Towards scanning probe lithography-based 4D nanoprinting by advancing surface chemistry, nanopatterning strategies, and characterization protocols.

Biointerfaces direct some of the most complex biological events, including cell differentiation, hierarchical organization, and disease progression, or are responsible for the remarkable optical, electronic, and biological behavior of natural materials. Chemical information encoded within the 4D nanostructure of biointerfaces - comprised of the three Cartesian coordinates (x, y, z), and chemical composition of each molecule within a given volume - dominates their interfacial properties. As such, there is a strong interest in creating printing platforms that can emulate the 4D nanostructure - including both the chemical composition and architectural complexity - of biointerfaces. Current nanolithography technologies are unable to recreate 4D nanostructures with the chemical or architectural complexity of their biological counterparts because of their inability to position organic molecules in three dimensions and with sub-1 micrometer resolution. Achieving this level of control over the interfacial structure requires transformational advances in three complementary research disciplines: (1) the scope of organic reactions that can be successfully carried out on surfaces must be increased, (2) lithography tools are needed that are capable of positioning soft organic and biologically active materials with sub-1 micrometer resolution over feature diameter, feature-to-feature spacing, and height, and (3) new techniques for characterizing the 4D structure of interfaces should be developed and validated. This review will discuss recent advances in these three areas, and how their convergence is leading to a revolution in 4D nanomanufacturing.

[1]  Marc Madou,et al.  Fundamentals of Microfabrication and Nanotechnology, Three-Volume Set , 2018 .

[2]  Asha Patel,et al.  6-2 second generation array data, SIMS and cellular , 2016 .

[3]  W. Porod,et al.  Nanopatterning reconfigurable magnetic landscapes via thermally assisted scanning probe lithography. , 2016, Nature nanotechnology.

[4]  Rajender S Varma,et al.  Cu and Cu-Based Nanoparticles: Synthesis and Applications in Catalysis. , 2016, Chemical reviews.

[5]  K. A. Brown,et al.  Hard Transparent Arrays for Polymer Pen Lithography. , 2016, ACS nano.

[6]  James J. Yoo,et al.  A 3D bioprinting system to produce human-scale tissue constructs with structural integrity , 2016, Nature Biotechnology.

[7]  J. Quinn,et al.  Cu(0)-Mediated Living Radical Polymerization: A Versatile Tool for Materials Synthesis. , 2016, Chemical reviews.

[8]  Emre H. Discekici,et al.  Simple Benchtop Approach to Polymer Brush Nanostructures Using Visible-Light-Mediated Metal-Free Atom Transfer Radical Polymerization. , 2016, ACS Macro Letters.

[9]  K. A. Brown,et al.  Liquid-Phase Beam Pen Lithography. , 2016, Small.

[10]  J. Marohn,et al.  Trap-clearing Spectroscopy in Perylene Diimide Derivatives , 2016 .

[11]  S. Saxer,et al.  Direct Write Protein Patterns for Multiplexed Cytokine Detection from Live Cells Using Electron Beam Lithography. , 2016, ACS nano.

[12]  B. B. Mishra,et al.  Cu-Catalyzed Click Reaction in Carbohydrate Chemistry. , 2016, Chemical reviews.

[13]  B. Ravoo,et al.  Supramolecular surface adhesion mediated by azobenzene polymer brushes. , 2016, Chemical communications.

[14]  J. Choi,et al.  Dynamic Cross-Linking of Polymeric Binders Based on Host-Guest Interactions for Silicon Anodes in Lithium Ion Batteries. , 2015, ACS nano.

[15]  Chengchen Guo,et al.  Extended Charge Carrier Lifetimes in Hierarchical Donor-Acceptor Supramolecular Polymer Films , 2015 .

[16]  Adam B. Braunschweig,et al.  Topology, assembly, and electronics: three pillars for designing supramolecular polymers with emergent optoelectronic behavior , 2015 .

[17]  Puttinan Meepowpan,et al.  Synthesis and copolymerization of oligo(lactic acid) derived norbornene macromonomers with amino acid derived norbornene monomer: Formation of the 3D macroporous scaffold , 2015 .

[18]  Divya Rajamohan,et al.  A defined synthetic substrate for serum-free culture of human stem cell derived cardiomyocytes with improved functional maturity identified using combinatorial materials microarrays , 2015, Biomaterials.

