Register

Back to homepage IOP Physics World logo
Topics
[KR-centred-abstract-torus-of-lights-1024x576]

Browse articles by topic

  * [category-i] Astronomy and space
  * [category-i] Atomic and molecular
  * [category-i] Biophysics and bioengineering
  * [category-i] Condensed matter
  * [category-i] Culture, history and society
  * [category-i] Environment and energy
  * [category-i] Instrumentation and measurement
  * [category-i] Materials
  * [category-i] Mathematics and computation
  * [category-i] Medical physics
  * [category-i] Optics and photonics
  * [category-i] Particle and nuclear
  * [category-i] People
  * [category-i] Quantum
  * [category-i] Scientific enterprise

  * Latest content
      + [big-data-concept-2055335264-shutterstock_greenbutterfly-WEB-1024x506]

        Browse articles by content type

      + Short reads

          o Research updates
          o News
          o Blog
          o Innovation showcases
          o Events
      + Long reads

          o Features
          o Opinion and reviews
          o Interviews
          o Analysis
      + Multimedia

          o Podcasts
          o Video
          o Webinars
  * Magazine
  * Physics World Live

IOP Physics World Jobs logo SearchOpen Search Dialog
Search by content type, topic, person, research area and more
[                    ] SearchSubmit search
  * IOP Publishing

  * Follow us on Facebook
  * Follow us on LinkedIn
  * Watch us on Youtube
  * RSS Feed

  * Jobs

Sign in Register

  * Enter e-mail address [                    ]
  * Enter password [                    ] [ ] Show password
    Password field is now showing your password
  * [ ] Remember me
    Forgot your password?

Are you an IOP member?

Sign into your Physics World account to get access to all available
digital issues of the monthly magazine. Your Physics World account is
separate to any IOP accounts you may have

Sign in to

  * Access more than 20 years of online content
  * Manage which e-mail newsletters you want to receive
  * Read about the big breakthroughs and innovations across 13
    scientific topics
  * Explore the key issues and trends within the global scientific
    community

[Sign in]
  * Enter e-mail address [                    ] Are you an IOP
    member?

    Create a Physics World account to get access to all available
    digital issues of the monthly magazine. Your Physics World
    account is separate to any IOP accounts you may have.

    Note: The verification e-mail to complete your account
    registration should arrive immediately. However, in some cases it
    takes longer. Don't forget to check your spam folder.

    If you haven't received the e-mail in 24 hours, please contact
    customerservices@ioppublishing.org.

  * Registration is free, quick and easy
      + Access more than 20 years of online content
      + Choose which e-mail newsletters you want to receive
      + Read about the big breakthroughs and innovations across 13
        scientific topics
      + Explore the key issues and trends within the global
        scientific community

[Register]
Reset your password

Please enter the e-mail address you used to register to reset your
password

Note: The verification e-mail to change your password should arrive
immediately. However, in some cases it takes longer. Don't forget to
check your spam folder.

If you haven't received the e-mail in 24 hours, please contact
customerservices@ioppublishing.org

Enter e-mail address [                    ]
[Reset my password]
Registration complete

Thank you for registering with Physics World
If you'd like to change your details at any time, please visit My
account

Close
Materials

Materials

  *  
  *  
  *  
  *  
  *  
  *  

Home >> Materials >> Kirigami-inspired parachute falls on target

  * Materials
  * Research update

Kirigami-inspired parachute falls on target

01 Oct 2025
A Kirigami-inspired parachuteOn target A Kirigami-inspired parachute
deploying to slow down the delivery of a water bottle from a drone.
(Courtesy: Frederick Gosselin)

Inspired by the Japanese art of kirigami, researchers in Canada and
France have designed a parachute that can safely and accurately
deliver its payloads when dropped directly above its target. Tested
in realistic outdoor conditions, the parachute's deformable design
stabilizes the airflow around its porous structure, removing the need
to drift as it falls. With its simple and affordable design, the
parachute could have especially promising uses in areas including
drone delivery and humanitarian aid.

When a conventional parachute is deployed, it cannot simply fall
vertically towards its target. To protect itself from turbulence,
which can cause its canopy to collapse, it glides at an angle that
breaks the symmetry of the airflow around it, stabilizing the
parachute against small perturbations.

But this necessity comes at a cost. When dropping a payload from a
drone or aircraft, this gliding angle means parachutes will often
drift far from their intended targets. This can be especially
frustrating and potentially dangerous for operations such as
humanitarian aid delivery, where precisely targeted airdrops are
often vital to success.

To address this challenge, researchers led by David Melancon at
Polytechnique Montreal looked to kirigami, whereby paper is cut and
folded to create elaborate 3D designs. "Previously, kirigami has been
used to morph flat sheets into 3D shapes with programmed curvatures,"
Melancon explains. "We proposed to leverage kirigami's shape morphing
capability under fluid flow to design new kinds of ballistic
parachutes."

