====== Publications, Patents, Presentations ======
===== Schniepp Publication Highlights =====
* **[[public:team:schniepp#publications|Schniepp full publication stats (page)]]**
* >18,000 total citations (**[[https://scholar.google.com/citations?user=rjourJUAAAAJ&hl=en|google scholar profile]]**, as of 4/11/2022)
===== Publications =====
==== Peer-Reviewed Journal Articles ====
=== 2023– ===
{|class="TableSimpleWide"
|-
| [[public:publications:pub-65|[65]]]
| **Advanced Functional Materials (2024)** — Silliman, Koebley, & Schniepp\\
//[[public:publications:pub-65|"The Cribellate Nanofibrils of the Southern House Spider: Extremely Thin Natural Silks with Outstanding Extensibility"]]//
| [[public:publications:pub-65|{{:public:thumbs:thum_toc_kuku.jpg?48|}}]]
|-
| [[public:publications:pub-64|[64]]]
| **Advanced Healthcare Materials (2023)** — Stadlmayr, Peter, Millesi, Rad, Wolf, Mero, Zehl, Mentler, Gusenbauer, Konnerth, Schniepp, Lichtenegger, Naghilou, & Radtke\\
//[[public:publications:pub-64|"Comparative Analysis of Various Spider Silks in Regard to Nerve Regeneration: Material Properties and Schwann Cell Response"]]//
| [[public:publications:pub-64|{{:public:thumbs:thum_adhm_toc.jpg?48|}}]]
|-
| [[public:publications:pub-58|[58]]]
| **Acta Biomaterialia (2023)** — Perera, Li, Walsh, Wang, Silliman, Xiong & Schniepp\\
//[[public:publications:pub-58|"Natural Spider Silk Nanofibrils Produced by Assembling Molecules or Disassembling Fibers"]]//
| [[public:publications:pub-58|{{:public:thumbs:thum_exfoliation_perera.png?48|}}]]
|-
|}
=== 2019–2022 ===
{|class="TableSimpleWide"
|-
| [[public:publications:pub-57|[57]]]
| **Materials Horizons (2022)** — Skopic, Koebley, and Schniepp*\\
//[[public:publications:pub-57|"Self-strengthening Tape Junctions Inspired by Recluse Spider Webs"]]//
| [[:public:publications:pub-57|{{:public:thumbs:thum_2022_mat_horiz.png?48|}}]]
|-
| [[public:publications:pub-56|[56]]]
| **Nature Communications (2022)** — Wang, et al., Greenwood, Cotten, Qazilbash, Schniepp*\\
//[[public:publications:pub-56|"Protein Secondary Structure in Spider Silk Nanofibrils"]]//
| [[:public:publications:pub-56|{{public:thumbs:thum_vibrational.png}}]]
|-
| [[public:publications:pub-55|[55]]]
| **Small (2022)** — Perera, Wang & Schniepp\\ //[[public:publications:pub-55|"Multi-Point Nanoindentation Method to Determine Mech. Anisotropy in Nanofibrillar Thin Films"]] //
| [[public:publications:pub-55|{{:public:thumbs:thum_anisotropy.png?48|}}]]
|-
| [[public:publications:pub-49|[49]]]
| **Int. J. Adv. Manufactur. Technol. (2022)** — Gardner, ..., Schniepp & Siochi\\ //[[public:publications:pub-49|"Environment control in additive manufacturing of high-performance thermoplastics"]] //
| [[public:publications:pub-49|{{:public:thum_2022_3dprinter.png?48|}}]]
|-
| [[public:publications:pub-48|[48]]]
| **Macromolecular Bioscience (2021)** — Liang, ... Perera, Allardyce, ... Schniepp & Rajkhowa*
//[[public:publications:pub-48|"Silk Protein Paper with In Situ Synthesized Silver Nanoparticles"]] //
| [[public:publications:pub-48|{{:public:thumbs:2020_dpn_agnp_thumb.png?48|}}]]
|-