[19]  K. Anseth,et al.  Multifunctional bioscaffolds for 3D culture of melanoma cells reveal increased MMP activity and migration with BRAF kinase inhibition , 2015, Proceedings of the National Academy of Sciences.

[20]  John R. Tumbleston,et al.  Continuous liquid interface production of 3D objects , 2015, Science.

[21]  G. Clarkson,et al.  Photo-induced living radical polymerization of acrylates utilizing a discrete copper(II)-formate complex. , 2015, Chemical communications.

[22]  Martin D. Burke,et al.  Synthesis of many different types of organic small molecules using one automated process , 2015, Science.

[23]  K. Anseth,et al.  Synthetic Mimics of the Extracellular Matrix: How Simple is Complex Enough? , 2015, Annals of Biomedical Engineering.

[24]  Robert Langer,et al.  Non‐Cell‐Adhesive Substrates for Printing of Arrayed Biomaterials , 2015, Advanced healthcare materials.

[25]  Yong Zhao,et al.  Indium Oxide-Single-Walled Carbon Nanotube Composite for Ethanol Sensing at Room Temperature. , 2015, The journal of physical chemistry letters.

[26]  George C Schatz,et al.  Apertureless cantilever-free pen arrays for scanning photochemical printing. , 2015, Small.

[27]  B. Ravoo,et al.  One-step synthesis of patterned polymer brushes by photocatalytic microcontact printing. , 2015, Chemical communications.

[28]  V. Weaver,et al.  Extracellular matrix assembly: a multiscale deconstruction , 2014, Nature Reviews Molecular Cell Biology.

[29]  C. Hwang,et al.  Azide-alkyne cycloaddition for universal post-synthetic modifications of nucleic acids and effective synthesis of bioactive nucleic acid conjugates. , 2014, Organic & biomolecular chemistry.

[30]  E. Riedo,et al.  Advanced scanning probe lithography. , 2014, Nature nanotechnology.

[31]  Anthony Atala,et al.  3D bioprinting of tissues and organs , 2014, Nature Biotechnology.

[32]  A. Lowe,et al.  Thiol–ene “click” reactions and recent applications in polymer and materials synthesis: a first update , 2014 .

[33]  K. Houk,et al.  Reactions in elastomeric nanoreactors reveal the role of force on the kinetics of the Huisgen reaction on surfaces. , 2014, Journal of the American Chemical Society.

[34]  L. Wong,et al.  Harnessing catalysis to enhance scanning probe nanolithography. , 2014, Nanoscale.

[35]  William E. Frazier,et al.  Metal Additive Manufacturing: A Review , 2014, Journal of Materials Engineering and Performance.

[36]  K. A. Brown,et al.  Beam pen lithography as a new tool for spatially controlled photochemistry, and its utilization in the synthesis of multivalent glycan arrays. , 2014, Chemical science.

[37]  Hu Tao,et al.  All-water-based electron-beam lithography using silk as a resist. , 2014, Nature nanotechnology.

[38]  J. Nunnari,et al.  Mitochondrial form and function , 2014, Nature.

[39]  D. Nair,et al.  The Thiol-Michael Addition Click Reaction: A Powerful and Widely Used Tool in Materials Chemistry , 2014 .

[40]  V. Percec,et al.  Copper(II)/tertiary amine synergy in photoinduced living radical polymerization: accelerated synthesis of ω-functional and α,ω-heterofunctional poly(acrylates). , 2014, Journal of the American Chemical Society.

[41]  S. Ulrich,et al.  Oxime ligation: a chemoselective click-type reaction for accessing multifunctional biomolecular constructs. , 2014, Chemistry.

[42]  Christof M Niemeyer,et al.  The chemistry of cyborgs--interfacing technical devices with organisms. , 2013, Angewandte Chemie.

[43]  Chad A Mirkin,et al.  Large-area molecular patterning with polymer pen lithography , 2013, Nature Protocols.

[44]  C. Hawker,et al.  Fabrication of unique chemical patterns and concentration gradients with visible light. , 2013, Journal of the American Chemical Society.

[45]  John Irwin,et al.  Life-cycle economic analysis of distributed manufacturing with open-source 3-D printers , 2013, Mechatronics.

[46]  J. F. Stoddart,et al.  BODIPY–Thiophene Copolymers as p‐Channel Semiconductors for Organic Thin‐Film Transistors , 2013, Advanced materials.

[47]  Kyriakos C. Stylianou,et al.  Femtolitre chemistry assisted by microfluidic pen lithography , 2013, Nature Communications.