Wind-dispersed seeds

As well as kirigami, the team drew inspiration from nature. Instead
of relying on a gliding angle, many wind-dispersed seeds are equipped
with structures that stabilize the airflow around them: including the
feathery bristles of dandelion seeds, which create a stabilized
vortex in their wake; and the wings of sycamore and maple seeds,
which cause them to rapidly spin as they fall. In each case, these
mechanisms provide plants with passive control over where their seeds
land and germinate.

For their design, Melancon's team created a parachute that can deform
into a shape pre-programmed by a pattern of kirigami cuts, etched
into a flexible disc using a laser cutter. "Our parachutes are simple
flat discs, with circumferential slits inspired by a kirigami motif
called a closed loop," Melancon describes. "Instead of attaching the
payload with strings at the outer edge of the disk, we directly mount
it its centre."

When dropped, a combination of air resistance and the weight of the
free-falling payload deformed the parachute into an inverted, porous
bell shape. "The slits in the kirigami pattern are stretched, forcing
air through its multitude of small openings," Melancon continues.
"This ensures that the air flows in an orderly manner without any
major chaotic turbulence, resulting in a predictable trajectory."

The researchers tested their parachute extensively using numerical
simulations combined with wind tunnel experiments and outdoor tests,
where they used the parachute to drop a water bottle from a hovering
drone. In this case, the parachute delivered its payload safely to
the ground from a height of 60 m directly above its target.

Easy to make

Melancon's team tested their design with a variety of parachute sizes
and kirigami patterns, demonstrating that designs with lower
load-to-area ratios and more deformable patterns can reach comparable
terminal velocity to conventional parachutes - with far greater
certainty over where they will land. Compared with conventional
parachutes, which are often both complex and costly to manufacture,
kirigami-based designs will be far easier to fabricate.

 
Read more
EPFL scientists


Dandelion's secret of long-distance dispersal revealed by new
calculations

"Little hand labour is necessary," Melancon says. "We have made
parachutes out of sheets of plastic, paper or cardboard. We need a
sheet of material with a certain rigidity, that's all."

By building on their design, the researchers hope that future studies
will pave the way for new improvements in package home delivery. It
could even advance efforts to deliver urgently needed aid during
conflicts and natural disasters to those who need it most.

The parachute is described in Nature.

Want to read more?

Registration is free, quick and easy

Note: The verification e-mail to complete your account registration
should arrive immediately. However, in some cases it takes longer.
Don't forget to check your spam folder.

If you haven't received the e-mail in 24 hours, please contact
customerservices@ioppublishing.org.

  * E-mail Address
    [                    ]

Register
Sam Jarman is a science writer based in the UK

Back to Materials Materials

  * 
  * 
  * 
  * 

 
PWCareers25

Physics World Careers

Providing valuable careers advice and a comprehensive employer
directory

Read previous

  * Magnetism and spin
  * Research update

Antiferromagnets could be better than ferromagnets for some
ultrafast, high-density memories

Read next

  * Radiotherapy
  * Research update

ASTRO 2025: expanding the rules of radiation therapy

Discover more from Physics World

Nike running shoe containing auxetic material

      + Materials
      + Feature

Is materials science the new alchemy for the 21st century?

A bell jar covers a funnel containing dark viscous material, a
thermometer and a petri dish

      + Education and outreach
      + Feature

How the slowest experiment in the world became a fast success

many-body dynamical localization

      + Quantum mechanics
      + Research update

Quantum gas keeps its cool

Related jobs

  * China | Institute of Physics, Chinese Academy of Sciences

    Faculty Positions at Institute of Physics (IOP), Chinese Academy
    of Sciences

  * Japan | OIST

    Open Faculty Positions

  * Dallas | Slater Matsil, LLP

    Patent Development Engineer/Patent Agent

Related events

  * Materials | Conference 2025 International Semiconductor
    Conference (CAS) 7--11 October 2025 | Sinaia, Romania
  * Condensed matter | Workshop From Adaptive to Active Wetting
    Dynamics 16--20 February 2026 | Dresden, Germany
  * Solar cells | Conference Photovoltaics Science, Applications and
    Technology Conference (PVSAT-2026) 22--24 April 2026 | Newcastle,
    UK

  * 
  * 
  * 
  * 
  * 
  * 

Copyright (c) 2025 by IOP Publishing Ltd and individual contributors
Physics World logo

  * Follow us on Facebook
  * Follow us on LinkedIn
  * Watch us on Youtube
  * Follow us on Bluesky
  * RSS Feed

Sign in Register

Our mission

Physics World represents a key part of IOP Publishing's mission to
communicate world-class research and innovation to the widest
possible audience. The website forms part of the Physics World
portfolio, a collection of online, digital and print information
services for the global scientific community.

Podcasts

[PW-Podcast-WEEKLY-co]

Physics World Weekly

Physics World Stories podcast logo

Physics World Stories

Explore

  * About us
  * Our team
  * Our portfolio
  * Advertising
  * Collections
  * Our AI policy
  * Contact us
  * Feedback

More information

  * Institute of Physics
  * Join the Institute
  * Modern Slavery Act
  * Privacy and cookies
  * IOP Publishing
  * Copyright
  * Terms and conditions
  * Disclaimer

Back to top