| [[public:publications:pub-47|[47]]]
| **Macromolecules (2020)** — Vy, ..., Schniepp & Adamson*\\
//[[public:publications:pub-47|"Surface-initiated passing-through zwitterionic polymer brushes f. salt-selective & antifouling materials"]] //
| [[public:publications:pub-47|{{:public:2020_polymerbrush_thumb.jpeg?48|}}]]
|-
| [[public:publications:pub-46|[46]]]
| **Chemistry of Materials (2020)** — Amin, Molin, Tampubolon, Kranbuehl & Schniepp*\\
//[[public:publications:pub-46|"Boron Nitride Nanotube Impurity Detection and Purity Verification"]] //
| [[public:publications:pub-46|{{:public:thumbs:bnnt_thumb.png?48|}}]]
|-
| [[public:publications:pub-45|[45]]]
| **JOM (2020)** — Skopic & Schniepp* \\
//[[public:publications:pub-45|"Peeling in Biological and Bioinspired Adhesive Systems"]] //
| [[public:publications:pub-45|{{:public:thumbs:thum_peelingreview.png?nolink&48|}}]]
|-
| [[public:publications:pub-42|[42]]]
| **Biomacromolecules (2020)** — Liang, ... ,Perera, ..., Schniepp, ... & Rajkhowa \\
//[[public:publications:pub-42|"Protein paper from exfoliated Eri silk nano fibers"]] //
| [[public:publications:pub-42|{{:public:thumbs:thum_ACS.jpg?}}]]
|-
| [[public:publications:pub-41|[41]]]
| **Fuel (2019)** — Dickinson, Aravind, Higgins, Berg, Suijkerbuijk & Schniepp* \\
//[[public:publications:pub-41|"Using atomic force spectroscopy to study oil/mineral interactions at reservoir temperatures and pressures"]] //
|[[public:publications:pub-41|{{:public:thumbs:thum_afm-nanofiber.png?}}]]
|-
| [[public:publications:pub-40|[40]]]
| **Chemistry of Materials (2019)** — Amin, Attwater, Pike, Williamson, Kranbuehl & Schniepp* \\
//[[public:publications:pub-40|"High-Purity Boron Nitride Nanotubes via High-Yield Hydrocarbon Solvent Processing"]] //
| [[public:publications:pub-40|{{:public:thumbs:bnnt_thumb.png?48|}}]]
|-
| [[public:publications:pub-39|[39]]]
| **Carbon (2019)** — Zhang, Schniepp* & Adamson \\
//[[public:publications:pub-39|"Characterization of graphene oxide: Variations in reported approaches"]]//
| [[public:publications:pub-39|{{:public:thumbs:thum_exforev.jpg?}}]]
|-
| [[:public:publications:pub-37|[37]]]
| **JOM (2019)** — Wang & Schniepp* \\
//[[:public:publications:pub-37|"Nanofibrils as Building Blocks of Silk Fibers: Critical Review of the Experimental Evidence"]]//
| [[:public:publications:pub-37|{{:public:thumbs:thum_silk-sa.jpg?}}]]
|-
|}
=== 2013–2018 ===
{|class="TableSimpleWide"
|-
| [[:public:publications:pub-36|[36]]]
| **ACS Macro Letters (2018)** — Wang & Schniepp* \\
//[[:public:publications:pub-36|"Strength of Recluse Spider’s Silk Originates from Nanofibrils"]]//
| [[:public:publications:pub-36|{{:public:thumbs:oxford_spider_thumb.jpg?}}]]
|-
| [[:public:publications:pub-35|[35]]]
| **Polymer (2018)** — Hocker, Kim, Schniepp & Kranbuehl \\
//[[:public:publications:pub-35|"Polymer Crystallinity and the Ductile to Brittle Transition"]]//
| {{:public:thumbs:elsivier_thumb.png?48}}
|-
| [[:public:publications:pub-34|[34]]]
| **Nanoscale (2018)** — Dickinson, Kumar, Adamson & Schniepp* \\
//[[:public:publications:pub-34|"High-throughput optical thickness and size characterization of 2D materials"]]//
| [[:public:publications:pub-34|{{public:thumbs:thum_optical_graphene.jpg}}]]
|-
| [[:public:publications:pub-33|[33]]]
| **Polymer (2017)** — Hocker, Hudson-Smith, Smith, Komatsu, Dickinson, Schniepp & Kranbuehl \_
//[[:public:publications:pub-33|"Graphene oxide reduces the hydrolytic degradation in polyamide-11"]]//
| [[:public:publications:pub-33|{{public:thumbs:thum_GO-PA11.jpg}}]]
|-
| [[:public:publications:pub-32|[32]]]
| **Materials Horizons (2017)** — Koebley, Vollrath & Schniepp* \\
//[[:public:publications:pub-32|"Toughness-enhancing metastructure in the recluse spider's looped ribbon silk"]]//
| [[:public:publications:pub-32|{{public:thumbs:looped_silk_thumb.png}}]]
|-
|[[:public:publications:pub-31|[31]]]
| **Energy & Fuels (2016)** — Dickinson, Suijkerbuijk, Berg, Marcelis & Schniepp* \\
//[[:public:publications:pub-31|"Atomic Force Spectroscopy Using Colloidal Tips Functionalized with Dried Crude Oil: A Versatile Tool to Investigate Oil–Mineral Interactions"]]//
| [[:public:publications:pub-31|{{public:thumbs:thum_energy-fuels.jpg}}]]
|-
|[[:public:publications:pub-30|[30]]]
| **Surface Innovations (2016)** — Dickinson, Kranbuehl & Schniepp* \\
//[[:public:publications:pub-30|"Assessing Graphene Oxide/Polymer Interfacial Interactions via Peeling Test"]]//
| [[:public:publications:pub-30|{{public:thumbs:thum_peeling.jpg}}]]
|-
|[[:public:publications:pub-29|[29]]]
| **Polymer (2016)** — Hocker, Hudson-Smith, Schniepp & Kranbuehl
//[[:public:publications:pub-29|"Enhancing polyimide's water barrier properties through addition of functionalized graphene oxide"]]//
| [[:public:publications:pub-29|{{public:thumbs:thum_polyimide-barrier.png}}]]
|-
|[[:public:publications:pub-28|[28]]]
| **Nanoscale (2016)** — Neugirg, Koebley, Schniepp* & Fery \\
//[[:public:publications:pub-28|"AFM-based mechanical characterization of single nanofibres"]]//
| [[:public:publications:pub-28|{{public:thumbs:thum_afm-nanofiber.png}}]]
|-
|[[:public:publications:pub-27|[27]]]
| **Biomacromolecules (2015)** — Koebley, Thorpe, Pang, Chrisochoides, Vollrath & Schniepp* \\
//[[:public:publications:pub-27|"Silk Reconstitution Disrupts Fibroin Self-Assembly"]]//
| [[:public:publications:pub-27|{{public:thumbs:thum_rsf-model.jpg}}]]
|-
|[[:public:publications:pub-26|[26]]]
| **Small (2014)** — Cui, Oyer, Glover, Schniepp & Adamson \\
//[[:public:publications:pub-26|"Large Scale Thermal Exfoliation and Functionalization of Boron Nitride"]]//
| [[:public:publications:pub-26|{{public:thumbs:thum_bn-exfol.jpg}}]]
|-
|[[:public:publications:pub-25|[25]]]
| **Adv. Materials (2013)** — Schniepp*, Koebley & Vollrath \\
//[[:public:publications:pub-25|"Brown Recluse Spider's Nanometer Scale Ribbons of Stiff Extensible Silk"]]//
| [[:public:publications:pub-25|{{public:thumbs:thum_silk-advmat.jpg}}]]
|-
|}
=== 2008–2012 ===
{|class="TableSimpleWide"
|-
|[[:public:publications:pub-24|[24]]]
| **Int. J. Oral Maxillofac. Implants (2012)** — Rapuano, Hackshaw, Schniepp & MacDonald \\
//[[:public:publications:pub-24|"Effects of Coating a Titanium Alloy with Fibronectin on the Expression of Osteoblast Gene Markers in the MC3T3 Osteoprogenitor Cell Line"]]//