[48]  R. Gross,et al.  Patterned enzymatic degradation of poly(ε-caprolactone) by high-affinity microcontact printing and polymer pen lithography. , 2013, Biomacromolecules.

[49]  C. Hawker,et al.  Fabrication of complex three-dimensional polymer brush nanostructures through light-mediated living radical polymerization. , 2013, Angewandte Chemie.

[50]  Chad A. Mirkin,et al.  Desktop Nanofabrication with Massively Multiplexed Beam Pen Lithography , 2013, Nature Communications.

[51]  K. Houk,et al.  Covalently patterned graphene surfaces by a force-accelerated Diels-Alder reaction. , 2013, Journal of the American Chemical Society.

[52]  B. Li,et al.  Ultraviolet Light-Induced Surface-Initiated Atom-Transfer Radical Polymerization. , 2013, ACS macro letters.

[53]  Michael C. McAlpine,et al.  3D Printed Bionic Ears , 2013, Nano letters.

[54]  P. Gambardella,et al.  Site- and orbital-dependent charge donation and spin manipulation in electron-doped metal phthalocyanines. , 2013, Nature materials.

[55]  L. Campos,et al.  Materials for the preparation of polymer pen lithography tip arrays and a comparison of their printing properties , 2013 .

[56]  J. Piehler,et al.  A versatile toolbox for multiplexed protein micropatterning by laser lithography. , 2013, Small.

[57]  A. Gulino Structural and electronic characterization of self-assembled molecular nanoarchitectures by X-ray photoelectron spectroscopy , 2013, Analytical and Bioanalytical Chemistry.

[58]  B. Li,et al.  Electrochemically mediated atom transfer radical polymerization on nonconducting substrates: controlled brush growth through catalyst diffusion. , 2013, Journal of the American Chemical Society.

[59]  Chad A Mirkin,et al.  Multifunctional cantilever-free scanning probe arrays coated with multilayer graphene , 2012, Proceedings of the National Academy of Sciences.

[60]  Jeremiah A. Johnson,et al.  "Brush-first" method for the parallel synthesis of photocleavable, nitroxide-labeled poly(ethylene glycol) star polymers. , 2012, Journal of the American Chemical Society.

[61]  J. Massagué TGFβ signalling in context , 2012, Nature Reviews Molecular Cell Biology.

[62]  A. Stieg,et al.  In situ STM investigation of aromatic poly(azomethine) arrays constructed by "on-site" equilibrium polymerization. , 2012, Langmuir : the ACS journal of surfaces and colloids.

[63]  Hongkai Wu,et al.  Polymer pen lithography using dual-elastomer tip arrays. , 2012, Small.

[64]  Omar Azzaroni,et al.  Polymer brushes here, there, and everywhere: Recent advances in their practical applications and emerging opportunities in multiple research fields , 2012 .

[65]  Jiajun He,et al.  Polymer pen lithography (PPL)-induced site-specific click chemistry for the formation of functional glycan arrays. , 2012, Small.

[66]  Dana A. Uhlenheuer,et al.  Directed supramolecular surface assembly of SNAP-tag fusion proteins. , 2012, Chemistry.

[67]  W. Huck,et al.  Electrochemically induced surface-initiated atom-transfer radical polymerization. , 2012, Angewandte Chemie.

[68]  Adam B. Braunschweig,et al.  Matrix-assisted polymer pen lithography induced Staudinger Ligation. , 2012, Chemical communications.

[69]  Krzysztof Matyjaszewski,et al.  Atom Transfer Radical Polymerization (ATRP): Current Status and Future Perspectives , 2012 .

[70]  Tomoaki Nishino,et al.  Scanning Probe Microscopy and Spectroscopy , 2012 .

[71]  E. Bekyarova,et al.  Chemistry at the Dirac point: Diels-Alder reactivity of graphene. , 2012, Accounts of chemical research.

[72]  Louise R. Giam,et al.  Scanning probe-enabled nanocombinatorics define the relationship between fibronectin feature size and stem cell fate , 2012, Proceedings of the National Academy of Sciences.

[73]  C. Kolodziej,et al.  Combination of integrin-binding peptide and growth factor promotes cell adhesion on electron-beam-fabricated patterns. , 2012, Journal of the American Chemical Society.

[74]  J. Tour,et al.  Controlled ambipolar-to-unipolar conversion in graphene field-effect transistors through surface coating with poly(ethylene imine)/poly(ethylene glycol) films. , 2012, Small.

[75]  N. Stephanopoulos,et al.  Choosing an effective protein bioconjugation strategy. , 2011, Nature chemical biology.

[76]  K. Matyjaszewski,et al.  Controlled aqueous atom transfer radical polymerization with electrochemical generation of the active catalyst. , 2011, Angewandte Chemie.

[77]  J. V. Hest,et al.  Staudinger ligation as a method for bioconjugation. , 2011 .

[78]  R. Garrell,et al.  Thiol-ene click reaction as a general route to functional trialkoxysilanes for surface coating applications. , 2011, Journal of the American Chemical Society.

[79]  B. G. Davis,et al.  Site‐Selective Traceless Staudinger Ligation for Glycoprotein Synthesis Reveals Scope and Limitations , 2011, Chembiochem : a European journal of chemical biology.

[80]  J. Heath,et al.  A clinical microchip for evaluation of single immune cells reveals high functional heterogeneity in phenotypically similar T cells , 2011, Nature Network Boston.

[81]  B. Ravoo,et al.  Click chemistry by microcontact printing on self-assembled monolayers: a structure-reactivity study by fluorescence microscopy. , 2011, Organic & biomolecular chemistry.

[82]  V. Popik,et al.  Light-induced hetero-Diels-Alder cycloaddition: a facile and selective photoclick reaction. , 2011, Journal of the American Chemical Society.

[83]  Kristi S. Anseth,et al.  Spatial and temporal control of the alkyne-azide cycloaddition by photoinitiated Cu(II) reduction. , 2011, Nature chemistry.

[84]  I. Imaz,et al.  Single-crystal metal-organic framework arrays. , 2011, Journal of the American Chemical Society.

[85]  Chad A. Mirkin,et al.  Hard-tip, soft-spring lithography , 2011, Nature.

[86]  J. Micklefield,et al.  Parallel scanning near-field photolithography: the snomipede. , 2010, Nano letters.

[87]  L. Ocola,et al.  Electric-Field-Assisted Dip-Pen Nanolithography on Poly(4-vinylpyridine) (P4VP) Thin Films , 2010 .

[88]  Srivatsan Raghavan,et al.  Micropatterned dynamically adhesive substrates for cell migration. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[89]  Seth R. Marder,et al.  Nanoscale Tunable Reduction of Graphene Oxide for Graphene Electronics , 2010, Science.

[90]  Frederik L. Giesel,et al.  3D printing based on imaging data: review of medical applications , 2010, International Journal of Computer Assisted Radiology and Surgery.

[91]  M. Engelhard,et al.  XPS analysis of nanostructured materials and biological surfaces , 2010 .

[92]  D. DeSimone,et al.  The extracellular matrix in development and morphogenesis: a dynamic view. , 2010, Developmental biology.

[93]  Xing Liao,et al.  "Force-feedback" leveling of massively parallel arrays in polymer pen lithography. , 2010, Nano letters.

[94]  Christopher N Bowman,et al.  Thiol-ene click chemistry. , 2010, Angewandte Chemie.

[95]  Marvin Y. Paik,et al.  Direct patterning of intrinsically electron beam sensitive polymer brushes. , 2010, ACS nano.

[96]  M. C. Stuart,et al.  Emerging applications of stimuli-responsive polymer materials. , 2010, Nature materials.

[97]  Craig J. Hawker,et al.  A versatile approach to high-throughput microarrays using thiol-ene chemistry , 2010 .

[98]  H. Arlinghaus,et al.  Carbohydrate microarrays by microcontact printing. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[99]  D. Castner,et al.  Application of surface chemical analysis tools for characterization of nanoparticles , 2010, Analytical and bioanalytical chemistry.

[100]  Kai Simons,et al.  Lipid Rafts As a Membrane-Organizing Principle , 2010, Science.

[101]  Seth R. Marder,et al.  Thermochemical Nanolithography of Multifunctional Nanotemplates for Assembling Nano‐Objects , 2009 .

[102]  William D. Underwood,et al.  Direct writing and characterization of poly(p-phenylene vinylene) nanostructures , 2009 .

[103]  B. Ravoo Microcontact chemistry: surface reactions in nanoscale confinement , 2009 .

[104]  Can Xue,et al.  Matrix-assisted dip-pen nanolithography and polymer pen lithography. , 2009, Small.

