ACS Nano (@acsnano) 's Twitter Profile
ACS Nano

@acsnano

Xiaodong Chen and ACS Nano team on nanoscience & nanotechnology research at the interfaces of chemistry, biology, materials science, physics, & engineering.

ID: 22986026

linkhttp://www.acsnano.org calendar_today05-03-2009 21:57:02

9,9K Tweet

42,42K Followers

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ACS Nano (@acsnano) 's Twitter Profile Photo

Inspired by the structure of amyloid polypeptides and the spinning process of spiders, this study combines an amyloid artificial #SpiderSilk protein strategy and #AirSpinning technology to #3Dprint multifunctional artificial spider silk. Read: go.acs.org/aLh

Inspired by the structure of amyloid polypeptides and the spinning process of spiders, this study combines an amyloid artificial #SpiderSilk protein strategy and #AirSpinning technology to #3Dprint multifunctional artificial spider silk. 

Read: go.acs.org/aLh
ACS Nano (@acsnano) 's Twitter Profile Photo

The latest issue of Precision Chemistry features the second set of articles devoted to 2D materials. Check it out here 👉 go.acs.org/aLn

The latest issue of Precision Chemistry features the second set of articles devoted to 2D materials.

Check it out here 👉 go.acs.org/aLn
ACS Nano (@acsnano) 's Twitter Profile Photo

Single nanopores are fabricated in suspended TMD hetero-bilayers. Visible light powered ionic transport and molecular translocation phenomena are discovered through the atomically-thin nanopores. Read it here 🔗 go.acs.org/aLx

Single nanopores are fabricated in suspended TMD hetero-bilayers. Visible light powered ionic transport and molecular translocation phenomena are discovered through the atomically-thin nanopores.

Read it here 🔗 go.acs.org/aLx
ACS Nano (@acsnano) 's Twitter Profile Photo

From the cover of ACS Nano: Demonstration of the reversibly controlled, ultrafast #Superwettability transition of 3D #graphene foams by solvent-exclusive #microwave treatments. POSTECH Chemistry, POSTECH Read: go.acs.org/aMi

From the cover of ACS Nano: Demonstration of the reversibly controlled, ultrafast #Superwettability transition of 3D #graphene foams by solvent-exclusive #microwave treatments. <a href="/postech2020/">POSTECH</a> <a href="/CPostech/">Chemistry, POSTECH</a>

Read: go.acs.org/aMi
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Researchers at Freie Universität have developed a library of amphiphilic nanogels (ANGs), which possess accurately tunable network hydrophobicity while still maintaining their colloidal structures as versatile stabilizers for pickering emulsions. #OpenAccess: go.acs.org/aMl

Researchers at <a href="/FU_Berlin/">Freie Universität</a> have developed a library of amphiphilic nanogels (ANGs), which possess accurately tunable network hydrophobicity while still maintaining their colloidal structures as versatile stabilizers for pickering emulsions. 

#OpenAccess: go.acs.org/aMl
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Researchers at University of Glasgow University of Glasgow Chemistry research introduces "electromagnetic enantiomers" a groundbreaking strategy to induce chirality in molecules using light within engineered nanocavities providing a simpler route to asymmetric chemistry Read it here 🔗 go.acs.org/aMF

Researchers at <a href="/UofGlasgow/">University of Glasgow</a> <a href="/UofGChem/">University of Glasgow Chemistry</a> research introduces "electromagnetic enantiomers" a groundbreaking strategy to induce chirality in molecules using light within engineered nanocavities providing a simpler route to asymmetric chemistry

Read it here 🔗 go.acs.org/aMF
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Demonstration of a hybrid #MOCVD growth method for the efficient synthesis of 2D semiconducting transition-metal dichalcogenides (#TMDCs) with tunable morphologies. #2DSemiconductors Stanford Materials Science and Engineering Stanford University SLAC Read: go.acs.org/aMI

Demonstration of a hybrid #MOCVD growth method for the efficient synthesis of 2D semiconducting transition-metal dichalcogenides (#TMDCs) with tunable morphologies. #2DSemiconductors <a href="/StanfordMSE/">Stanford Materials Science and Engineering</a> <a href="/Stanford/">Stanford University</a> <a href="/SLAClab/">SLAC</a>