| [[:public:publications:pub-24|{{public:thumbs:thum_maxillo.jpg}}]]
|-
|[[:public:publications:pub-23|[23]]]
| **J. Mater. Chem. (2012)** — Cai, Thorpe, Adamson & Schniepp* \\
//[[:public:publications:pub-23|"Methods of Graphite Exfoliation"]]//
| [[:public:publications:pub-23|{{public:thumbs:thum_exforev.jpg}}]]
|-
|[[:public:publications:pub-22|[22]]]
| **J. Phys. Chem. C (2012)** — Glover, Adamson & Schniepp* \\
//[[:public:publications:pub-22|"Charge-Driven Selective Adsorption of Sodium Dodecyl Sulfate on Graphene Oxide Visualized by Atomic Force Microscopy"]]//
| [[:public:publications:pub-22|{{public:thumbs:thum_sds-go.jpg}}]]
|-
|[[:public:publications:pub-21|[21]]]
| **Nano LIFE (2012)** — Li, Schniepp, Aksay & Car \\
//[[:public:publications:pub-21|"Phonon-Induced Anisotropic Dispersion Forces On A Metallic Substrate"]]//
| [[:public:publications:pub-21|{{public:thumbs:thum_nanolife.jpg}}]]
|-
|[[:public:publications:pub-20|[20]]]
| **J. Am. Chem. Soc. (2012)** — Oyer, Carrillo, Hire, Schniepp, Asandei, Dobrynin & Adamson \\
//[[:public:publications:pub-20|"Stabilization of Graphene Sheets by a Structured Benzene/Hexafluorobenzene Mixed Solvent"]]//
| [[:public:publications:pub-20|{{public:thumbs:thum_b-hfb.jpg}}]]
|-
|[[:public:publications:pub-19|[19]]]
| **Biomacromolecules (2012)** — Greving, Cai, Vollrath & Schniepp* \\
//[[:public:publications:pub-19|"Shear-Induced Self-Assembly of Native Silk Proteins into Fibrils Studied by Atomic Force Microscopy"]]//
| [[:public:publications:pub-19|{{public:thumbs:thum_silk-sa.jpg}}]]
|-
|[[:public:publications:pub-18|[18]]]
| **Macromolecules (2011)** — Glover, Cai, Overbeek, Kranbuehl & Schniepp* \\
//[[:public:publications:pub-18|"In Situ Reduction of Graphene Oxide in Polymers"]]//
| [[:public:publications:pub-18|{{public:thumbs:thum_insitu.jpg}}]]
|-
|[[:public:publications:pub-17|[17]]]
| **J. Appl. Polym. Sci. B (2011)** — Kranbuehl, Cai, Glover & Schniepp* \\
//[[:public:publications:pub-17|"Measurement of the interfacial attraction between graphene oxide sheets and the polymer in a nanocomposite"]]//
| [[:public:publications:pub-17|{{public:thumbs:thum_tops.jpg}}]]
|-
|[[:public:publications:pub-16|[16]]]
| **Coll. Surf. B (2011)** — MacDonald, Rapuano & Schniepp \\
//[[:public:publications:pub-16|"Surface oxide net charge of a titanium alloy: Comparison between effects of treatment with heat or radiofrequency plasma glow discharge"]]//
| [[:public:publications:pub-16|{{public:thumbs:thum_implant.jpg}}]]
|-
|[[:public:publications:pub-14|[14]]]
| **Appl. Opt. (2010)** — Fang, Punckt, Leung, Schniepp & Aksay \\
//[[:public:publications:pub-14|"Tuning of structural color using a dielectric actuator and multifunctional compliant electrodes"]]//
| [[:public:publications:pub-14|{{public:thumbs:thum_tunablecolor.jpg}}]]
|-
|[[:public:publications:pub-13|[13]]]
| **ACS Nano (2008)** — Schniepp, Kudin, Li, Car & Aksay \\
//[[:public:publications:pub-13|"Bending Properties of Single Functionalized Graphene Sheets Probed by Atomic Force Microscopy"]]//