[105]  Xing Liao,et al.  Force- and time-dependent feature size and shape control in molecular printing via polymer-pen lithography. , 2009, Small.

[106]  D. Tanner,et al.  Recent applications of intramolecular Diels-Alder reactions to natural product synthesis. , 2009, Chemical Society reviews.

[107]  Volker Deckert,et al.  Tip‐Enhanced Raman Spectroscopy , 2009 .

[108]  Chad A. Mirkin,et al.  Multiplexed protein arrays enabled by polymer pen lithography: addressing the inking challenge. , 2009, Angewandte Chemie.

[109]  G. Meehl,et al.  Amplifying the Pacific Climate System Response to a Small 11-Year Solar Cycle Forcing , 2009, Science.

[110]  Mark W. Tibbitt,et al.  Hydrogels as extracellular matrix mimics for 3D cell culture. , 2009, Biotechnology and bioengineering.

[111]  Krzysztof Matyjaszewski,et al.  Nanostructured functional materials prepared by atom transfer radical polymerization , 2009, Nature Chemistry.

[112]  C. Bertozzi,et al.  Synthesis and microcontact printing of dual end-functionalized mucin-like glycopolymers for microarray applications. , 2009, Angewandte Chemie.

[113]  Jurriaan Huskens,et al.  Microcontact Printing: Limitations and Achievements , 2009 .

[114]  J. F. Stoddart,et al.  Heterogeneous catalysis of a copper-coated atomic force microscopy tip for direct-write click chemistry. , 2009, Journal of the American Chemical Society.

[115]  Yong P. Chen,et al.  AFM local oxidation nanolithography of graphene , 2009 .

[116]  Andrew J. Senesi,et al.  Redox-activating dip-pen nanolithography (RA-DPN). , 2009, Journal of the American Chemical Society.

[117]  M. Koizumi,et al.  Development of a high lateral resolution TOF-SIMS apparatus for single particle analysis , 2008 .

[118]  K. Christman,et al.  Nanoscale growth factor patterns by immobilization on a heparin-mimicking polymer. , 2008, Journal of the American Chemical Society.

[119]  William R. Dichtel,et al.  Heterogeneous catalysis through microcontact printing. , 2008, Angewandte Chemie.

[120]  Brian Derby,et al.  Bioprinting: Inkjet printing proteins and hybrid cell-containing materials and structures , 2008 .

[121]  Qiaobing Xu,et al.  Nanoskiving: a new method to produce arrays of nanostructures. , 2008, Accounts of chemical research.

[122]  Leonid P. Rokhinson,et al.  Atomic force microscope local oxidation nanolithography of graphene , 2008, 0807.2886.

[123]  Sungjin Park,et al.  An interfacial oxime reaction to immobilize ligands and cells in patterns and gradients to photoactive surfaces. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[124]  Volker Deckert,et al.  Tip-enhanced Raman scattering. , 2008, Chemical Society reviews.

[125]  Kato L. Killops,et al.  Robust, efficient, and orthogonal synthesis of dendrimers via thiol-ene "click" chemistry. , 2008, Journal of the American Chemical Society.

[126]  Jean‐François Lutz Copper-free azide-alkyne cycloadditions: new insights and perspectives. , 2008, Angewandte Chemie.

[127]  Peter X Ma,et al.  Biomimetic materials for tissue engineering. , 2008, Advanced drug delivery reviews.

[128]  Seth R. Marder,et al.  Local wettability modification by thermochemical nanolithography with write-read-overwrite capability , 2007 .

[129]  S. Sligar,et al.  Functional assays of membrane-bound proteins with SAMDI-TOF mass spectrometry. , 2007, Angewandte Chemie.

[130]  Bin Wu,et al.  Direct deposition and assembly of gold colloidal particles using a nanofountain probe. , 2007, Langmuir : the ACS journal of surfaces and colloids.

[131]  Ronald T. Raines,et al.  General method for site-specific protein immobilization by Staudinger ligation. , 2007, Bioconjugate chemistry.

[132]  Takashi Okada,et al.  High-speed, sub-15 nm feature size thermochemical nanolithography. , 2007, Nano letters.

[133]  C. Mirkin,et al.  Applications of dip-pen nanolithography. , 2007, Nature nanotechnology.

[134]  Christopher S. Chen,et al.  Microcontact printing: A tool to pattern. , 2007, Soft matter.