Read: go.acs.org/aMI
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This review from University of Waterloo Chemical Engineering University of Waterloo جامعة خليفة للعلوم والتكنولوجيا discusses the interaction interface of advancements in #MolecularModeling, #MLAlgorithms, & atomic simulation methods to comprehend the creation of #MOFs for #CO2Capture. Hossein Mashhadimoslem Cover Story: go.acs.org/aNp

This review from <a href="/uwaterloo_che/">University of Waterloo Chemical Engineering</a> <a href="/UWaterloo/">University of Waterloo</a> <a href="/KhalifaUni/">جامعة خليفة للعلوم والتكنولوجيا</a> discusses the interaction interface of advancements in #MolecularModeling, #MLAlgorithms, &amp; atomic simulation methods to comprehend the creation of #MOFs for #CO2Capture. <a href="/mashhadimoslem/">Hossein Mashhadimoslem</a>

Cover Story: go.acs.org/aNp
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Polyaptamer-driven crystallization of alendronate yields a tempting dual-medication nanoassembly for synergistic osteoporosis treatment through osteoclastic inhibition and osteogenic promotion. YongHu Lab Read it here 🔗 go.acs.org/aNJ

Polyaptamer-driven crystallization of alendronate yields a tempting dual-medication nanoassembly for synergistic osteoporosis treatment through osteoclastic inhibition and osteogenic promotion. <a href="/YongHu_TJ/">YongHu Lab</a>

Read it here 🔗 go.acs.org/aNJ
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From the cover of ACS Nano: A trimetallic NiSnFe catalyst facilitates the near-single-#chirality synthesis of ultrahigh-pure (6,5) #CarbonNanotubes (CNTs). #nanoparticles Tohoku University #OpenAccess: go.acs.org/aNK

From the cover of ACS Nano: A trimetallic NiSnFe catalyst facilitates the near-single-#chirality synthesis of ultrahigh-pure (6,5) #CarbonNanotubes (CNTs). #nanoparticles <a href="/TohokuUniPR/">Tohoku University</a>

#OpenAccess: go.acs.org/aNK
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Fabrication of an effective hydrogel #MicroneedlePatch (MNP), loaded with #StemCell-derived, mitochondria-rich #ExtracellularVesicles, enables gradual release and delivery of mitochondria into the wound tissues, boosting #WoundHealing. #OpenAccess: go.acs.org/aOf

Fabrication of an effective hydrogel #MicroneedlePatch (MNP), loaded with #StemCell-derived, mitochondria-rich #ExtracellularVesicles, enables gradual release and delivery of mitochondria into the wound tissues, boosting #WoundHealing.

#OpenAccess: go.acs.org/aOf
ACS Nano (@acsnano) 's Twitter Profile Photo

The latest issue of Precision Chemistry features the second set of articles devoted to 2D materials. Check it out here 👉 go.acs.org/aOg

The latest issue of Precision Chemistry features the second set of articles devoted to 2D materials.

Check it out here 👉 go.acs.org/aOg
ACS Nano (@acsnano) 's Twitter Profile Photo

From the cover of ACS Nano: Prestretched #PolyvinylAlcohol #hydrogel, when soaked in a nano lignosulfonate sodium (LS) solution, transforms into an ordered, compact, and fixed hydrogel, thus revealing the profound #biomimetic strategy of LS. Read: go.acs.org/aOw

From the cover of ACS Nano: Prestretched #PolyvinylAlcohol #hydrogel, when soaked in a nano lignosulfonate sodium (LS) solution, transforms into an ordered, compact, and fixed hydrogel, thus revealing the profound #biomimetic strategy of LS.