| [[:public:publications:pub-13|{{public:thumbs:thum_folding.jpg}}]]
|}
=== From Prof. Schniepp's Work at Previous Institutions (2002–2008) ===
{|class="TableSimpleWide"
|-
|[[:public:publications:pub-12|[12]]]
| **Langmuir (2008)** — Murira, Punckt, Schniepp, Khusid, & Aksay \\
//[[:public:publications:pub-12|"Inhibition and Promotion of Copper Corrosion by CTAB in a Microreactor System"]]//
| [[:public:publications:pub-12|{{public:thumbs:thum_corros.jpg}}]]
|-
|[[:public:publications:pub-11|[11]]]
| **J. Phys. Chem C (2008)** — Schniepp, Shum, Saville & Aksay \\
//[[:public:publications:pub-11|"Orientational Order of Molecular Assemblies on Rough Surfaces"]]//
| [[:public:publications:pub-11|{{public:thumbs:thum_orient.jpg}}]]
|-
|[[:public:publications:pub-10|[10]]]
| **Nature Nanotechnol. (2008)** — Ramanathan, Abdala, Stankovich, Dikin, Herrera-Alonso, Piner, Adamson, Schniepp, Chen, Ruoff, Nguyen, Aksay, Prud'homme & Brinson \\
//[[:public:publications:pub-10|"Functionalized graphene sheets for polymer nanocomposites."]]//
| [[:public:publications:pub-10|{{public:thumbs:thum_natnano.jpg}}]]
|-
|[[:public:publications:pub-09|[9]]]
| **Langmuir (2008)** — Schniepp, Saville & Aksay \\
//[[:public:publications:pub-09|"Tip-Induced Orientational Order of Surfactant Micelles on Gold."]]//
| [[:public:publications:pub-09|{{public:thumbs:thum_shear.jpg}}]]
|-
|[[:public:publications:pub-08|[8]]]
| **Nano Letters (2008)** — Kudin, Ozbas, Schniepp, Prud'homme, Aksay & Car \\
//[[:public:publications:pub-08|"Raman spectra of graphite oxide and functionalized graphene sheets"]]//
| [[:public:publications:pub-08|{{public:thumbs:thum_raman.jpg}}]]
|-
|[[:public:publications:pub-07|[7]]]
| **Chem. Mater. (2007)** — McAllister, Li, Adamson, Schniepp, Abdala, Liu, Herrera-Alonso, Milius, Car, Prud'homme & Aksay \\
//[[:public:publications:pub-07|"Single Sheet Functionalized Graphene by Oxidation and Thermal Expansion of Graphite"]]//
| [[:public:publications:pub-07|{{public:thumbs:thum_chm.jpg}}]]
|-
|[[https://doi.org/10.1021/jp073450n|[6]]]
| **J. Phys. Chem. B (2007)** — Schniepp, Shum, Saville & Aksay \\
//[[https://doi.org/10.1021/jp073450n|"Surfactant Aggregates at Rough Solid–Liquid Interfaces"]]//
| [[https://doi.org/10.1021/jp073450n|{{public:thumbs:thum_rough.jpg}}]]
|-
|[[https://doi.org/10.1021/ja0624826|[5]]]
| **J. Am. Chem. Soc. (2006)** — Schniepp, Saville & Aksay. \_ Featured in Nature Materials.\\
//[[https://doi.org/10.1021/ja0624826|"Self-Healing of Surfactant Surface Micelles on Millisecond Time Scales"]]//
| [[https://doi.org/10.1021/ja0624826|{{public:thumbs:thum_fast.jpg}}]]
|-
|[[https://doi.org/10.1021/jp060936f|[4]]]
| **J. Phys. Chem. B (2006)** — Schniepp, Li, McAllister, Sai, Herrera-Alonso, Adamson, Prud'homme, Car, Saville & Aksay \\
//[[https://doi.org/10.1021/jp060936f|"Functionalized Single Graphene Sheets Derived from Splitting Graphite Oxide"]]//
| [[https://doi.org/10.1021/jp060936f|{{public:thumbs:thum_fgs.jpg}}]]
|-
|[[:public:publications:pub-03|[3]]]
| **Phys. Rev. Lett. (2006)** — Saville, Chun, Li, Schniepp, Car & Aksay \\
//[[:public:publications:pub-03|"Orientational Order of Molecular Assemblies on Inorganic Crystals"]]//
| [[:public:publications:pub-03|{{public:thumbs:thum_saville.jpg}}]]
|-
|[[:public:publications:pub-02|[2]]]
| **Opt. Lett. (2003)** — Rogobete, Schniepp, Sandoghdar & Henkel \\
//[[:public:publications:pub-02|"Spontaneous emission in nanoscopic dielectric particles"]]//
| [[:public:publications:pub-02|{{public:thumbs:thum_optlett.jpg}}]]
|-
|[[:public:publications:pub-01|[1]]]
| **Phys. Rev. Lett. (2002)** — Schniepp & Sandoghdar \\
//[[:public:publications:pub-01|"Spontaneous Emission of Europium Ions Embedded in Nanoscopic Dielectric Media"]]//
| [[:public:publications:pub-01|{{public:thumbs:thum_spontem.jpg}}]]
|}
==== Other Publications and Conference Proceedings ====
{|class="TableSimpleWide"
|-
| [[public:publications:pub-63|[63]]]
| **Europ. Synchrotron Rad. Facility, ESRF (2026)** — Naghilou, Sakr, Riekel, Schniepp et al.\\
//[[public:publications:pub-63|"The ultrastructure of Loxosceles silk ribbons"]]//
| [[:public:publications:pub-63|{{public:thumbs:thum_ESRF.png}}]]
|-
| [[public:publications:pub-62|[62]]]
| **arXiv (2023)** — Abeywickrama, Adamson, Schniepp*\\
//[[public:publications:pub-62|"Long-Range Hydrophobic Attraction between Graphene and Water/Oil Interfaces"]]//
| [[public:publications:pub-62|{{:public:thumbs:thum_hydrophobic_forces.png?48|}}]]
|-
| [[public:publications:pub-61|[61]]]
| **Harvard Dataverse (2023)** — Abeywickrama, Adamson, Schniepp*\\
//[[public:publications:pub-61|"Replication Data for: Long-Range Hydrophobic Attraction between Graphene and Water/Oil Interfaces"]]//
| [[public:publications:pub-61|{{:public:thumbs:thum_hydrophobic_forces.png?48|}}]]
|-
| [[public:publications:pub-60|[60]]]
| **Book Chapter (2022)** — Hannes C. Schniepp and Laura Treccani\\
in //Surface-Functionalized Ceramics: For Biotechnological and Environmental Applications// //[[public:publications:pub-60|"Chapter 4: Atomic Force Spectroscopy for Imaging and Chemical Analysis of Ceramic Surfaces".]]//
| [[public:publications:pub-60|{{:public:thumbs:thum_sds-go.jpg?48|}}]]
|-
| [[public:publications:pub-59|[59]]]
| **Harvard Dataverse (2022)** — Schniepp*, Skopic, Koebley\\
//[[public:publications:pub-59|"Replication Data for: Self-Strengthening Tape Junctions Inspired by Recluse Spider Webs"]]//
| [[public:publications:pub-59|{{:public:thumbs:thum_2022_mat_horiz.png?48|}}]]
|-
| [[public:publications:pub-54|[54]]]
| **Europ. Synchrotron Rad. Facility, ESRF (2022)** — Naghilou, Frank, Riekel, Schniepp et al.\\
//[[public:publications:pub-54|"Unveiling the topmost layers of spider silks by ultra-high resolution mapping of sections"]]//
| [[:public:publications:pub-54|{{public:thumbs:thum_ESRF.png}}]]
|-
| [[public:publications:pub-53|[53]]]
| **Harvard Dataverse (2022)** — Schniepp*, Wang, et al.\\
//[[public:publications:pub-53|"Replication Data for: Protein Secondary Structure in Spider Silk Nanofibrils"]]//
| [[:public:publications:pub-53|{{public:thumbs:thum_vibrational.png}}]]
|-
| [[public:publications:pub-52|[52]]]
| **Harvard Dataverse (2022)** — Perera, Li, Walsh, Wang & Schniepp* \\