[135]  Harald Fuchs,et al.  Massively parallel dip-pen nanolithography of heterogeneous supported phospholipid multilayer patterns. , 2007, Small.

[136]  S. Hecht,et al.  Electric field-induced isomerization of azobenzene by STM. , 2006, Journal of the American Chemical Society.

[137]  D. Ginger,et al.  Time-resolved electrostatic force microscopy of polymer solar cells , 2006, Nature materials.

[138]  D. Reinhoudt,et al.  "Click" chemistry by microcontact printing. , 2006, Angewandte Chemie.

[139]  J. Lahann,et al.  Reactive polymer coatings that "Click". , 2006, Angewandte Chemie.

[140]  Levi A. Gheber,et al.  Nano fountain pen manufacture of polymer lenses for nano-biochip applications. , 2006, Nano letters.

[141]  Gregory T. Carroll,et al.  Photochemical micropatterning of carbohydrates on a surface. , 2006, Langmuir : the ACS journal of surfaces and colloids.

[142]  Mingjun Zhang,et al.  Bio-Microarray Fabrication Techniques—A Review , 2006, Critical reviews in biotechnology.

[143]  Yang Yang,et al.  High-efficiency solution processable polymer photovoltaic cells by self-organization of polymer blends , 2005 .

[144]  David N Reinhoudt,et al.  Engineering silicon oxide surfaces using self-assembled monolayers. , 2005, Angewandte Chemie.

[145]  Michael Lynch,et al.  Microfluidic ultramicroscale deposition and patterning of quantum dots , 2005, Nanotechnology.

[146]  H. Seitz,et al.  Three-dimensional printing of porous ceramic scaffolds for bone tissue engineering. , 2005, Journal of biomedical materials research. Part B, Applied biomaterials.

[147]  Horacio D Espinosa,et al.  A nanofountain probe with Sub-100 nm molecular writing resolution. , 2005, Small.

[148]  L. Liz‐Marzán,et al.  XPS characterization of Au (Core)/SiO2 (shell) nanoparticles. , 2005, The journal of physical chemistry. B.

[149]  Chad A Mirkin,et al.  Nanostructures in biodiagnostics. , 2005, Chemical reviews.

[150]  G. Whitesides,et al.  New approaches to nanofabrication: molding, printing, and other techniques. , 2005, Chemical reviews.

[151]  Arjan P Quist,et al.  Recent advances in microcontact printing , 2005, Analytical and bioanalytical chemistry.

[152]  J. Lehn,et al.  Reversible Diels-Alder reactions for the generation of dynamic combinatorial libraries. , 2005, Organic letters.

[153]  W. Huck,et al.  Polymer brushes via surface-initiated polymerizations. , 2004, Chemical Society reviews.

[154]  Itamar Willner,et al.  Integrated nanoparticle-biomolecule hybrid systems: synthesis, properties, and applications. , 2004, Angewandte Chemie.

[155]  N. Jalili,et al.  A review of atomic force microscopy imaging systems: application to molecular metrology and biological sciences , 2004 .

[156]  Milan Mrksich,et al.  A photochemical method for patterning the immobilization of ligands and cells to self-assembled monolayers. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[157]  Chung-Yuen Hui,et al.  Effect of stamp deformation on the quality of microcontact printing: theory and experiment. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[158]  M. Mrksich An early taste of functional glycomics. , 2004, Chemistry & biology.

[159]  Paul S. Weiss,et al.  Patterning self-assembled monolayers , 2004 .

[160]  M. Crommie,et al.  Controlled Atomic Doping of a Single C60 Molecule , 2004, Science.

[161]  Jinho Hyun,et al.  “Non‐Fouling” Oligo(ethylene glycol)‐ Functionalized Polymer Brushes Synthesized by Surface‐Initiated Atom Transfer Radical Polymerization , 2004 .

[162]  Vladimir Benes,et al.  Microcontact printing of DNA molecules. , 2004, Analytical chemistry.

[163]  M. Grätzel Dye-sensitized solar cells , 2003 .

[164]  Ronald T. Raines,et al.  Site-specific protein immobilization by Staudinger ligation. , 2003, Journal of the American Chemical Society.

[165]  D. P. Fromm,et al.  Methods of single-molecule fluorescence spectroscopy and microscopy , 2003 .

[166]  J. Lahann,et al.  A Reversibly Switching Surface , 2003, Science.

