Behavior, adaptation and response are considered of the characteristics of living organisms, and for architecture it is a structural, physical and functional construction. To achieve adaptation and change in the built environment is not easy, as the challenge comes from the manner we build and the hierarchical nature of the design process. As such the general problem of research in (the whole lack of knowledge of the effect of smart materials in the adaptive space within the building), and with a research problem represented by (the knowledge deficiency about a method that shows the impact of the nature of smart materials in construction to get an adaptive architectural space within the building), in order to reach the objective of the research in (making a theoretical framework on the concepts of adaptive space and the smart materials used in it to reach an adaptive space that reduces energy consumption and environmental pollution and adapts with it), as the research assumed that (the possibility of obtaining a smart adaptive space by reducing energy consumption and the continuity of building life is enhanced through the use of smart materials and their mechanisms in the construction of the building), which means that the research design plan is made using a selected example and the use of analysis it to test the research hypothesis and reach the final conclusions.

Topics
Environmental pollution, Smart materials, Knowledge, Living organism, Energy consumption
1.
F.
,
Grammenos
, and
P.
Russell
, “
Building Adaptability: A View from the Future
",
(2ⁿᵈ International Conference on Buildings and the Environment
, June
1997
.
Paris
).
Google Scholar
 
2.
B.
,
Kolarevic
, &
V.
Parlac
, “
Building Dynamics: Exploring Architecture of Change
", (
Routledge
:
Taylor & Francis Group, London and New York
,
2015
), p.
87,134,184
Google Scholar
Crossref
Search ADS
 
3.
A.
,
Aksamija
, “
Integrating Innovation in Architecture
", (
Wiley
,
UK
.,
2017x
), p.
20
-
22
,139
Google Scholar
 
4.
M.
,
Flores
, et al., “
Self-Healing Capability of Concrete with Crystalline Admixtures in Different Environments
“, (
Construction and Building Materials
, Vol.
86
,
2015
), p.
8
11
Google Scholar
 
5.
I.
,
Mazzoleni
, ”Architectur Follows Nature: Biomimetric Principles for Innovation Design”,
CRC Press
(
Boca Raton, FL
,
2013
), p.
98
,
138
6.
J.
,
Matson
, “
Shifty Science: Programmable Matter Takes Shape with Self –Folding Origami Sheets
“, (
Scientific American
,
2010
, June 28), p.
43
Google Scholar
 
7.
M.
,
Ho Bae
, “
Ballistic to Diffusive Crossover of Heat Flow in Graphene Ribbons
", (
Nature Communications
,
2013
, Vol.
4
), p.
1734
https://doi.org/10.1038/ncomms2755
Google Scholar
Crossref
Search ADS
PubMed
 
8.
A.
,
Rachel
Systems Architecture: A New Model for Sustainability and the Built Environment using Nanotechnology, Biotechnology, Information Technology, and Cognitive Science with Living Technology
”, (
Artificial Life
16
(
1
),
2010
), p.
80
Google Scholar
 
9.
S.
,
Murray
, "Translucent Building Skins: Materials Innovations in Modern and Contemporary Architecture”, (
Routledge, London and New York
,
2013
), p.
7
10.
T.
,
Sterk
, “
Shape Control in Responsive Architecture Structures“, in
proceedings of 4ᵗʰ World Conference on Structural Control and Monitoring (4 WCsSCM
) (
San Digo, CA
,
2006
), p.
56
Google Scholar
 
11.
S.
,
B.
,
Inayat
, “
Nano – Manufacturing of Thermoelectric Nanomaterials (Bi.4, Sb1.6, Te3 /Bi1.75, Te3.75) and Their Integrating into Window Glasses for Thermoelectricity Generation
",
(Energy Technology
, Vol.
2
, No.
3
,
2014
), p.
320
329
Google Scholar
 
12.
S.
,
Goodhew
, "Sustainable Construction Process”, (
WILLEY
,
Blackwell, UK., A Resource Text, P. Lovell, J
.,
2010
), "Building Envelopes: An Integrated Approach", (
Princeton Architectural Press
,
New York
,
2016
), p.
327
13.
M.
,
Kretzer
, "Information Materials: Smart for Adaptation Architecture “, 
Springer
,
Switzerland
,
2017
, p.
13
14
14.
I.
,
Knezevic
, “
Thermal Transport in Large – Area Polystalline Graphene
”, (
Physical Review B
, Vol.
90
, No.
3
,
2014
), p.
22
27
Google Scholar
 
15.
R.
Fortmeyer
,
C.
Linn
, “
KINETIC ARCHITETURE: Design for Active Envelopes”, (images Publishing Group
,
2014
), p.
166
169
Google Scholar
 
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