//[[public:publications:pub-52|"Replication Data for: Natural Spider Silk Nanofibrils Produced by Assembling Molecules or Disassembling Fibers"]]//
| [[:public:publications:pub-52|{{public:thumbs:thum_nephila_nanofibrils.png}}]]
|-
| [[public:publications:pub-55|[51]]]
| **Harvard Dataverse (2022)** — Schniepp*, Perera & Wang \\
//[[public:publications:pub-51|"Replication Data for: Multi-Point Nanoindentation Method to Determine Mechanical Anisotropy in Nanofibrillar Spider Silk"]]//
| [[:public:publications:pub-55|{{public:thumbs:thum_anisotropy.png}}]]
|-
| [[public:publications:pub-50|[50]]]
| **Harvard Dataverse (2021)** — Schniepp* & Dickinson \\
//[[public:publications:pub-50|"Replication Data for: High-Throughput Optical Thickness and Size Characterization of 2D Materials"]]//
| [[:public:publications:pub-50|{{public:thumbs:thum_optical_graphene.jpg}}]]
|-
| [[public:publications:pub-44|[44]]]
| **JOM (2020)** — Naleway, Thomas, Restrepo & Schniepp \\
//[[public:publications:pub-44|"Advanced Manufacturing for Biomaterials and Biological Materials, Part II"]]//
| [[:public:publications:pub-44|{{public:thumbs:thum_JOM.jpg}}]]
|-
| [[public:publications:pub-43|[43]]]
| **JOM (2020)** — Restrepo, Naleway, Thomas & Schniepp \\
//[[public:publications:pub-43|"Advanced Manufacturing for Biomaterials and Biological Materials, Part I"]]//
| [[:public:publications:pub-43|{{public:thumbs:thum_JOM.jpg}}]]
|-
| [[public:publications:pub-38|[38]]]
| **JOM (2019)** — Schniepp* \\
//[[public:publications:pub-38|"Protein-Based Structural Materials"]]//
| [[:public:publications:pub-38|{{public:thumbs:thum_JOM.jpg}}]]
|-
|[[:public:publications:pub-15|[15]]]
| **AIP Conf. Proc. (2010)** — Cai, Glover, Wallin, Kranbuehl & Schniepp* \\
//[[:public:publications:pub-15|"Direct Measurement of the Interfacial Attractions between Functionalized Graphene and Polymers in Nanocomposites"]]//
| [[:public:publications:pub-15|{{public:thumbs:thum_tops_abs.jpg}}]]
|-
|}
==== Cover Stories ====
Covers featuring the work of Prof. Schniepp's and his group:
[[public:news:blog:2010-2013:2013-10-08_paper_recluse_silk|{{public:news:blog:2010-2013:2013-12-23_frontispiece_400.jpg?0x300}}]] [[:public:publications:2008_acs_nano|{{public:publications:acsnano_120108_270.jpg?0x300}}]] [[:public:publications:2007_cover_chem_mater|{{public:publications:cmatex_090407_270.jpg?0x300}}]]
[[public:publications:pub-36|{{:public:publications:2018_recluse-nanofibril-paper-cover-image-500.png?0x300|}}]]
===== Patents =====
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| style="width:3.5em;" | [P–1]
| **US Patent 9,162,896 B2 (Oct. 20, 2015)** —
The College of William & Mary \\
//D. E. Kranbuehl, S. K. Cotts, H. C. Schniepp, M. Cai, A. J. Glover// \\
//[[https://www.google.com/patents/US9162896|“Method for making polymer composites containing graphene sheets”]]//
| [[https://www.google.com/patents/US9162896|{{public:thumbs:thum_patent.png?nolink}}]]
|}
===== Presentations =====
**[[:public:Publications:Presentations]]** now have their **[[:public:Publications:Presentations|separate page]]**, featuring ...