[167]  Jürgen Popp,et al.  Raman spectroscopy--a prospective tool in the life sciences. , 2003, Chemphyschem : a European journal of chemical physics and physical chemistry.

[168]  S. Wunder,et al.  The role of surface functional groups in calcium phosphate nucleation on titanium foil: a self-assembled monolayer technique. , 2002, Biomaterials.

[169]  D. Hutmacher,et al.  Scaffold development using 3D printing with a starch-based polymer , 2002 .

[170]  F. Bates,et al.  Cryogenic Transmission Electron Microscopy (Cryo-TEM) of Micelles and Vesicles Formed in Water by Poly(ethylene oxide)-Based Block Copolymers , 2002 .

[171]  E. Toone,et al.  The cluster glycoside effect. , 2002, Chemical reviews.

[172]  William J. Brittain,et al.  Synthesis of Polymer Brushes on Silicate Substrates via Reversible Addition Fragmentation Chain Transfer Technique , 2002 .

[173]  M. Sawamoto,et al.  Metal-catalyzed living radical polymerization. , 2001, Chemical reviews.

[174]  B. Nysten,et al.  Mapping aging effects on polymer surfaces: Specific detection of additives by chemical force microscopy , 2001 .

[175]  P. Girard Electrostatic force microscopy: principles and some applications to semiconductors , 2001 .

[176]  A. Chilkoti,et al.  Microstamping on an Activated Polymer Surface: Patterning Biotin and Streptavidin onto Common Polymeric Biomaterials , 2001 .

[177]  M. G. Finn,et al.  Click Chemistry: Diverse Chemical Function from a Few Good Reactions. , 2001, Angewandte Chemie.

[178]  Marcus Textor,et al.  Poly(l-lysine)-g-poly(ethylene glycol) Layers on Metal Oxide Surfaces: Surface-Analytical Characterization and Resistance to Serum and Fibrinogen Adsorption , 2001 .

[179]  C. Mirkin,et al.  Scanometric DNA array detection with nanoparticle probes. , 2000, Science.

[180]  Emmanuel Delamarche,et al.  Microcontact Printing of Proteins , 2000 .

[181]  C. Bertozzi,et al.  A "traceless" Staudinger ligation for the chemoselective synthesis of amide bonds. , 2000, Organic letters.

[182]  R. Raines,et al.  Staudinger ligation: a peptide from a thioester and azide. , 2000, Organic letters.

[183]  Ute Drechsler,et al.  The "Millipede"-More than thousand tips for future AFM storage , 2000, IBM J. Res. Dev..

[184]  C. Bertozzi,et al.  Cell surface engineering by a modified Staudinger reaction. , 2000, Science.

[185]  T. Pakkanen,et al.  Synthesis and characterization of poly(ethylene‐co‐norbornadiene) , 1999 .

[186]  G. Whitesides,et al.  Patterning proteins and cells using soft lithography. , 1999, Biomaterials.

[187]  M. Buchmeiser,et al.  Access to Well-Defined Heterogeneous Catalytic Systems via Ring-Opening Metathesis Polymerization (ROMP): Applications in Palladium(II)-Mediated Coupling Reactions , 1999 .

[188]  Chaim N. Sukenik,et al.  Fountain pen nanochemistry: Atomic force control of chrome etching , 1999 .

[189]  T. D. Dunbar,et al.  Electron Transfer through Organic Molecules , 1999 .

[190]  Gang-yu Liu,et al.  Fabrication of Nanometer Scale Patterns within Self-Assembled Monolayers by Nanografting , 1999 .

[191]  M. Mrksich,et al.  Diels-Alder Reaction for the Selective Immobilization of Protein to Electroactive Self-Assembled Monolayers , 1999 .

[192]  Xu,et al.  "Dip-Pen" nanolithography , 1999, Science.

[193]  D. Botstein,et al.  Cluster analysis and display of genome-wide expression patterns. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[194]  George M. Whitesides,et al.  Photolithography with transparent reflective photomasks , 1998 .

[195]  Robert H. Grubbs,et al.  Recent advances in olefin metathesis and its application in organic synthesis , 1998 .

[196]  Heinz Schmid,et al.  Printing Patterns of Proteins , 1998 .

[197]  Gang-yu Liu,et al.  Nanometer-scale fabrication by simultaneous nanoshaving and molecular self-assembly , 1997 .

[198]  Gerd Karl Binnig,et al.  Scanning Tunneling Microscopy , 1996 .

