Atomic Force Microscopy Study of an Ideally Hard Contact: The Diamond(111)/Tungsten Carbide Interface

In situ Mechanical Testing of Contacts Between Nanoscale Bodies: Measuring the Load-dependence of Contact Area.

Vishnubhotla, Sai Bharadwaj
Chen, Rimei
Khanal, Subarna
Hu, Xiaoli
Martini, Ashlie
Jacobs, Tevis

July 2017

Mechanical tests were performed on a silicon/diamond nanocontact. Using in situ transmission electro...

Simulated adhesion between realistic hydrocarbon materials: Effects of composition, roughness, and contact point

Ryan, KE
Keating, PL
Jacobs, TDB
Grierson, DS
Turner, KT
Carpick, RW
Harrison, JA

March 2014

The work of adhesion is an interfacial materials property that is often extracted from atomic force ...

Matching atomistic simulations and in situ experiments to investigate the mechanics of nanoscale contact

Vishnubhotla, Sai Bharadwaj
Chen, Rimei
Khanal, Subarna R.
Hu, Xiaoli
Martini, Ashlie
Jacobs, Tevis

July 2019

Many emerging devices and technologies rely on contacts between nanoscale bodies. Recent analytical ...

Atomic Force Microscopy Study of an Ideally Hard Contact: The Diamond(111)/Tungsten Carbide Interface

Enachescu, M.
van den Oetelaar, R.J. A
Carpick, Robert W
Ogletree, D. F
Flipse, C. F. J
Salmeron, Miguel

August 1998

A comprehensive nanotribological study of a hydrogen-terminated diamond(111)/tungsten carbide interf...

Observation of proportionality between friction and contact area at the nanometer scale

Enachescu, M.
Oetelaar, van den, R.J.A.
Carpick, R.W.
Ogletree, D.F.
Flipse, C.F.J.
Salmeron, M.B.

January 1999

The nanotribological properties of a hydrogen-terminated diamond(111)/tungsten-carbide interface hav...

Atomic-scale friction : a scanning probe study on crystalline surfaces

Tanasa, G.

January 2005

Friction is one of the most fascinating and yet elusive phenomena in physics. Everyday life cannot b...

Understanding Atomic-Scale Mechanisms of Adhesion and Deformation at Contacting Surfaces: Quantitative Investigations Using In situ TEM

Vishnubhotla, Sai Bharadwaj

July 2020

Nanoscale contacts are relevant in advanced technologies like nanomanufacturing, scanning probe micr...

Imaging and Understanding Atomic-Scale Adhesion and Wear: Quantitative investigations Using in situ TEM

Jacobs, Tevis

January 2013

The underlying physics governing tribological interactions - adhesion, friction, lubrication, and we...

Measurement of interfacial shear (friction) with an ultrahigh vacuum atomic force microscope

Carpick, Robert W
Agraït, N.
Ogletree, D. F
Salmeron, Miguel

March 1996

We have studied the variation of frictional force with externally applied load for a Pt-coated atomi...

Atomic scale study of superlow friction between hydrogenated diamond surfaces

Dag, S.
Ciraci, S.

January 2004

Strong attractive interaction between two clean diamond (001) slabs turns repulsive upon the hydroge...

The role of contaminants in the variation of adhesion, friction, and electrical conduction properties of carbide-coated scanning probe tips and Pt(111) in ultrahigh vacuum

Enachescu, M.
Carpick, Robert W
Ogletree, D. F
Salmeron, Miguel

June 2004

Scanning probe microscopy was used to investigate the tribological properties of nanoscale tips in c...

Imaging and understanding atomic-scale adhesion and wear: Quantitative investigations using in situ TEM

Jacobs, Tevis David Bartow

January 2013

The underlying physics governing tribological interactions – adhesion, friction, lubrication, and we...

Young modulus dependence of nanoscopic friction coefficient in hard coatings

Riedo, Elisa
Brune, Harald

August 2003

The Role Of Sliding Contact In Nanoscale Tribochemistry

Milne, Zachary Banks

January 2018

In this dissertation, the results of experimental and theoretical studies exploring friction and adh...

Quantifying the Pressure-dependence of Work of Adhesion in Silicon-Diamond Contacts

Chen, Rimei
Vishnubhotla, Sai Bharadwaj
Khanal, Subarna R.
Jacobs, Tevis D. B.
Martini, Ashlie

February 2020

Continuum mechanics models for contacting surfaces assume a constant interfacial energy, or work of ...

In situ Mechanical Testing of Contacts Between Nanoscale Bodies: Measuring the Load-dependence of Contact Area.

Vishnubhotla, Sai Bharadwaj
Chen, Rimei
Khanal, Subarna
Hu, Xiaoli
Martini, Ashlie
Jacobs, Tevis

July 2017

Mechanical tests were performed on a silicon/diamond nanocontact. Using in situ transmission electro...

Simulated adhesion between realistic hydrocarbon materials: Effects of composition, roughness, and contact point

Ryan, KE
Keating, PL
Jacobs, TDB
Grierson, DS
Turner, KT
Carpick, RW
Harrison, JA

March 2014

The work of adhesion is an interfacial materials property that is often extracted from atomic force ...

