PROJECT 1
My part:
Computational design / Parametric model iteration Biomaterial experiment / 3d printing of biomaterials Narrative reasoning / Exhibition design Research
ENSO
Exhibition:
China Folk Art Museum Oct.2023 Author:
Liang Junpeng
Media:
Biosynthetic Materials / Biodesign / 3D Printing of Bio-materials / Design Fiction
Introduction:
The Enso Series look at and speculate about the ability of biosynthetic lignin and white rot fungi as functional materials in the Anthropocene. This work is a series of works based on the author's research on the theory of the multiverse, centering the reproduction of the universe and assumption that the universe changed from singular to plural. The "Bio Enso Evolution" series, made of environmentally bioaugmentation materials, is designed for the non-existent "bacteria" world and the impossible "bacteria" creation.
2023.7 - 2023.10 in Shanghai Yicai Culture Communication Co., Ltd.
RESEARCH
BIO ENSO EVOLUTION
A Strain Of Bacteria That Can Purify Contaminated Soil
Luminescent Phosphorescent Materials Based on Wood
White rot bacteria can be used to purify soil contaminated by industrial toxic substances. Erika Winquist, a researcher at Aalto University in Finland, found that up to 96% of hydrocarbon (PAH) compounds and 64% of dioxins in contaminated soil were successfully broken down by white rot bacteria after three months.
Researchers from China have developed an oxidation strategy to convert lignin into luminescent materials with a lifespan of approximately 408 ms. These luminescent RTP materials have a wide range of applications in electronic devices, optical sensing, bioimaging, and information encryption.
MACRO TO MICRO White Rot Fungus in Nature
Both the world inside and outside the logic of biology and the world inside and outside the consciousness of fungi exist at the same time. The world is not just a world. There is a human world, and a fungus world as well. Every species or life form has its own world that is as real as ours.
Biosynthetic material Mycelial structure
Microbial culture medium
ENSO I
Micromorphology of White Rot Fungus Biosynthetic lignin
Functional Microorganisms Degrading Lignin In Forest Systems
Fossils Of Wood-decaying Fungi Found In Cretaceous Of China
UɅ٪ǕƇȷ٪ƣƲƲǾ٪ƤȉǾ˚ȯǼƲƫ٪ɅǕƇɅ٪ƣƇȷǛƫǛȉǼɬƤƲɅƲȷ٪ǛǾ٪ɦǕǛɅƲ٪ȯȉɅ٪njɍǾǍǛ٪ƤƇǾ٪ȬȯȉƫɍƤƲ٪ laccase, which completely decomposes lignin into carbon dioxide and water. Therefore, basidiomycetes containing the laccase gene represent an important microbial community for decomposing soil organic matter, especially lignin.
Hyphae are commonly found in the lumen of vessels and can spread directly between adjacent vessel elements through the pit apertures or by penetrating the cell walls. The hyphae are tubular in shape, mostly straight or curved, and often exhibit irregular branching at different angles. They display the characteristic clamp connection, which is unique to modern basidiomycetes, indicating that this hyphal fossil belongs to the class Basidiomycetes.
Parameterized matrix Computer simulation
ENSO II
Lignin degradation
Fungal hyphae growth
Biological coevolution
Response environment
ENSOIII
multiverse
300X
Bioaugmentation White rot bacteria under stereomicroscope