[199]  J. McIntosh,et al.  Patterning of functional antibodies and other proteins by photolithography of silane monolayers. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[200]  D. Grainger,et al.  X-ray photoelectron spectroscopy sulfur 2p study of organic thiol and disulfide binding interactions with gold surfaces , 1996 .

[201]  Lloyd M. Smith,et al.  A SELF-ASSEMBLED MATRIX MONOLAYER FOR UV-MALDI MASS SPECTROMETRY , 1996 .

[202]  R. Webb Confocal optical microscopy , 1996 .

[203]  Xudong Xiao,et al.  Scanning polarization force microscopy: A technique for imaging liquids and weakly adsorbed layers , 1995 .

[204]  Peter G. Schultz,et al.  A Strategy for the Chemical Synthesis of Nanostructures , 1995, Science.

[205]  R. C. King,et al.  Handbook of X Ray Photoelectron Spectroscopy: A Reference Book of Standard Spectra for Identification and Interpretation of Xps Data , 1995 .

[206]  Charles M. Lieber,et al.  Functional Group Imaging by Chemical Force Microscopy , 1994, Science.

[207]  George M. Whitesides,et al.  Microfabrication by microcontact printing of self‐assembled monolayers , 1994 .

[208]  A. Benninghoven Chemical Analysis of Inorganic and Organic Surfaces and Thin Films by Static Time‐of‐Flight Secondary Ion Mass Spectrometry (TOF‐SIMS) , 1994 .

[209]  Robert Edward Lee Scanning Electron Microscopy and X-Ray Microanalysis , 1992 .

[210]  H. Kagan,et al.  Catalytic Asymmetric Diels-Alder Reactions , 1992 .

[211]  A. Bard,et al.  Chemical Imaging of Surfaces with the Scanning Electrochemical Microscope , 1991, Science.

[212]  S. P. Fodor,et al.  Light-directed, spatially addressable parallel chemical synthesis. , 1991, Science.

[213]  A. Ulman,et al.  Self‐assembled monolayers of alkyltrichiorosilanes: Building blocks for future organic materials , 1990 .

[214]  D. Eigler,et al.  Positioning single atoms with a scanning tunnelling microscope , 1990, Nature.

[215]  R. Garrell Surface-Enhanced Raman Spectroscopy. , 1989 .

[216]  J. Dubochet,et al.  Cryo-electron microscopy of viruses , 1984, Nature.

[217]  Ronald Breslow,et al.  Hydrophobic acceleration of Diels-Alder reactions , 1980 .

[218]  J. Leffler,et al.  Staudinger reaction between triarylphosphines and azides. Mechanism , 1967 .

[219]  D. Gigmes,et al.  3.10 - Nitroxide-Mediated Polymerization , 2012 .

[220]  J. Fréchet,et al.  Polymer-fullerene composite solar cells. , 2008, Angewandte Chemie.

[221]  R. Grubbs,et al.  Living ring-opening metathesis polymerization , 2007 .

[222]  H. Waldmann,et al.  Diels-Alder ligation and surface immobilization of proteins. , 2005, Angewandte Chemie.

[223]  Chad A Mirkin,et al.  The evolution of dip-pen nanolithography. , 2004, Angewandte Chemie.

[224]  G. Whitesides,et al.  Soft lithography in biology and biochemistry. , 2001, Annual review of biomedical engineering.

[225]  S. P. Fodor,et al.  High density synthetic oligonucleotide arrays , 1999, Nature Genetics.

[226]  David B. Williams,et al.  Transmission Electron Microscopy: A Textbook for Materials Science , 1996 .

[227]  G M Whitesides,et al.  Using self-assembled monolayers to understand the interactions of man-made surfaces with proteins and cells. , 1996, Annual review of biophysics and biomolecular structure.

[228]  A. Bard,et al.  Scanning electrochemical microscopy. Introduction and principles , 1989 .

[229]  D. Taylor,et al.  Basic fluorescence microscopy. , 1989, Methods in cell biology.

[230]  Allen J. Bard,et al.  Electrochemical Methods: Fundamentals and Applications , 1980 .

[231]  T. Posner Beiträge zur Kenntniss der ungesättigten Verbindungen. II. Ueber die Addition von Mercaptanen an ungesättigte Kohlenwasserstoffe , 1905 .

[232]  Z. Jiang,et al.  Infrared Spectroscopy , 2022 .