Matching atomistic simulations and in situ experiments to investigate the mechanics of nanoscale contact

Vishnubhotla, Sai Bharadwaj
Chen, Rimei
Khanal, Subarna R.
Hu, Xiaoli
Martini, Ashlie
Jacobs, Tevis

July 2019

Many emerging devices and technologies rely on contacts between nanoscale bodies. Recent analytical ...

Atomic Force Microscopy Study of an Ideally Hard Contact: The Diamond(111)/Tungsten Carbide Interface

Enachescu, M.
van den Oetelaar, R.J. A
Carpick, Robert W
Ogletree, D. F
Flipse, C. F. J
Salmeron, Miguel

August 1998

A comprehensive nanotribological study of a hydrogen-terminated diamond(111)/tungsten carbide interf...

Observation of proportionality between friction and contact area at the nanometer scale

Enachescu, M.
Oetelaar, van den, R.J.A.
Carpick, R.W.
Ogletree, D.F.
Flipse, C.F.J.
Salmeron, M.B.

January 1999

The nanotribological properties of a hydrogen-terminated diamond(111)/tungsten-carbide interface hav...

Atomic-scale friction : a scanning probe study on crystalline surfaces

Tanasa, G.

January 2005

Friction is one of the most fascinating and yet elusive phenomena in physics. Everyday life cannot b...

Understanding Atomic-Scale Mechanisms of Adhesion and Deformation at Contacting Surfaces: Quantitative Investigations Using In situ TEM

Vishnubhotla, Sai Bharadwaj

July 2020

Nanoscale contacts are relevant in advanced technologies like nanomanufacturing, scanning probe micr...

Imaging and Understanding Atomic-Scale Adhesion and Wear: Quantitative investigations Using in situ TEM

Jacobs, Tevis

January 2013

The underlying physics governing tribological interactions - adhesion, friction, lubrication, and we...

Measurement of interfacial shear (friction) with an ultrahigh vacuum atomic force microscope

Carpick, Robert W
Agraït, N.
Ogletree, D. F
Salmeron, Miguel

March 1996

We have studied the variation of frictional force with externally applied load for a Pt-coated atomi...

Atomic scale study of superlow friction between hydrogenated diamond surfaces

Dag, S.
Ciraci, S.

January 2004

Strong attractive interaction between two clean diamond (001) slabs turns repulsive upon the hydroge...

The role of contaminants in the variation of adhesion, friction, and electrical conduction properties of carbide-coated scanning probe tips and Pt(111) in ultrahigh vacuum

Enachescu, M.
Carpick, Robert W
Ogletree, D. F
Salmeron, Miguel

June 2004

Scanning probe microscopy was used to investigate the tribological properties of nanoscale tips in c...

Imaging and understanding atomic-scale adhesion and wear: Quantitative investigations using in situ TEM

Jacobs, Tevis David Bartow

January 2013

The underlying physics governing tribological interactions – adhesion, friction, lubrication, and we...

Young modulus dependence of nanoscopic friction coefficient in hard coatings

Riedo, Elisa
Brune, Harald

August 2003

The Role Of Sliding Contact In Nanoscale Tribochemistry

Milne, Zachary Banks

January 2018

In this dissertation, the results of experimental and theoretical studies exploring friction and adh...

Quantifying the Pressure-dependence of Work of Adhesion in Silicon-Diamond Contacts

Chen, Rimei
Vishnubhotla, Sai Bharadwaj
Khanal, Subarna R.
Jacobs, Tevis D. B.
Martini, Ashlie

February 2020

Continuum mechanics models for contacting surfaces assume a constant interfacial energy, or work of ...

In situ Mechanical Testing of Contacts Between Nanoscale Bodies: Measuring the Load-dependence of Contact Area.

Vishnubhotla, Sai Bharadwaj
Chen, Rimei
Khanal, Subarna
Hu, Xiaoli
Martini, Ashlie
Jacobs, Tevis

July 2017

Mechanical tests were performed on a silicon/diamond nanocontact. Using in situ transmission electro...

Simulated adhesion between realistic hydrocarbon materials: Effects of composition, roughness, and contact point

Ryan, KE
Keating, PL
Jacobs, TDB
Grierson, DS
Turner, KT
Carpick, RW
Harrison, JA

March 2014

The work of adhesion is an interfacial materials property that is often extracted from atomic force ...

Matching atomistic simulations and in situ experiments to investigate the mechanics of nanoscale contact

Vishnubhotla, Sai Bharadwaj
Chen, Rimei
Khanal, Subarna R.
Hu, Xiaoli
Martini, Ashlie
Jacobs, Tevis

July 2019

Many emerging devices and technologies rely on contacts between nanoscale bodies. Recent analytical ...

Atomic Force Microscopy Study of an Ideally Hard Contact: The Diamond(111)/Tungsten Carbide Interface

Abstract

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Atomic Force Microscopy Study of an Ideally Hard Contact: The Diamond(111)/Tungsten Carbide Interface

Abstract

Extracted data

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