Read: go.acs.org/aOw
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Researchers from Nutcracker Therapeutics have demonstrated a platform of peptoid-based nanoparticles for delivering mRNA to a range of different organs which can be applied for many different therapeutic programs Read it here 🔗 go.acs.org/aOB

Researchers from <a href="/Nutcracker_Tx/">Nutcracker Therapeutics</a> have demonstrated a platform of peptoid-based nanoparticles for delivering mRNA to a range of different organs which can be applied for many different therapeutic programs

Read it here 🔗 go.acs.org/aOB
ACS Nano (@acsnano) 's Twitter Profile Photo

The latest issue of Precision Chemistry features the second set of articles devoted to 2D materials. Check it out here 👉 go.acs.org/aOR

The latest issue of Precision Chemistry features the second set of articles devoted to 2D materials.

Check it out here 👉 go.acs.org/aOR
ACS Nano (@acsnano) 's Twitter Profile Photo

An activity-based #nanotheranostic platform, developed by Ester J. Kwon and team at UC San Diego Bioengineering UC San Diego, acts as both a sensor and an inhibitor of #calpain activity during traumatic brain injury (TBI). Read this #OpenAccess: go.acs.org/aPc

An activity-based #nanotheranostic platform, developed by <a href="/esterjkwon/">Ester J. Kwon</a> and team at <a href="/ucsdbe/">UC San Diego Bioengineering</a> <a href="/UCSanDiego/">UC San Diego</a>, acts as both a sensor and an inhibitor of #calpain activity during traumatic brain injury (TBI). 

Read this #OpenAccess: go.acs.org/aPc
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The lab of Michael King has developed SHArD: Superhydrophobic Array Device for high throughput culture of large tumor spheroids & small CTC clusters. A biomimetic take on the lotus leaf effect! Rice University Bioengineering Rice Engineering Rice University Read it here 🔗 go.acs.org/aPr

The lab of <a href="/profmikeking/">Michael King</a> has developed SHArD: Superhydrophobic Array Device for high throughput culture of large tumor spheroids &amp; small CTC clusters. A biomimetic take on the lotus leaf effect! <a href="/Rice_BIOE/">Rice University Bioengineering</a> <a href="/RiceEngineering/">Rice Engineering</a> <a href="/RiceUniversity/">Rice University</a>

Read it here 🔗 go.acs.org/aPr
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In the latest issue of ACS Nano: Demonstration of light-driven ionic transport and molecular translocation through the atomically thin single #nanopores of MoS2/WS2 bilayer van der Waals heterojunction membranes. #heterostructures Beihang University Read: go.acs.org/aPt

In the latest issue of ACS Nano: Demonstration of light-driven ionic transport and molecular translocation through the atomically thin single #nanopores of MoS2/WS2 bilayer van der Waals heterojunction membranes. #heterostructures <a href="/Beihang1952/">Beihang University</a>

Read: go.acs.org/aPt
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Scientists from USC Chemistry USC USC Mork ChE&MatSc USC BME USC Norris Comprehensive Cancer Center report on a #MachineLearning (ML)-based approach to analyze in-line UV–vis #Spectrophotometric data to determine platinum #nanoparticle product concentrations. Richard Brutchey #OpenAccess: go.acs.org/aQ8

Scientists from <a href="/USCChemistry/">USC Chemistry</a> <a href="/USC/">USC</a> <a href="/USCMork/">USC Mork ChE&MatSc</a> <a href="/uscbme/">USC BME</a> <a href="/uscnorris/">USC Norris Comprehensive Cancer Center</a> report on a #MachineLearning (ML)-based approach to analyze in-line UV–vis #Spectrophotometric data to determine platinum #nanoparticle product concentrations. <a href="/BrutcheyGroup/">Richard Brutchey</a>

#OpenAccess: go.acs.org/aQ8
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Demonstration of the local #chirality patterning of thin films made from magnetic polysaccharide #nanocrystals during the evaporation-induced assembly within patterned #magneticfields with narrow magnetic gaps. School of Materials Science and Engineering Georgia Tech #OpenAccess: go.acs.org/aQj

Demonstration of the local #chirality patterning of thin films made from magnetic polysaccharide #nanocrystals during the evaporation-induced assembly within patterned #magneticfields with narrow magnetic gaps. <a href="/GTMSE5/">School of Materials Science and Engineering</a> <a href="/GeorgiaTech/">Georgia Tech</a>

#OpenAccess: go.acs.org/aQj