* **[[:public:Publications:Presentations#Keynote Lectures]]**
* **[[:public:Publications:Presentations#Invited Talks]]**
* **[[:public:Publications:Presentations#Conference Talks]]**
* **[[:public:Publications:Presentations#Conference Posters]]**
===== Software =====
* **[[public:publications:software:scanhasee|ScanHaSee]]**: high-throughput GUI-based image processing platform for AFM, SPM, microscopy and other images and image data
* **[[https://gitlab.com/schniepp-lab/invert-mountain|invert-mountain]]**: an ImageJ plugin for atomically precise optical thickness measurements of 2D materials (as published in our **//[[:public:publications:pub-34|Nanoscale paper]]//**).
* Schniepp group github account: **[[https://gitlab.com/schniepp-lab]]**
===== Data =====
The //nano & biomaterials lab// is in support of "open data" efforts; the data of most new projects will be made fully available to the public as soon as publication and patenting embargoes have expired. The lab has a dedicated page at the Harvard Dataverse: **[[https://dataverse.harvard.edu/dataverse/schniepp-lab]]**
=== Access ===
* **Harvard Dataverse: [[https://dataverse.harvard.edu/dataverse/schniepp-lab/]]** \\ //Advatages:// fast, can be crawled by robots/spiders, adheres to metadata standards, can be search publicly \\ //Disadvantages:// folder sizes not easily visible
* **Static public, indexed HTML: [[http://nanomat.as.wm.edu/open/Data/]]** \\ //Advatages:// fast, can be crawled by robots/spiders \\ //Disadvantages:// not searchable, bulk download tedious
* **Public Nextcloud share: [[https://nanomat.as.wm.edu/owncloud/s/y4TtCcDfSPeNp8J]]** \\ //Advatages:// bulk download, file previews in browser available, folder sizes \\ //Disadvantages:// perhaps not accessible to web spiders
=== Copyright & Licence ===
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| All data is released into the public domain. No copyrights apply whatsoever.
| [[https://creativecommons.org/licenses/by/4.0/|{{:public:thumbs:thum_cc-pdm.png?nolink|}}]]
|}
==== Published Datasets ====
=== High Throughput Optical Graphene Assessment ===
== Description ==
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| Optical microscopy data, as used in our [[:public:publications:pub-34|2018 Nanoscale paper "High-throughput optical thickness and size characterization of 2D materials"]]. The details and results are described there. We have also published the software to carry out the image processing done for the publication: **[[https://gitlab.com/schniepp-lab/invert-mountain|invert-mountain]]**.
| [[:public:publications:pub-34|{{public:thumbs:thum_optical_graphene.jpg}}]]
|}
== Access ==
* Harvard Dataverse: **[[https://dx.doi.org/10.7910/DVN/AAKHGV]]**
* Nextcloud share: **[[https://nanomat.as.wm.edu/owncloud/s/t9tFJQGSEFpZa2M]]**
* Static HTML: **[[http://nanomat.as.wm.edu/open/Data/2018-04-10_Optical-Graphene-Analysis-Manuscript|nanomat.as.wm.edu/open/Data/2018-04-10_Optical-Graphene-Analysis-Manuscript]]**