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Paul M. Lahti

Paul M. Lahti

University of Massachusetts Amherst
United States

Overview

What is he best known for?

The fields of study he is best known for:

  • Organic chemistry
  • Quantum mechanics
  • Molecule

Paul M. Lahti mostly deals with Crystallography, Stereochemistry, Conjugated system, Computational chemistry and Photochemistry. He mostly deals with Magnetic susceptibility in his studies of Crystallography. In his study, Nitroxide mediated radical polymerization is inextricably linked to Singlet state, which falls within the broad field of Stereochemistry.

His Conjugated system research incorporates themes from Intramolecular force and Exchange interaction. Paul M. Lahti has included themes like Triplet state, Molecule, Heteroatom, Open shell and Molecular physics in his Computational chemistry study. His work deals with themes such as Copolymer, PEDOT:PSS, Polymer, Luminescence and Photoluminescence, which intersect with Photochemistry.

His most cited work include:

  • Kinetics of Ion Transport in Perovskite Active Layers and Its Implications for Active Layer Stability. (203 citations)
  • Semiempirical study of electron exchange interaction in organic high-spin .pi.-systems. Classifying structural effects in organic magnetic molecules (76 citations)
  • A cobalt pyrenylnitronylnitroxide single-chain magnet with high coercivity and record blocking temperature. (69 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Photochemistry, Crystallography, Computational chemistry, Radical and Stereochemistry. His studies in Photochemistry integrate themes in fields like Electron paramagnetic resonance, Molecule and Photoluminescence. Paul M. Lahti interconnects Hydrogen bond, Antiferromagnetism and Nitroxide mediated radical polymerization in the investigation of issues within Crystallography.

The Antiferromagnetism study which covers Exchange interaction that intersects with Conjugated system. The concepts of his Computational chemistry study are interwoven with issues in Chemical physics, Open shell, Molecular physics, Singlet state and Nitrene. His Singlet state research includes themes of Configuration interaction and Triplet state.

He most often published in these fields:

  • Photochemistry (27.27%)
  • Crystallography (29.92%)
  • Computational chemistry (15.53%)

What were the highlights of his more recent work (between 2012-2020)?

  • Crystallography (29.92%)
  • Antiferromagnetism (14.77%)
  • Photochemistry (27.27%)

In recent papers he was focusing on the following fields of study:

Paul M. Lahti spends much of his time researching Crystallography, Antiferromagnetism, Photochemistry, Nanotechnology and Molecule. His studies deal with areas such as Anthraquinone, Nitroxide mediated radical polymerization, Stacking, Coercivity and Magnet as well as Crystallography. Paul M. Lahti has researched Antiferromagnetism in several fields, including Imidazole, Stereochemistry, Magnetization, Ferromagnetism and Crystal structure.

His Photochemistry research is multidisciplinary, incorporating perspectives in Solvatochromism, Absorption, Fluorenone, Absorption and Photoluminescence. His research investigates the connection with Molecule and areas like Conjugated system which intersect with concerns in Conductivity. His Pyrene study incorporates themes from Magnetic susceptibility and Radical.

Between 2012 and 2020, his most popular works were:

  • Kinetics of Ion Transport in Perovskite Active Layers and Its Implications for Active Layer Stability. (203 citations)
  • A cobalt pyrenylnitronylnitroxide single-chain magnet with high coercivity and record blocking temperature. (69 citations)
  • A single-chain magnet with a very high blocking temperature and a strong coercive field. (46 citations)

In his most recent research, the most cited papers focused on:

  • Organic chemistry
  • Quantum mechanics
  • Molecule

His primary areas of investigation include Nanotechnology, Organic solar cell, Short circuit, Polymer solar cell and Chemical engineering. In the subject of general Nanotechnology, his work in Self-assembly and Nanoparticle is often linked to Active layer and Interaction model, thereby combining diverse domains of study. The study incorporates disciplines such as Polar effect, Polymerization, Thiophene, Polymer chemistry and Alkyl in addition to Organic solar cell.

His biological study spans a wide range of topics, including Dipole, Malononitrile and Charge carrier. His work on Carbon nanotube as part of general Chemical engineering research is often related to Triiodide, thus linking different fields of science. His Optoelectronics study frequently draws connections between adjacent fields such as Polymer.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Kinetics of Ion Transport in Perovskite Active Layers and Its Implications for Active Layer Stability.

Monojit Bag;Lawrence A. Renna;Ramesh Y. Adhikari;Supravat Karak.
Journal of the American Chemical Society (2015)

358 Citations

Semiempirical study of electron exchange interaction in organic high-spin .pi.-systems. Classifying structural effects in organic magnetic molecules

Paul M. Lahti;Andrew S. Ichimura.
Journal of Organic Chemistry (1991)

137 Citations

Poly(phenylenevinylene)-Attached Phenoxyl Radicals: Ferromagnetic Interaction through Planarized and π-Conjugated Skeletons

Hiroyuki Nishide;Takashi Kaneko;Takeshi Nii;Kohya Katoh.
Journal of the American Chemical Society (1996)

123 Citations

Models for intramolecular exchange in organic .pi.-conjugated open-shell systems. A comparison of 1,1-ethenediyl and carbonyl linked bis(arylnitrenes)

Chris Ling;Masaki Minato;Paul M. Lahti;Hans Van Willigen.
Journal of the American Chemical Society (1992)

112 Citations

Light Emitting Properties of Fluorine-Substituted Poly(1,4-phenylene vinylenes)

Ronald M. Gurge;Ananda M. Sarker;Paul M. Lahti;Bin Hu.
Macromolecules (1997)

109 Citations

Use of the Pariser-Parr-Pople approximation to obtain practically useful predictions for electronic spectral properties of conducting polymers

Paul M. Lahti;Jan Obrzut;Frank E. Karasz.
Macromolecules (1987)

106 Citations

Quintet and Septet State Systems Based on Pyridylnitrenes: Effects of Substitution on Open-Shell High-Spin States

Sergei V. Chapyshev;Richard Walton;and Jon A. Sanborn;Paul M. Lahti.
Journal of the American Chemical Society (2000)

99 Citations

Structure−Property Relationships in Light-Emitting Polymers: Optical, Electrochemical, and Thermal Studies

Min Zheng;Ananda M. Sarker;E. Elif Gürel;Paul M. Lahti.
Macromolecules (2000)

99 Citations

Red Light Emitting ``Push-Pull'' Disubstituted Poly(1,4-phenylenevinylenes)

Ronald M. Gurge;Ananda Sarker;Paul M. Lahti;Bin Hu.
Macromolecules (1996)

97 Citations

Energies of non-Kekulé molecular states. Calculation by a predictively useful semiempirical method

Paul M. Lahti;Angelo Rossi;Jerome A. Berson.
Journal of the American Chemical Society (1985)

92 Citations

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