INSULATORS & SEMIMETALS:
TOPOLOGICAL
 General:

The quantum spin Hall effect and topological insulators
by XiaoLiang Qi and ShouCheng Zhang
[Physics Today 63, 33 (January 2010)]

Topological insulators and superconductors
by XiaoLiang Qi and ShouCheng Zhang
[2010/08]

ThreeDimensional Topological Insulators
by M. Zahid Hasan and Joel E. Moore
[2010/11]

Transport in threedimensional topological insulators: theory and experiment
by Dimitrie Culcer
[2011/08]

Topological Insulators with Ultracold Atoms
by Indubala I Satija and Erhai Zhao
[2012/01]

Spinhelical transport in normal and superconducting topological insulators
by Grigory Tkachov and E. M. Hankiewicz
[2012/08]

Topological insulators and thermoelectric materials
by Lukas Müchler et al.
[2012/09]

From the adiabatic theorem of quantum mechanics to topological states of matter
by Jan Carl Budich and Björn Trauzettel
[2012/10]

Threedimensional topological insulators: A review on host materials
by
Wanxiang Feng and Yugui Yao
[Science China (Physics, Mechanics, & Astronomy) 55, 1 (2012)]

Introduction to Topological Insulators
by Hongming Weng et al.
[Asia Pacific Physics Newsletter 1, 31 (2012)]

Crystal Structure and Chemistry of Topological Insulators
by R. J. Cava et al.
[2013/02]

Topological Insulator Materials
by Yoichi Ando
[2013/04]

Dirac Fermions in Solids  from High Tc cuprates and Graphene to
Topological Insulators and Weyl Semimetals
by Oskar Vafek and Ashvin Vishwanath
[2013/06]

An Introduction to Topological Order in Insulators
by Michel Fruchart and David Carpentier
[2013/10]

Introduction to Dirac materials and topological insulators
by Jerome Cayssol
[2013/10]

Topological Insulators, Topological Crystalline Insulators,
and Topological Kondo Insulators
by M. Zahid Hasan et al.
[2014/06]

Particle Physics and Condensed Matter: The Saga Continues
by Frank Wilczek
[2014/06]

Geometric Phases and Topological Effects
by Yuriy Mokrousov and Frank Freimuth
[2014/07]

Topology of Bands in Solids : From Insulators to Dirac Matter
by David Carpentier
[2014/08]

A short guide to topological terms in the effective
theories of condensed matter
by Akihiro Tanaka and Shintaro Takayoshi
[Sci. Technol. Adv. Mater. 16, 4014404 (2015)]

Quantum Information Meets Quantum Matter 
From Quantum Entanglement to
Topological Phase in ManyBody Systems
by Bei Zeng et al.
[2015/08] 349 pp.

A Short Course on Topological Insulators:
Bandstructure topology and edge states in one and two dimensions
by J´nos K. Asbóth et al.
[2015/09]

Topological Phases in TwoDimensional Materials: A Brief Review
by Yafei Ren et al.
[Rep. Prog. Phys. 79, 066501 (2016)]

Colloquium: Topological Band Theory
by Arun Bansil et al.
[2016/03]

Why all the fuss about 2D semiconductors?
by Andres CastellanosGomez
[Nature Photonics 10, 202 (2016)]

A pedagogic review on designing model
topological insulators
by Tanmoy Das
[2016/04]

Dirac and Weyl Materials: Fundamental Aspects and
Some Spintronic Applications
by Shengyuan A. Yang
[2016/09]

Zoo of quantumtopological phases of matter
by XiaoGang Wen
[2016/10]

Emerging Trends in Topological Insulator and Topological
Superconductor
by Arijit Saha and Arun M. Jayannavar
[2016/11]

Weyl Semimetals, Fermi Arcs and Chiral Anomalies
by Shuang Jia et al.
[Nature Materials 15, 1140 (2016)]

Weyl and Dirac Semimetals in Three Dimensional Solids
by N. Peter Armitage et al.
[2016/12]

Introduction to Topological Phases and Electronic
Interactions in (2+1) Dimensions
by Leandro O. Nascimento
[2017/01]

Topological insulator materials for advanced
optoelectronic devices
by Zengji Yue et al.
[2018/02]

Topological Insulators: A Review
by R. Shankar
[2018/04] 102 pp.

A Passage to Topological Matter
by Kwon Park
[Journal of the Korean Physical Society
73, 817 (2018)]

Topological Semimetals from First Principles
by Heng Gao et al.
[2018/10]

Novel Topological Insulators from
Crystalline Symmetries
by Alexander Lau and Carmine Ortix
[2018/10]

Atoms to Topological Electronic
Materials: A Bedtime Story for Beginners
by Arnab Kumar Pariari
[2019/05]

Topological States
by Dimirie Culcer and Attila Geresdi
[2019/07]

New quantum phases of matter: topological materials
by V. Bhardwaj and R. Chatterjee
[2020/03]
 General: Models: SSH:
 Type: COLD GASES:
 Type: CRYSTALLINE:
 Type: FLOQUET:
 Type: FRACTIONAL:
 Type: GAPLESS/INTERACTING:
 Type: HEUSLER:
 Type: HIGH ORDER:
 Type: KONDO:
 Type: LAYERED:
 Type: MONOLAYER:
 Type: NONHERMITIAN:
 Type: OXIDES:
 Type: PHOTONIC:
 Type: TWODIMENSIONAL:
 Type: TYPE II METALS:
 Type: WEYL:
 Aspects: PHASE TRANSITIONS:
 Aspects: PHOTOEMISSION:
 Aspects: PHOTOGALVANIC EFFECT:
 Aspects: TRANSPORT:
 Re: CHEMISTRY:
 Re: ENTANGLEMENT:
 Re: GLASSES:
 Re: MAGNETIC FIELD:
 Re: MAGNETIC PROPERTIES:
 Re: NONCOMMUTATIVE GEOMETRY:
 Type: PHOTONIC:
 Re: PLASMONS:
 Re: QUANTUM HALL EFFECT:
 Re: SPINTRONICS:
 Re: SUPERCONDUCTIVITY:
 Re: SUPERSYMMETRY:
 Re: SYMMETRIC SPACES: