Proof of Picking and Placing Carbon Dimer Molecules
Molecular Nanotechnology has worked for over a decade. I, Brian Wang, invested in the startup that has been moving and placing molecules using tooltips for over a decade. Over 180...
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Molecular Nanotechnology has worked for over a decade. I, Brian Wang, invested in the startup that has been moving and placing molecules using tooltips for over a decade. Over 180...
CBN Nano has built and operated some level of a working prototype system for mechanically controlled mechanosynthesis, even if not every single element of the full envisioned tools...
Reviewing the roadmap and alternatives to breakthrough molecular nanotechnology. What has to be done and how long will it take? I make the case the critical factor is creating a re...
There is almost 1000 pages on the papers describing the work and plan for creating molecular manufacturing workstations. This work (primarily the 2026 CBN Nano paper and the closel...
Researchers created a highly stable electrically controlled DNA origami switch that regulates molecular functions and keeps working through hundreds of thousands of cycles.
A new paper provides clear, reproducible proof-of-concept for subtractive mechanosynthesis on silicon. It is not yet a complete minimal toolset”demonstration on diamond surfaces, b...
Researchers used DNA nanotechnology to build a synthetic membrane that mimics cell pores, enabling coordinated transport and programmable reactions inside.
Insider Brief A team of researchers report a single organic molecule can now store, manipulate and read out quantum information one molecule at a time using light. They add that th...
A programmable protein motor walks along DNA tracks in controlled directions, opening a path to synthetic nanomachines and biocomputing.
New high-pressure synthesis converts nanographene into uniform, pure nanodiamonds with tunable optics for quantum, sensing, and biomedical uses.
Quantum effects could amplify current-induced magnetic fields, turning individual molecules into detectable nanoscale magnets.
Researchers made 1-nm MoS2 nanotubes inside boron nitride shells, advancing atomically precise semiconductors for smaller future electronic devices.
Switches drive nearly every machine. A new one, made of folded DNA, does the same work at the scale of molecules. The post This DNA Switch Could Control Molecular Machines appeared...
With this technology, computers can manipulate nanostructures within 10 seconds, offering potential applications in cell movement and nanorobot power systems.
Researchers developed a versatile nanorobot with propulsion and payload modules. The two reusable modules autonomously self-assemble and could be used in medicine or industry.
Researchers revealed that molecular transport through fluctuating nanoscale pores is governed not only by pore size, but also by gate dynamics and transient surface interactions.
Researchers use a Vitamin E-derived molecule to enhance the ability of DNA-based nanostructures for drug delivery, imaging, and therapeutics.
Surface-bound molecules reached the Fourier quantum limit, enabling cleaner studies of emitters for quantum tech and nanoscale control.
Scientists unveiled a reaction that swaps key carbon groups in complex compounds, offering a faster route to test new medicine candidates.
Researchers set a new benchmark for enzymatic DNA synthesis by writing 64 distinct sequences in parallel on a semiconductor chip.
New insights into DNA assembly could streamline the design and manufacturing of nanostructures for medicine, materials and beyond.
New instruments on the horizon promise the most precise tools yet to study and experiment on the smallest and most complex materials ever manufactured.
A slow-switching molecular cage reveals how chemical signals trigger gradual structural changes, offering design clues for molecular machines and smart materials.
An improved cell analysis technique boosts sensitivity and stability, mapping lipid patterns in mouse brain tissue at 5 micrometer resolution.
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